United States Office of Research and EPA/600/R-99/078
Environmental Protection Development August 1999
Agency Washington, DC 20460 www.epa.gov/ncerqa
>=,EPA SMALL BUSINESS
INNOVATION RESEARCH
PHASE I
Program Solicitation No. PR-NC-99-13350
ISSUE DATE: August 13,1999
CLOSING DATE: October 13,1999 *
* CAUTION - See Section V, Paragraph J(9)(c), Instructions to
Offerors, Concerning Late Proposals and Modifications.
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
Table of Contents
Page
I. Program Description[[[3
II. Definitions [[[5
III. Proposal Preparation Instructions and Requirements [[[6
IV. Method of Selection and Evaluation Criteria [[[9
V. Considerations[[[ 10
VI. Submission of Proposals [[[ 17
VII. Scientific and Technical Information Sources[[[ 17
VIII. Research Topics[[[ 17
A. Pollution Prevention and Clean Technologies 18
B. Prevention, Control and Monitoring of Mobile Source Emissions 20
C. Prevention and Control of Indoor Air Pollution 22
D. Prevention/Control of NOx, VOC's, S02, Particulates, Toxic Air Emissions 22
E. Drinking Water Treatment 23
F. Municipal Wastewater Treatment, Septage and Biosolids Management 24
G. Industrial Wastewater Treatment, Mining and Feedlots 24
H. Storm water Management and Wet Weather Control 25
I. Rehabilitation of Urban Infrastructure 26
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
EPA Small Business
Innovation Research
Phase I
Solicitation No. PR-NC-99-13350
ISSUE DATE: August 13, 1999
CLOSING DATE: October 13, 1999 *
* CAUTION - See Section V, Paragraph J(9)(c), In-
structions to Offerors, Concerning Late Proposals and
Modifications.
L PROGRAMDESCRDPIION
A. The Environmental Protection Agency (EPA)
invites small business firms to submit research proposals
under this program solicitation entitled "Small Business
Innovation Research (SBIR) Program." The SBIR program
is a phased process uniform throughout the Federal Gov-
ernment of soliciting proposals and awarding funding
agreements for research (R) or research and development
(R&D) to meet stated agency needs or missions.
B. EPA is interested in research on advanced con-
cepts in scientific and engineering areas, particularly where
the research may serve as a base for technological innova-
tion. The proposed research must address a single research
topic of the solicitation or an important segment of a re-
search topic. Only proposals addressing a single research
topic, and so indicated on the cover sheet, will be re-
viewed. Multiple proposals from the same offeror address-
ing different topics are acceptable if they are not duplicates
of the same research principle modified to fit the topics. If
such duplicates are submitted, only one will be reviewed.
Refer to Sections III, IV, and VIII for additional requirements.
The proposed research must directly pertain to EPA's
environmental mission and must be responsive to EPA
program interests included in the topic descriptions of this
solicitation. The Agency's SBIR program is concerned with
pollution prevention, air and water pollution control, solid
and hazardous waste management, environmental monitor-
ing and analytical technologies. In order to facilitate pro-
posal reviews by external peer reviewers with specialized
expertise and by EPA technical personnel with focused
program needs and priorities, offerors must designate a
research topic, and only one topic, for their proposal. The
same proposal may not be submitted under more than one
topic, but an organization may submit separate proposals
on different topics or different proposals on the same topic.
Where similar research is discussed under more than one
topic, the offeror should choose the topic most relevant to
the proposed research. It is the complete responsibility of
the offeror to select and identify the best topic for their
proposal.
To reiterate, any proposal addressing more than one
research topic, failing to identify the research topic by
letter symbol (see Section VIII) on the cover page, or is a
duplicate of the same research principle modified to fit a
topic, will not be reviewed at all.
This solicitation is for Phase I only.
To stimulate and foster technological innovation,
including increasing private sector applications of Federal
research or R&D, the EPA's program will follow the SBIR
program's uniform process of three phases:
PHASE I. Phase I involves a solicitation of proposals to
conduct feasibility related experimental research or R&D
related to described agency requirements. The objective of
this phase is to determine the technical feasibility and pre-
liminary commercialization potential of the proposed ef-
fort and the quality of performance of the small concern
with a relatively small agency investment before consider-
ation of further Federal support in Phase II.
PHASE II. Phase II proposals may only be submitted by
Phase I award winners within the same agency. The Phase II
solicitation will automatically be sent to all eligible Phase
I firms. Phase II is the principal research or R&D effort and
should not normally exceed 24 months. Funding shall be
based upon the results of Phase I and the scientific and
technical merit and commercial potential of the Phase II
proposal. The objective is to continue the research or R&D
initiated under Phase I and work toward commercialization
of the technology. Phase II proposals can only be submit-
ted to the Federal agency that awarded Phase I of the effort.
Phase II awards may not necessarily complete the total
research and development that may be required to satisfy
commercial or federal needs beyond the SBIR program.
Completion of the research and development may be
through Phase III. The Agency is under no obligation to
fund any proposal or any specific number of proposals in a
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EPA Small Business Innovation Research Phase 1
FYOO Program Solicitation No. PR-NC-99-13350
given topic. It also may elect to fund several or none of the
proposed approaches to the same topic or subtopic.
It is anticipated that approximately 10-20 Phase II
awards with a dollar amount of $225,000 each will be
made. For Phase II, the Agency is planning to offer a Phase
II Option under which Phase II offerors may submit a pro-
posal for $70,000 additional funding to expand R&D ef-
forts to accelerate commercialization. The purpose of the
additional funding is to accelerate the project to the com-
mercialization stage. EPA federal funds must be designated
strictly for advancing the research related elements of the
project. No automatic preference shall be given to offers
which address the option; however, in the case where an
offeror addresses the option in its proposal, the entire pro-
posal including the option shall be evaluated. The Agency
would have a unilateral right to exercise the option after
EPA's acceptance of the company's detailed commercial-
ization plan, including information on any commercializa-
tion funding from third party investors, such as another
company, venture capital firm or "angel" investor. The
Government is not obligated to fund any specific Phase II
proposal.
It is anticipated that the follow-on Phase II Solicita-
tion will be issued on/about March 2, 2000, and that pro-
posals will be due on/about April 20, 2000. EPA expects to
allow companies submitting unsuccessful FY 2000 Phase II
proposals to submit a revised proposal of the same technol-
ogy in the next Phase II (FY 2001) Solicitation. It is ex-
pected that each Phase II proposal will be evaluated in
accordance with the following criteria:
CRITERIA
1. The scientific and technical quality and signifi-
cance of the proposed technology as applied R/R&D.
Credibility and overall soundness of the research
plan to establish the technical and commercial feasi-
bility of the proposed concept as evidenced through
technology prototypes or initial commercial demon-
strations.
2. The originality, uniqueness, and ingenuity of the
proposed concept as a technologically innovative
and commercially viable application as evidenced
through technology prototypes or initial commercial
demonstrations.
3. Results of Phase I and degree to which research
objectives and identified customer needs were met.
Demonstration of performance/cost effectiveness and
environmental benefits associated with the proposed
research, including risk reduction potential.
4. Qualifications of the principal/key investigator,
supporting staff and consultants. Time commitment
of principal/key investigator and adequacy of equip-
ment and facilities to accomplish the proposed re-
search. Adequacy of Phase II Quality Assurance Sum-
mary.
5. Potential of the proposed concept for significant
commercialization applications. The quality and
adequacy of the commercialization plan to produce
an innovative product, process or device and getting
technology prototypes or initial Phase II applications
into commercial production and sales. Expected mar-
ket and competition and other financial/business
indicators of commercialization potential and the
offeror's SBIR or other research commercialization
record.
PHASE III. Where appropriate and needed in order to
complete the research and development, there may be a
third phase which is funded by :
a. Non-federal sources of capital for commercial ap-
plications of SBIR funded research or research and
development.
b. Federal government with non-SBIR federal funds
for SBIR derived products and processes that will be
used by the federal government.
c. Non-SBIR federal funds for the continuation of
research or research and development that has been
competitively selected using peer review or scientific
review criteria.
C. ELIGIBILITY.
Each concern submitting a proposal must qualify as a
small business for research or R&D purposes at the time of
award. In addition, the primary employment of the princi-
pal investigator must be with the small business concern at
the time of award and during the conduct of the proposed
research. Principal investigators who appear to be em-
ployed by a university must submit a letter from the uni-
versity stating that the principal investigator, if awarded an
SBIR contract, will become a less-than-half-time employee
of the university. Also, a principal investigator who appears
to be a staff member of both the applicant and another em-
ployer must submit a letter from the second employer stat-
ing that, if awarded an SBIR contract, he/she will become a
less-than-half-time employee of such organization. Also,
for both Phase I and Phase II, the research or R&D work
must be performed in the United States. "United States"
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EPA Small Business Innovation Research Phase 1
FYOO Program Solicitation No. PR-NC-99-13350
means the 50 states, the Territories and possessions of the
United States, the Commonwealth of Puerto Rico, the Trust
Territory of the Pacific Islands, and the District of Colum-
bia.
D. All inquiries concerning this solicitation shall be
submitted to the following E-mail address:
peele.kathryn @ epa.gov
If E-mail is not available to you, written or telephone
inquiries may be directed to:
Kathryn Peele/SBIR-I
U.S. Environmental Protection Agency
Contracts Management Division (MD-33)
Research Triangle Park, NC 27711
(919) 541-5293
Potential offerors are encouraged to communicate via
E-mail.
E DEFINITIONS
For purposes of this solicitation, the following defini-
tions apply:
Research or Research and Development: Any activ-
ity that is:
(1) A systematic, intensive study directed toward greater
knowledge or understanding of the subject studied.
(2) A systematic study directed specifically toward ap-
plying new knowledge to meet a recognized need.
(3) A systematic application of knowledge toward the
production of useful materials, devices, and systems
or methods, including design, development, and im-
provement of prototypes and new processes to meet
specific requirements.
Funding Agreement: Any contract, grant, or coopera-
tive agreement entered into between any Federal Agency
and any small business concern for the performance of
experimental, developmental or research work funded in
whole or in part by the Federal Government.
Subcontract: Any agreement, other than one involv-
ing an employer-employee relationship, entered into by a
Federal Government funding agreement awardee calling
for supplies or services required solely for the performance
of the original funding agreement.
Small Business Concern: A small business concern is
one that, at the time of award of Phase I and Phase II fund-
ing agreements, meets the following criteria:
(1) Is independently owned and operated, is not domi-
nant in the field of operation in which it is proposing,
has its principal place of business located in the
United States and is organized for profit;
(2) Is at least 51 percent owned, or in the case of a pub-
licly owned business, at least 51 percent of its voting
stock is owned by United States citizens or lawfully
fully admitted permanent resident aliens; (if this ap-
plies, appropriate documentation must be submitted).
(3) Has, including its affiliates, a number of employees
not exceeding 500, and meets the other regulatory
requirements found in 13 CFR Part 121. Business
concerns, other than investment companies licensed,
or state development companies qualifying under the
Small Business Investment Act of 1958,15 U.S.C.
661, et. seq., are affiliates of one another when either
directly or indirectly:
(A) one concern controls or has the power to control
the other; or
(B) a third party or parties controls or has the power
to control both.
Control can be exercised through common owner-
ship, common management, and contractual relationships.
The term "affiliates" is defined in greater detail in 13 CFR
121. The term "number of employees" is defined in 13
CFR 121. Business concerns include, but are not limited
to, any individual, partnership, corporation, joint venture,
association or cooperative.
Socially and Economically Disadvantaged Small
Business Concern: A socially and economically disadvan-
taged small Business concern is one that is:
(1) At least 51 percent owned by (i) an Indian tribe or a
native Hawaiian organization, or (ii) one or more
socially and economically disadvantaged individu-
als, and
(2) Whose management and daily business operations
are controlled by one or more socially and economi-
cally disadvantaged individuals.
Socially and Economically Disadvantaged Indi-
vidual: A member of any of the following groups:
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
(1) Black Americans;
(2) Hispanic Americans;
(3) Native Americans;
(4) Asian-Pacific Americans;
(5) Subcontinent Asian Americans;
(6) Other groups designated from time to time by SBA to
be socially disadvantaged; or
(7) Any other individual found to be socially and eco-
nomically disadvantaged by SBA pursuant to section
8(a) of the Small Business Act, 15 U.S.C. 637(a).
Women-Owned Small Business Concern: A small
business concern that is at least 51 percent owned by a
woman or women who also control and operate it. "Con-
trol" in this context means exercising the power to make
policy decisions. "Operate" in this context means being
actively involved in the day-to-day management.
Primary Employment: More than one-half of the
principal investigator's time is spent in the employ of the
small business.
United States: The 50 States, the Territories and
possessions of the United States, the Commonwealth of
Puerto Rico, the Trust Territory of the Pacific Islands, and
the District of Columbia.
Commercialization: The process of developing
markets and producing and delivering products for sale
(whether by the originating party or by others); as used
here, commercialization includes both government and
commercial markets.
ffl. PR0PQSALPREPAM10N
INSTRUOIONSAND
REQUIREMENTS
A. PROPOSAL PAGE LIMIT
Proposals submitted in response to this Phase I solici-
tation shall not exceed a total of 25 pages, one side only,
except for the requirements set forth in Section III.D. 11
"Prior SBIR Awards". Pages should be of standard size (8 1/
2" x 11"; 21.6 cm x 27.9 cm) with 2.5 cm margins and type
no smaller than 10 point font size. All pages must be con-
secutively numbered. Proposals in excess of the 25 page
limitation shall not be considered for review or award. A
letter of transmittal is not necessary. If one is furnished, it
must not be attached to every copy of the proposal. If a
letter of transmittal is attached to every copy of the pro-
posal, it will be counted as page 1 of the proposal. No
binders are necessary. If binders are provided, they will be
counted as pages even if no printing or writing is thereon.
B. PROPOSAL COVER SHEET
The offeror shall photocopy (or download from the
Internet) and complete Appendix A as page 1 of each copy
of each proposal. No other cover is permitted. When
downloading the solicitation from the Internet, Appendix A
may print on two pages, but will count as one page.
Offerors may reformat the form to correct spacing and pagi-
nation errors, however, identical information must be pro-
vided.
The original of the cover sheet must contain the
pen-and-ink signatures of the authorized negotiator and
the person authorized to sign the proposal.
C. ABSTRACT OR SUMMARY
The offeror shall complete Appendix B as page 2 of
each proposal. Appendix B is limited to 1 page. The tech-
nical abstract should include a brief description of the
problem or opportunity, the innovation, project objectives,
and description of the effort. In summarizing anticipated
results, the implications of the approach (for both Phases I
and II) and the potential commercial applications of the
research shall be stated. The project summary of successful
proposals will be published by EPA and, therefore, must
not contain proprietary information.
D. TECHNICAL CONTENT
Begin the main body of the proposal on page 3. As a
minimum, the following shall be included:
1. IDENTIFICATION AND SIGNIFICANCE OF
THE PROBLEM OR OPPORTUNITY. A clear state-
ment of the specific technical problem or opportunity
addressed.
2. PHASE I TECHNICAL OBJECTIVES. State the
specific objectives of the Phase I research and devel-
opment effort, including the technical questions it
will try to answer to determine the feasibility of the
proposed approach.
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EPA Small Business Innovation Research Phase 1
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3. PHASE I WORK PLAN. A detailed description of
the Phase I R/R&D plan. The plan should indicate
what will be done, where it will be done and how the
R/R&D will be carried out. The work planned to
achieve each objective or task should be discussed in
detail, to enable a complete scientific and technical
evaluation of the work plan. A work schedule should
also be provided.
4. RELATED RESEARCH OR R&D. Describe sig-
nificant research or R&D that is directly related to the
proposal including any conducted by the project
manager/principal investigator or by the proposing
firm. Describe how it relates to the proposed effort,
and any planned coordination with outside sources.
Offerors must demonstrate their awareness of key
recent research or R&D conducted by others in the
specific topic area by providing appropriate refer-
ences from the literature and other published docu-
ments.
5. KEY PERSONNEL AND BIBLIOGRAPHY OF
DIRECTLY RELATED WORK. Identify key per-
sonnel involved in Phase I including their directly
related education, experience and bibliographic in-
formation. Where vitae are extensive, summaries that
focus on the most relevant experience or publications
are desired and may be necessary to meet proposal
size limitations.
6. RELATIONSHIP WITH FUTURE RESEARCH
OR RESEARCH AND DEVELOPMENT.
a. State the anticipated results of the proposed ap-
proach if the project is successful (Phase I and II).
A discussion of cost-effectiveness is paramount,
especially comparing the state-of-the-art ap-
proaches with the proposed approach.
b. Discuss the significance of the Phase I effort in
providing a foundation for Phase II R/R&D effort.
7. FACILITIES. A detailed description, availability
and location of instrumentation and physical facili-
ties proposed for Phase I should be provided.
8. CONSULTANTS. Involvement of consultants in
the planning and research stages of the project is
permitted. If such involvement is intended, it should
be described in detail and vitae should be provided.
9. COMMERCIALIZATION PLAN. Provide an
abbreviated 2-3 page plan related directly to produc-
ing an innovative product, process or device and
getting it into commercial production and sales.
Comprehensive business plans (that are company
rather than project oriented) are not desired. The
Phase I plan is a roadmap toward producing a de-
tailed Phase II Commercialization Plan which will be
required as part of the Phase II Application.
NOTE: The small Business Research and Develop-
ment Enhancement Act of 1992 allows discretionary tech-
nical assistance to SBIR awardees. The Agency may pro-
vide up to $4,000 of SBIR funds for technical assistance
per award. EPA intends to provide Phase I awardees with
technical assistance through a separate EPA arrangement.
For Phase I, this assistance will be in addition to the award
amount. For Phase II, the law allows each awardee to ex-
pend up to $4,000 per year of the award amount for techni-
cal assistance services.
The Phase I plan should provide limited information
on the subjects described below. Explain what will be done
during Phase I to decide on applications, markets, produc-
tion and financing. The Commercialization Plan should
address:
a. SBIR Project: Brief description of the company,
its principal field(s) of interest, size and current
proiducts and sales. A concise description of the
SBIR project and its key technical objectives.
b. Commercial Applications: Potential commercial
applications of the research results specifying
customers and specific needs that will be satisfied.
Do you have or intend to file for one or more pat-
ents as a result of the SBIR project?
c. Competitive Advantages: What is particularly
innovative about the anticipated technology or
products? (Innovation may be expressed in terms
of applications, performance, efficiencies or re-
duced cost. To determine if your innovation is
likely to result in intellectual property that may
be legally protected, it helps to conduct a patent
search and look for related work being funded by
EPA or another Federal agency. A factsheet on
how to search for patents and related federally-
funded work is provided in Appendix F.) What
significant advantages in application, perfor-
mance, technique, efficiency, or costs, do you
anticipate your new technology will have over
existing technology? (In order to assess such ad-
vantages, it is useful to compare the anticipated
performance of your technology against substitut-
able products currently being sold or emerging
out of R&D. If regulations, industry standards or
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
certifying requirements apply to your technology
or product, these provide useful criteria for com-
paring your anticipated performance with poten-
tially competing technology and products. How-
ever, other expressions of end-user needs may also
contain important criteria. A factsheet on how to
identify potentially substitutable products and to
locate relevant regulations, standards, certifica-
tion requirements and expressions of end-user
need is in Appendix E.)
d. Markets: What are the anticipated specific mar-
kets for the resulting technology, their estimated
size, classes of customers, and your estimated
market share 5 years after the project is completed
and/or first sales? Who are the major competitors
in the markets, present and/or anticipated?
e. Commercialization: Briefly describe how you
plan to produce your product. Do you intend to
manufacture it yourself, subcontract the manufac-
turing, enter into a joint venture or manufacturing
agreement, license the product, etc.? Briefly de-
scribe the approach and steps you plan to take to
commercialize the research results to significant
sales. Do you plan to market the product yourself,
through dealers, contract sales, marketing agree-
ments, joint venture, sales representatives, foreign
companies, etc.? How do you plan to raise money
to support your commercialization plan?
10. SIMILAR PROPOSALS OR AWARDS. If the
small business concern has received ANY prior Phase
I or Phase II award(s) from EPA or any Federal agency
for similar or closely related research, submit name of
awarding agency, date of award, funding agreement
number, amount, topic or subtopic title, follow-on
agreement amount, source and date of commitment
and current commercialization status. Briefly de-
scribe the differences and relationships between the
proposed new Phase I research and prior research
activities. (This required proposal information shall
be counted toward proposal pages count limitation.)
11. PRIOR SBIR AWARDS. If the small business
concern has received ANY prior Phase II award from
any Federal agency in the prior 5 fiscal years, submit
name of awarding agency, date of award, funding
agreement number, amount, topic or subtopic title,
follow-on agreement amount, source and date of com-
mitment and current commercialization status for
each Phase II. (This required proposal information
shall not be counted toward proposal pages count
limitation.)
12. DUPLICATE OR EQUIVALENT SBIR PRO-
POSALS. A firm may elect to submit essentially
equivalent work under other Federal Program Solici-
tations. In these cases, a statement must be included
in each such proposal indicating: the name and ad-
dress of the agencies to which proposals were submit-
ted or from which awards were received; date of pro-
posal submission or date of award; title, number, and
date of solicitations under which proposals were sub-
mitted or awards received; specific applicable re-
search topics for each proposal submitted or award
received; titles of research projects; name and title of
project manager or principal investigator for each
proposal submitted or award received. (This informa-
tion shall count toward proposal pages count limita-
tion.)
E. COST BREAKDOWN/PROPOSED
BUDGET
Complete the budget form in Appendix C. Photocopy
the form for the required submission. Incorporate the copy
of the budget form bearing the original signature into the
copy of the proposal bearing the original signature on the
cover page. The budget form will count as 1 page in the 25
page limit. If budget explanation pages are included, they
will count toward the 25 page limit.
F. PHASE I QUALITY ASSURANCE
NARRATIVE STATEMENT
Offerors must state whether or not their proposal in-
volves technology-specific testing or environmentally
related measurements. This quality assurance narrative
statement should not exceed two pages and will be in-
cluded in the 25 page limitation for the proposal. This
statement should, for each item below, either address the
required information or explain why the item does not
apply to the proposed research.
1, The activities to be performed or hypothesis to be
tested (reference may be made to the specific page
and paragraph number in the application where this
information may be found); criteria for determining
the acceptability of data quality in terms of precision,
accuracy, representativeness, completeness, compara-
bility. (Note: these criteria must also be applied to
determine the acceptability of existing or secondary
data to be used in the project.)
2. The study design, including sample type and loca-
tion requirements and any statistical analyses that
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
were used to estimate the types and numbers of
samples required for physical samples or similar in-
formation for studies using survey and interview
techniques.
3. The procedures for the handling and custody of
samples, including sample collection, identification,
preservation, transportation, and storage.
4. The procedures that will be used in the calibration
and performance evaluation of the sampling and ana-
lytical methods used or equipment developed during
the project.
5. The procedures for data reduction and reporting, in-
cluding a description of statistical analyses to be
used and of any computer models to be designed or
utilized with associated verification and validation
techniques.
6. The quantitative and/or qualitative procedures that
will be used to evaluate the success of the project,
including any plans for peer or other reviews of the
study design or analytical methods prior to data col-
lection.
A more detailed Proposal Quality Assurance Plan will
be required in Phase II. The plan will be required as part of
the first monthly report under the Phase II contract.
IV. METHODOFSELECnONAND
EVALUATION CRITERIA
A. All Phase I proposals will be evaluated and
judged on a competitive basis by external peer reviewers.
Proposals will be initially screened to determine respon-
siveness. As noted in Section III, proposals exceeding the
25-page limitation will not be considered for review or
award. Also, as noted in Section I.B., any proposal address-
ing more than one research topic, or failing to identify the
research topic by letter symbol on the cover page, will not
be considered for review or award. Proposals passing this
initial screening will be reviewed for technical merit by
external peer panels of technical experts, using the techni-
cal evaluation criteria described in B,1 below. Each of the
criteria are equal in value. These panels will assign each
proposal an adjectival rating of "excellent", "very good",
"good", "fair" or "poor", using the specified criteria. The
proposals assigned "excellent" and "very good" ratings,
will then be subjected to a programmatic review within
EPA, to further evaluate these applications in relation to
program priorities and balance using the criteria specified
in B.2 below. Each proposal will be judged on its own
merit. The Agency is under no obligation to fund any pro-
posal or any specific number of proposals in a given topic.
It also may elect to fund several or none of the proposed
approaches to the same topic or subtopic.
B. TECHNICAL EVALUATION
CRITERIA
1. EXTERNAL PEER REVIEW. The external peer
review panels will utilize the following evaluation criteria
to rate each proposal. The criteria are of equal importance.
CRITERIA
a. The scientific and technical significance of the
proposed technology and its relevance to the
Agency research topic. Quality and soundness of
the research plan to establish the technical and
commercial feasibility of the concept.
h. The uniqueness/ingenuity of the proposed con-
cept or application as technological innovation.
Originality and innovativeness of the proposed
research toward meeting customer needs and
achieving commercialization of the technology.
c. Potential demonstration of performance/cost ef-
fectiveness and environmental benefits associated
with the proposed research, including risk reduc-
tion potential.
d. Qualifications of the principal/key investigator,
supporting staff and consultants. Time commit-
ment of principal/key investigator and adequacy
of equipment and facilities to accomplish the
proposed research. Adequacy and quality of the
Quality Assurance Narrative Statement.
e. Potential of the proposed concept for significant
commercial applications. Potential for the com-
mercialization plan to produce an innovative
product, process or device and getting it into com-
mercial production and sales. Potential market
and competition and other financial/business
indicators of commercialization potential and the
offeror's SBIR or other research commercialization
record.
All peer reviewers will be required to sign an agree-
ment to protect the confidentiality of all proposal material,
and to certify that no conflict of interest exists between the
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
reviewer and the offeror. A copy of both forms is available
upon request.
2. INTERNAL EPA REVIEW. The proposals that
received ratings of "Excellent" or "Very Good" by the Ex-
ternal Peer Review Panel, will be subject to an internal
relevancy review by EPA program managers using the cri-
teria to select which of the "Excellent" and "Very good"
proposals will be funded. Projects will not be funded where
EPA determines the proposed research is already being
supported by EPA or another known source. The evalua-
tion criteria "a" through "d" are of equal value and will be
used to evaluate the applications in relation to program
priorities, balance and relevancy.
CRITERIA
a. How the proposed technology fits into EPA's over-
all research strategy or program within the Phase I
research topic.
b. Whether the technology has the potential for sig-
nificant environmental benefits and for strength-
ening the scientific basis for risk assessment/risk
management in the Agency research topic area.
c. How the proposed study meets Agency program
priorities and strengthens the overall program
balance.
d. Whether the results of the study will have broad
application or impact large segments of the popu-
lation.
C. RELEASE OF PROPOSAL
REVIEW INFORMATION.
After final award decisions have been announced, the
technical evaluations will be provided to the proposer. The
identity of the reviewer shall not be disclosed.
V. CONSIDERATIONS
A. AWARDS
The Government anticipates award of approximately
40 firm-fixed-price contracts of up to $70,000 each includ-
ing profit. The period of performance for the contracts
should not normally exceed six (6) months except where
agency needs or research plans require otherwise. Excep-
tions should be minimized. The primary consideration in
selecting proposals for award will be the technical merit of
the proposal. Proposals shall be evaluated in accordance
with the Technical Evaluation Criteria stated in IV. B.
above. Source selection will not be based on a comparison
of cost or price. However, cost or price will be evaluated to
determine whether the price, including any proposed
profit, is fair and reasonable and whether the offeror under-
stands the work and is capable of performing the contract.
This current solicitation is for Phase I only, and the
Government is not obligated to fund any specific Phase II
proposal.
Funds are not presently available for this contract.
The Government's obligation under this contract is contin-
gent upon the availability of appropriated funds from
which payment for contract purposes can be made. No le-
gal liability on the part of the Government for any payment
may arise until funds are made available to the Contracting
Officer for this contract and until the Contractor receives
notice of such availability, to be confirmed in writing by
the Contracting Officer.
B. REPORTS
1. The Contractor shall furnish two (2) copies of a
monthly letter report stating progress made. One (1) copy
of the report shall be submitted to the Project Officer with
one (1) copy to the Contracting Officer. The reports shall
be submitted within 7 calendar days after the end of the
reporting period. Specific areas of interest shall include
progress made and difficulties encountered during the re-
porting period, and a statement of activities anticipated
during the subsequent reporting period. The report shall
include any changes in personnel associated with the
project. Also, the first month's report shall contain a work
plan and schedule of accomplishments for the subsequent
months of the project. The Monthly Report shall include,
as an attachment, a copy of the monthly voucher for the
same period.
2. Two copies of a comprehensive final report on the
Phase I project must be submitted to the Project Officer by
the completion date of the contract. The Contracting Of-
ficer shall receive one copy. This final report shall include
a single-page project summary as the first page, identifying
the purpose of the research, a brief description of the re-
search carried out, the research findings or results, and po-
tential applications of the research in a final paragraph.
The balance of the report should indicate in detail the re-
search objectives, research work carried out, results ob-
tained, and estimates of technical feasibility. A copy of the
detailed commercialization plan developed during Phase I
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
should be included in the final report. The final report will
be required as part of the Phase II proposal submitted in
response to the Phase II solicitation.
3. Two hard copies (and one copy on a disk in WP6.1
or ASCII format) of a publishable (cleared for the general
public) 2-3 page executive summary of the final report for
Phase I must be submitted to the Project Officer by the
completion date of the contract. This special report should
be a true summary of the report, including the purpose of
the project, work carried out and results. The summary
should stress innovativeness and potential commercializa-
tion. The executive summary will be placed on the EPA
SBIR Web site and therefore, it should include the specific
results the company is willing to release to the public.
C. PAYMENT SCHEDULE
Phase I payments will be made as follows:
Eighteen percent (18%) of the total contract price
upon receipt and acceptance of a proper invoice with each
of the first five monthly reports. The remainder shall be
paid upon receipt and acceptance of the final report. Pursu-
ant to the provisions of FAR 52.232-25, "Prompt Pay-
ment", payment will be rendered within thirty (30) days
after receipt of a proper invoice.
D. INNOVATIONS, INVENTIONS AND
PATENTS
1. LIMITED RIGHTS INFORMATION AND DATA
a. Proprietary Information
Information contained in unsuccessful proposals will
remain the property of the offeror. The Government may,
however, retain copies of all proposals. Public release of
information in any proposal submitted will be subject to
existing statutory and regulatory requirements.
If proprietary information is provided by an offeror in
a proposal which constitutes a trade secret, proprietary
commercial or financial information, confidential personal
information or data affecting the national security, it will
be treated in confidence to the extent permitted by law,
provided this information is clearly marked by the offeror
with the term "confidential proprietary information" and
provided the following legend appears on the title page of
the proposal:
"For any purpose other than to evaluate the proposal,
this data shall not be disclosed outside the Govern-
ment and shall not be duplicated, used, or disclosed
in whole or in part, provided that if a funding agree-
ment is awarded to this offeror as a result of or in con-
nection with the submission of this data, the Govern-
ment shall have the right to duplicate, use, or disclose
the data to the extent provided in the funding agree-
ment. This restriction does not limit the
Government's right to use information contained in
the data if it is obtained from another source without
restriction. The data subject to this restriction is con-
tained in pages of this proposal."
Any other legend may be unacceptable to the Gov-
ernment and may constitute grounds for removing the pro-
posal from further consideration and without assuming any
liability for inadvertent disclosure.
b. Alternative to Minimize Proprietary Information
Offerors shall limit proprietary information to only
that absolutely essential to their proposal.
c. Rights in Data Developed Under SBIR Funding
Agreements
The Contract will contain a data clause which will
provide the following:
SBIR RIGHTS NOTICE (MAR 1994)
These SBIR data are furnished with SBIR rights under
Contract No. (and subcontract if
appropriate). For a period of four (4) years after acceptance
of all items to be delivered under this contract, the Govern-
ment agrees to use these data for Government purposes
only, and they shall not be disclosed outside the Govern-
ment (including disclosure for procurement purposes) dur-
ing such period without permission of the Contractor, ex-
cept that, subject to the foregoing use and disclosure
prohibitions, such data may be disclosed for use by support
Contractors. After the aforesaid 4-year period the Govern-
ment has a royalty-free license to use, and to authorize
others to use on its behalf, these data for Government pur-
poses, but is relieved of all disclosure prohibitions and
assumes no liability for unauthorized use of these data by
third parties. This Notice shall be affixed to any reproduc-
tions of these data, in whole or in part.
d. Copyrights
With prior written permission of the Contracting Of-
ficer, the Awardee normally may copyright and publish
(consistent with appropriate national security consider-
ations, if any) material developed with EPA support. EPA
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
receives a royalty-free license for the Federal Government
and requires that each publication contain an appropriate
acknowledgment and disclaimer statement.
e. Patents
Small business concerns normally may retain the
principal worldwide patent rights to any invention devel-
oped with Governmental support. The Government re-
ceives a royalty-free license for Federal Government use,
reserves the right to require the patent holder to license
others in certain circumstances, and requires that anyone
exclusively licensed to sell the invention in the United
States must normally manufacture it domestically. To the
extent authorized by 35 U.S.C. 205, the Government will
not make public any information disclosing a
Government-supported invention for a 4-year period to
allow the Awardee a reasonable time to pursue a patent.
E. COST SHARING
Cost sharing is permitted for proposals under this
Program Solicitation; however, cost sharing is not required
nor will it be an evaluation factor in consideration of your
proposal.
F. FEE OR PROFIT
Reasonable fee (estimated profit) will be considered
under this solicitation. For guidance purposes, the amount
of profit normally should not exceed 10% of total project
costs.
G. JOINT VENTURES OR LIMITED
PARTNERSHIPS
Joint ventures and limited partnerships are eligible
provided the entity created qualifies as a small business as
defined in this Program Solicitation.
ft RESEARCH AND ANALYTICAL
WORK
For Phase I, a minimum of two-thirds of the research
and/or analytical effort must be performed by the propos-
ing small business concern unless otherwise approved in
writing by the Contracting Officer.
For Phase II, a minimum of one-half of the research
and/or analytical effort must be performed by the propos-
ing small business concern unless otherwise approved in
writing by the Contracting Officer.
I. CONTRACTOR COMMITMENTS
Upon award of a funding agreement, the Awardee will
be required to make certain legal commitments through
acceptance of numerous clauses in Phase I funding agree-
ments. The outline that follows is illustrative of the types
of clauses to which the Contractor would be committed.
This list should not be understood to represent a complete
list of clauses to be included in Phase I funding agree-
ments, nor to be specific wording of such clauses. Copies
of complete terms and conditions are available upon re-
quest.
1. STANDARDS OF WORK. Work performed under
the contract must conform to high professional stan-
dards.
2. INSPECTION. Work performed under the contract
is subject to Government inspection and evaluation
at all times.
3. EXAMINATION OF RECORDS. The Comptroller
General (or a duly authorized representative) shall
have the right to examine any directly pertinent
records of the awardee involving transactions related
to this contract.
4. DEFAULT. The Government may terminate the
contract if the Contractor fails to perform the work
contracted.
5. TERMINATION FOR CONVENIENCE. The
contract may be terminated at any time by the Gov-
ernment if it deems termination to be in its best inter-
est, in which case the Contractor will be compensated
for work performed and for reasonable termination
costs.
6. DISPUTES. Any dispute concerning the funding
agreement that cannot be resolved by agreement shall
be decided by the Contracting Officer with right of
appeal.
7. CONTRACT WORK HOURS. The awardee may
not require an employee to work more than 8 hours a
day or 40 hours a week unless the employee is com-
pensated accordingly (e.g., overtime pay).
8. EQUAL OPPORTUNITY. The awardee will not
discriminate against any employee or applicant for
employment because of race, color, religion, sex, or
national origin.
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
9. AFFIRMATIVE ACTION FOR VETERANS. The
awardee will not discriminate against any employee
or application for employment because he or she is a
disabled veteran or veteran of the Vietnam era.
10. AFFIRMATIVE ACTION FOR HANDI-
CAPPED. The awardee will not discriminate against
any employee or applicant for employment because
he or she is physically or mentally handicapped.
11. OFFICIALS NOT TO BENEFIT. No Govern-
ment official shall benefit personally from the con-
tract.
12. COVENANT AGAINST CONTINGENT FEES.
No person or agency has been employed to solicit or
secure the contract upon an understanding for com-
pensation except bonafide employees or commercial
agencies maintained by the Contractor for the pur-
pose of securing business.
13. GRATUITIES. The contract may be terminated
by the Government if any gratuities have been of-
fered to any representative of the Government to se-
cure the contract.
14. PATENT AND COPYRIGHT INFRINGEMENT.
The Contractor shall report each notice or claim of
patent or copyright infringement based on the perfor-
mance of the contract.
15. AMERICAN MADE EQUIPMENT AND PROD-
UCTS. When purchasing equipment or a product
under the SBIR funding agreement, purchase only
American-made items whenever possible.
J. ADDITIONAL INFORMATION
1. The Program Solicitation is intended for informa-
tional purposes and reflects current planning. If there
is any inconsistency between the information con-
tained herein and the terms of any resulting SBIR
funding agreement, the terms of the funding agree-
ment are controlling.
2. Before award of an SBIR funding agreement, the
Government may request the offeror to submit certain
organizational, management, personnel, and financial
information to assure responsibility of the offeror.
3. The Government is not responsible for any monies
expended by the offeror before award of any funding
agreement.
4. This Program Solicitation is not an offer by the
Government and does not obligate the Government
to make any specific number of awards. Also, awards
under the SBIR program are contingent upon the
availability of funds.
5. The SBIR program is not a substitute for existing
unsolicited proposal mechanisms. Unsolicited pro-
posals shall not be accepted under the SBIR program
in either Phase I or Phase II.
6. If an award is made pursuant to a proposal submit-
ted under this Program Solicitation, the Contractor
will be required to certify that he or she has not previ-
ously been, nor is currently being, paid for essentially
equivalent work by any agency of the Federal Gov-
ernment.
7. Notwithstanding the relatively broad definition of
R/R&D in Section II, Definitions, hereof, awards un-
der this solicitation are limited to APPLIED forms of
research. Proposals that are surveys, including mar-
ket, state-of the-art and/or literature surveys, which
should have been performed by the offeror prior to
the preparation of the proposal, or the preparation of
allied questionnaires and instruction manuals, shall
not be accepted. If such proposals are submitted, they
shall be considered as not in compliance with the
solicitation intent, and therefore, technically unac-
ceptable.
8. The requirement that the offeror designate a topic,
and only one topic, (see page I, item I.B. above) is
also necessary. EPA receives hundreds of proposals
each year and has special teams of reviewers for re-
view of each research topic. In order to assure that
proposals are evaluated by the correct team, it is the
complete responsibility of the offeror to select and
identify the best topic.
9. Instructions to Offerors - Competitive Acquisition
(Oct 1997) FAR 52.215-1
(a) Definitions. As used in this provision- Discussions
are negotiations that occur after establishment of the
competitive range that may, at the Contracting
Officer's discretion, result in the offeror being allowed
to revise its proposal.
In writing or written means any worded or numbered
expression which can be read, reproduced, and later
communicated, and includes electronically transmit-
ted and stored information.
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
Proposal modification is a change made to a proposal
before the solicitation's closing date and time, or
made in response to an amendment, or made to cor-
rect a mistake at any time before award.
Proposal revision is a change to a proposal made after
the solicitation closing date, at the request of or as
allowed by a Contracting Officer as the result of ne-
gotiations.
Time, if stated as a number of days, is calculated us-
ing calendar days, unless otherwise specified, and
will include Saturdays, Sundays, and legal holidays.
However, if the last day falls on a Saturday, Sunday,
or legal holiday, then the period shall include the
next working day.
(b) Amendments to solicitations. If this solicitation is
amended, all terms and conditions that are not
amended remain unchanged. Offerors shall acknowl-
edge receipt of any amendment to this solicitation by
the date and time specified in the amendment(s).
(c) Submission, modification, revision, and with-
drawal of proposals.
(1) Unless other methods (e.g., electronic com-
merce or facsimile) are permitted in the solicita-
tion, proposals and modifications to proposals
shall be submitted in paper media in sealed enve-
lopes or packages (I) addressed to the office
specified in the solicitation, and (ii) showing the
time and date specified for receipt, the solicita-
tion number, and the name and address of the
offeror. Offerors using commercial carriers should
ensure that the proposal is marked on the outer-
most wrapper with the information in paragraphs
(c)(1)ฎ and (c)(l)(ii) of this provision.
(2) The first page of the proposal must show-
(i) The solicitation number;
(ii) The name, address, and telephone and
facsimile numbers of the offeror (and elec-
tronic address if available);
(iii) A statement specifying the extent of
agreement with all terms, conditions, and pro-
visions included in the solicitation and agree-
ment to furnish any or all items upon which
prices are offered at the price set opposite each
item;
(iv) Names, titles, and telephone and facsimile
numbers (and electronic addresses if avail-
able) of persons authorized to negotiate on the
offeror's behalf with the Government in con-
nection with this solicitation; and
(v) Name, title, and signature of person autho-
rized to sign the proposal. Proposals signed by
an agent shall be accompanied by evidence of
that agent's authority, unless that evidence has
been previously furnished to the issuing of-
fice.
(3) Late proposals and revisions.
(i) Any proposal received at the office desig-
nated in the solicitation after the exact time
specified for receipt of offers will not be con-
sidered unless it is received before award is
made and-
(A) It was sent by registered or certified
mail not later than the fifth calendar day
before the date specified for receipt of of-
fers (e.g., an offer submitted in response to a
solicitation requiring receipt of offers by
the 20th of the month must have been
mailed by the 15 th);
(B) It was sent by mail (or telegram or fac-
simile, if authorized) or hand-carried (in-
cluding delivery by a commercial carrier) if
it is determined by the Government that the
late receipt was due primarily to Govern-
ment mishandling after receipt at the Gov-
ernment installation;
(C) It was sent by U.S. Postal Service Ex-
press Mail Next Day Service-Post Office to
Addressee, not later than 5:00 p.m. at the
place of mailing two working days prior to
the date specified for receipt of proposals.
The term "working days" excludes week-
ends and U.S. Federal holidays;
(D) It was transmitted through an electronic
commerce method authorized by the solici-
tation and was received at the initial point
of entry to the Government infrastructure
not later than 5:00 p.m. one working day
prior to the date specified for receipt of
proposals; or
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
(E) There is acceptable evidence to estab-
lish that it was received at the activity des-
ignated for receipt of offers and was under
the Government's control prior to the time
set for receipt of offers, and the Contracting
Officer determines that accepting the late
offer would not unduly delay the procure-
ment; or
(F) It is the only proposal received.
(ii) Any modification or revision of a proposal
or response to request for information, includ-
ing any final proposal revision, is subject to
the same conditions as in subparagraphs
(c)(3)(I)(A) through (c)(3)(I)(E) of this provi-
sion.
(iii) The only acceptable evidence to establish
the date of mailing of a late proposal or modi-
fication or revision sent either by registered or
certified mail is the U.S. or Canadian Postal
Service postmark both on the envelope or
wrapper and on the original receipt from the
U.S. or Canadian Postal Service. Both post-
marks must show a legible date or the pro-
posal, response to a request for information, or
modification or revision shall be processed as
if mailed late. "Postmark" means a printed,
stamped, or otherwise placed impression (ex-
clusive of a postage meter machine impres-
sion) that is readily identifiable without fur-
ther action as having been supplied and
affixed by employees of the U.S. or Canadian
Postal Service on the date of mailing. There-
fore, offerors or respondents should request
the postal clerk to place a legible hand cancel-
lation bull's eye postmark on both the receipt
and the envelope or wrapper.
(iv) Acceptable evidence to establish the time
of receipt at the Government installation in-
cludes the time/date stamp of that installation
on the proposal wrapper, other documentary
evidence of receipt maintained by the installa-
tion, or oral testimony or statements of Gov-
ernment personnel.
(v) The only acceptable evidence to establish
the date of mailing of a late offer, modification
or revision, or withdrawal sent by Express
Mail Next Day Service-Post Office to Ad-
dressee is the date entered by the post office
receiving clerk on the "Express Mail Next
Day Service-Post Office to Addressee" label
and the postmark on both the envelope or
wrapper and on the original receipt from the
U.S. Postal Service. "Postmark" has the same
meaning as defined in paragraph (c)(3)(iii) of
this provision, excluding postmarks of the
Canadian Postal Service. Therefore, offerors or
respondents should request the postal clerk to
place a legible hand cancellation bull's eye
postmark on both the receipt and the envelope
or wrapper.
(vi) Notwithstanding paragraph (c)(3)(I) of this
provision, a late modification or revision of an
otherwise successful proposal that makes its
terms more favorable to the Government will
be considered at any time it is received and
may be accepted.
(vii) Proposals may be withdrawn by written
notice or telegram (including mailgram) re-
ceived at any time before award. If the solici-
tation authorizes facsimile proposals, propos-
als may be withdrawn via facsimile received at
any time before award, subject to the condi-
tions specified in the provision entitled "Fac-
simile Proposals." Proposals may be with-
drawn in person by an offeror or an authorized
representative, if the representative's identity
is made known and the representative signs a
receipt for the proposal before award.
(viii) If an emergency or unanticipated event
interrupts normal Government processes so
that proposals cannot be received at the office
designated for receipt of proposals by the
exact time specified in the solicitation, and
urgent Government requirements preclude
amendment of the solicitation or other notice
of an extension of the closing date, the time
specified for receipt of proposals will be
deemed to be extended to the same time of
day specified in the solicitation on the first
work day on which normal Government pro-
cesses resume. If no time is specified in the
solicitation, the time for receipt is 4:30 p.m.,
local time, for the designated Government
office.
(4) Unless otherwise specified in the solicitation,
the offeror may propose to provide any item or
combination of items.
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
(5) Proposals submitted in response to this solici-
tation shall be in English and in U.S. dollars,
unless otherwise permitted by the solicitation.
(6) Offerors may submit modifications to their
proposals at any time before the solicitation clos-
ing date and time, and may submit modifications
in response to an amendment, or to correct a mis-
take at any time before award.
(7) Offerors may submit revised proposals only if
requested or allowed by the Contracting Officer.
(8) Proposals may be withdrawn at any time be-
fore award. Withdrawals are effective upon receipt
of notice by the Contracting Officer.
(d) Offer expiration date. Proposals in response to this
solicitation will be valid for the number of days
specified on the solicitation cover sheet (unless a
different period is proposed by the offeror).
(e) Restriction on disclosure and use of data. Offerors
that include in their proposals data that they do not
want disclosed to the public for any purpose, or used
by the Government except for evaluation purposes,
shall:
(1) Mark the title page with the following legend:
This proposal includes data that shall not be dis-
closed outside the Government and shall not be
duplicated, used, or disclosed-in whole or in part-
for any purpose other than to evaluate this pro-
posal. If, however, a contract is awarded to this
offeror as a result of-or in connection with-the
submission of this data, the Government shall
have the right to duplicate, use, or disclose the
data to the extent provided in the resulting con-
tract. This restriction does not limit the
Government's right to use information contained
in this data if it is obtained from another source
without restriction. The data subject to this re-
striction are contained in sheets [insert numbers
or other identification of sheets]; and
(2) Mark each sheet of data it wishes to restrict
with the following legend: Use or disclosure of
data contained on this sheet is subject to the re-
striction on the title page of this proposal.
(f) Contract award.
(1) The Government intends to award a contract
or contracts resulting from this solicitation to the
responsible offeror(s) whose proposal(s) repre-
sents the best value after evaluation in accor-
dance with the factors and subfactors in the so-
licitation.
(2) The Government may reject any or all propos-
als if such action is in the Government's interest.
(3) The Government may waive informalities and
minor irregularities in proposals received.
(4) The Government intends to evaluate propos-
als and award a contract without discussions with
offerors (except clarifications as described in FAR
15.306(a)). Therefore, the offeror's initial pro-
posal should contain the offeror's best terms from
a cost or price and technical standpoint. The Gov-
ernment reserves the right to conduct discussions
if the Contracting Officer later determines them to
be necessary. If the Contracting Officer deter-
mines that the number of proposals that would
otherwise be in the competitive range exceeds the
number at which an efficient competition can be
conducted, the Contracting Officer may limit the
number of proposals in the competitive range to
the greatest number that will permit an efficient
competition among the most highly rated proposals.
(5) The Government reserves the right to make an
award on any item for a quantity less than the
quantity offered, at the unit cost or prices offered,
unless the offeror specifies otherwise in the pro-
posal.
(6) The Government reserves the right to make
multiple awards if, after considering the addi-
tional administrative costs, it is in the
Government's best interest to do so.
(7) Exchanges with offerors after receipt of a pro-
posal do not constitute a rejection or counter-
offer by the Government.
(8) The Government may determine that a pro-
posal is unacceptable if the prices proposed are
materially unbalanced between line items or sub-
line items. Unbalanced pricing exists when, de-
spite an acceptable total evaluated price, the
price of one or more contract line items is signifi-
cantly overstated or understated as indicated by
the application of cost or price analysis tech-
niques. A proposal may be rejected if the Con-
tracting Officer determines that the lack of bal-
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
ance poses an unacceptable risk to the Govern-
ment.
(9) If a cost realism analysis is performed, cost
realism may be considered by the source selec-
tion authority in evaluating performance or
schedule risk.
(10) A written award or acceptance of proposal
mailed or otherwise furnished to the successful
offeror within the time specified in the proposal
shall result in a binding contract without further
action by either party.
(11) The Government may disclose the following
information in post-award debriefings to other
offerors:
(i) The overall evaluated cost or price and
technical rating of the successful offeror;
(ii) The overall ranking of all offerors, when
any ranking was developed by the agency
during source selection;
(iii) A summary of the rationale for award; and
(iv) For acquisitions of commercial items, the
make and model of the item to be delivered by
the successful offeror.
VI SUBMISSION OF PROPOSALS
A. Your proposal shall be submitted with an original
and nine (9) copies to one of the following addresses by
4:30 p.m., local time, on October 13,1999.
UJS. MAIL ADDRESS:
U.S. Environmental Protection Agency
Solicitation No. PR-NC-99-13350; SBIR Phase I
Closing Date: October 13,1999 at 4:30 p.m.
Contracts Management Division (MD-33)
Attn: KathrynPeele
Research Triangle Park, NC 27711
HAND CARRIED/COURIER ADDRESS:
U.S. Environmental Protection Agency
Receptionist, EPA Administration Building
Solicitation No. PR-NC-99-13350; SBIR Phase I
Closing Date: October 13,1999 at 4:30 p.m.
Attn: Kathryn Peele/Contracts Mgmt. Division
79 T.W. Alexander Drive
Research Triangle Park, NC 27709
IMPORTANT!!! Please note Section V, Paragraph
J.9(c) concerning Late Proposals, Modifications of Pro-
posals and Withdrawal of Proposals.
Telegraphic, telecopied or facsimile proposals will
NOT be considered for award.
B. Please do not use special bindings or covers.
Staple the pages in the upper left corner of the cover sheet
of each proposal.
C. All copies of a proposal shall be sent in the same
package.
D. The proposal should be self-contained and writ-
ten with the care and thoughtfulness accorded papers for
publication.
VE SOENTIFICANDTECHNICAL
INFORMATION SOURCES
(See Appendix D)
Vffl. FY2000SBIRPHASEIRESEARCH
TOPICS
Program Scope: The objective of this solicitation is
to increase the incentive and opportunity for small firms to
undertake cutting edge, high-risk, or long-term research
that has a high potential payoff if the research is successful.
Federal support of the front-end research on new ideas,
often the highest risk part of the innovation process, may
provide small businesses sufficient incentive to pursue
such research.
EPA's SBIR program does not fund basic research or
literature searches. It is recognized that any research and
development project starts out as a concept of the inventor.
Basic theoretic research studies and preliminary laboratory
testing of the concept are often needed to develop an idea.
Literature and other surveys and questionnaires are also
needed to rule out duplication and inappropriate research
study and process detail, finally leading to the process
design of a prototype apparatus or process that could be
17
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
tested to show the feasibility of the innovation. These ba-
sic research activities and preliminary studies should be
completed before preparing an SBIR proposal.
Proposals only offering computer expert systems,
computer models, and computer aided design activities are
unacceptable. Computer activities may be helpful tools in
the early identification of pollution problems and possible
solutions, but they do not directly reduce pollution. They
cannot be used in lieu of applied laboratory research to
determine the feasibility of a pollution control process.
Also, proposals which only offer the performance of a de-
sign activity cannot be judged as it is impossible to guess
what sort of apparatus or process will result. Without a
straight-forward description of the process and/or apparatus
to be tested, there can be no determination of the scientific
and technical quality of the work plan. Proposals only
offering such design activities are unacceptable.
Program Topics: The proposed research must directly
pertain to EPA's environmental mission and must be re-
sponsive to EPA program interests included in the topic
descriptions of this solicitation. The research should be the
basis for technological innovation resulting in new com-
mercial products, processes, or services which benefit the
public and promote the growth of the small business. The
Agency's SBIR program is concerned with air and water
pollution control, solid and hazardous waste management,
pollution prevention, environmental monitoring and ana-
lytical technologies. Mercury contamination continues to
be a serious environmental problem and is addressed in
several research topics. In order to facilitate proposal re-
views by external peer reviewers with specialized expertise
and by EPA technical personnel with focused program
needs and priorities, offerors must designate a research
topic, and only one topic, for their proposal. It is the com-
plete responsibility of the offeror to select and identify the
best topic for the proposal.
Technologies featuring conservation, reuse, recy-
cling, increased efficiencies, and waste minimization are of
special interest. Processes involving anthropogenic radio-
active materials or the application of fertilizers are ad-
dressed by other Agencies and are not included in this so-
licitation. Technologies that only involve energy
efficiency, where the pollution reduction benefit is indirect
reduction of power plant emissions, are also addressed by
other Agencies and are not included in this solicitation.
Specific focus areas of this solicitation include:
A. POLLUTION PREVENTION AND
CLEAN TECHNOLOGIES
Pollution prevention means "source reduction" in-
cluding any practice which: (1) reduces the amount of any
hazardous substance, pollutant, contaminant entering any
waste stream or otherwise released into the environment
(including fugitive emissions) prior to recycling, treatment,
or disposal; and (2) reduces the hazards to public health
and the environment associated with the release of such
substances, pollutants, or contaminants. The term includes:
equipment or technology modifications, process or proce-
dure modifications, reformulation or redesign of products,
and substitution of raw materials. Practices that reduce
large amounts of non-hazardous wastes will also be consid-
ered under this category. While improvements in house-
keeping, maintenance, training or inventory control may
result in pollution prevention, these activities are outside
the scope of EPA's SBIR program.
Recycling, energy recovery, treatment and disposal
are not included within the definition of pollution preven-
tion. Some practices commonly described as "in-process
recycling" may qualify as pollution prevention. However,
recycling is not considered waste reduction if waste exits a
process, exists as a separate entity, undergoes significant
handling, and is transported from the waste generation
location to another production site (perhaps another part of
a large plant) for reuse, or to an offsite commercial recy-
cling facility or waste exchange.
Green Chemistry, a fundamental approach to prevent-
ing pollution at the source, is also of interest. Green chem-
istry involves reducing or eliminating the use or generation
of hazardous substancesincluding feedstocks, reagents,
solvents, products, and byproductsduring the design,
manufacture, and use of chemical products and processes.
Green Chemistry includes all types of chemical activity
that reduce negative impacts on human health and the
environment relative to the current state of the art. Appro-
priate areas of investigation include chemical synthesis,
catalysis, detection, analysis, monitoring, separation pro-
cesses, and reaction conditions. We are also interested in
developing innovative products that are consistent with
the guiding principles of EPA's Environmentally-Prefer-
able Purchasing Program. See the EPA Web site (http://
www.epa.gov/opptintr/epp) for more information.
Of particular interest are green chemistry projects that
reduce the generation of pollutants that contain persistent,
bioaccumulative and toxic (PBT) chemicals. EPA pub-
lished a draft list of PBT chemicals found in industrial
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
hazardous waste in November, 1998 (see http://www.epa.gov/
epaoswer/hazwaste/minimize/chemlist/index.htm)to help
government and industry managers focus on reducing the
most harmful long term threats to the environment. Green
chemistry projects that have an impact on achieving the
Agency's national goal of reducing PBT chemicals in haz-
ardous waste by 50% by 2005 will be on particular interest.
Examples of Pollution Prevention and Green Chemis-
try areas of interest include, but are not limited to:
In-Process Recycling: Potential wastes or their
components can be reused within existing
operations.
Novel cost-effective separation methods that
result in highly effective separation of useful
material from other components in a process
stream.
Development of new bulk materials and
coatings with long life that have reduced
environmental impact in manufacture or use.
Improved sensor and multivariate control of
manufacturing equipment and systems to
reduce waste or emissions. Advancements in
intelligent controls.
Changes in the composition of end products
that allow fundamental changes in the
manufacturing process or in the use of raw
materials or that reduce the relative
environmental impact resulting from the use
and/or disposal of such end products. Of
particular interest are low cost, mercury-free
products for hospitals and medical applications,
including cleaning agents, fixatives and
hospital-specific products. More information is
available at the following web site: http://
www.uml.eduycenters/LCSP/hospitals
Alternative Synthetic Pathways: The use of: (1)
catalysis/biocatalysts; (2) natural processes
such as photochemistry and biomimetic
synthesis; (3) alternate feedstocks that are more
innocuous and renewable (e.g., biomass, solar
energy).
Alternative Reaction Conditions: The use of
solvents which have a reduced impact on
human health and the environment. The use of
solvents with increased selectivity that reduce
waste and emissions are a priority.
New, cost-competitive technologies that reclaim
and reuse foundry sand.
New and non-toxic anti-bacterial cleaning
products that sanitize food processing
equipment with minimal use of water.
Clean Technologies are of special interest in this
solicitation. Many industrial processes and treatment tech-
nologies still release large amounts of toxic chemicals into
the environment, Some technologies release small amounts
of persistent, bioaccumulative and toxic (PBT) chemicals,
including amounts allowed in environmental permits, that
can cause long term health or ecological problems. Persis-
tent pollution problems, regulation costs and international
attention to reducing the release of PBT chemicals to the
environment have stimulated demand for research and de-
velopment into cleaner processes and materials technolo-
gies that prevent pollution, reduce regulatory burden and
improve worker health and safety. An additional perceived
benefit of these "beyond compliance" technologies is the
reduced costs realized by lowering the amount of materials
used in production processes and the amount of waste
streams that must be treated and disposed. To continue to
achieve environmental improvements, we are interested in
bringing to the market a broader range of cleaner produc-
tion technologies that result in reducing the environmental
impact of the entire manufacturing process.
We are interested in Clean Technology proposals that
address the industry sectors under EPA's Sector-Based,
Environmental Protection Program (formerly, the Common
Sense Initiative) and the Design for the Environment/Small
Business Partnership, including metal finishing, printing,
electronics, garment and fabric care and adhesives manu-
facturing. Additional areas of interest include safer chemi-
cals or processes for automotive repair facilities and auto-
mobile and appliance assembly plants. Examples of areas
of interest include, but are not limited to:
Metal Finishing: EPA is interested in cleaner
technologies that result in closed loop or low/
no emission techniques for hard chrome plating,
use of trivalent chromium and other metallic
and non-metallic coating techniques that can
replace hard chrome plating, and simple,
inexpensive detectors that can monitor the
amount of chromium in the airespecially in
the presence of other pollutants (e.g., other
heavy metals and fine particulate matter).
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
Technologies that reduce the use of cadmium,
lead and other heavy metals that have low or no
economic recycling value are of interest. New
low/no emission chlorinated solvent vapor
degreasing systems and technologies that
eliminate the need for cyanide are of particular
interest.
Printing: EPA's Design for the Environment
Program (DfE) has partnered with four sectors of
the printing industryscreen printing
reclamation products, lithography press
cleaning solvents (blanket washes), flexography
ink, and gravure technologies. Additional
cleaner technologies are needed for these
industry sectors so that printers have a cleaner,
safer, and more efficient way of doing business.
Electronics and Printed Wiring Boards: The DfE
Printed Wiring Board (PWB) Project has
evaluated alternative technologies for the
making holes conductive step of PWB
manufacturing and is now evaluating lead-free
alternatives to the standard hot air solder
leveling surface finishing process. Additional
cleaner technologies are needed to reduce the
number and amount of toxic chemicals used
and the amount of hazardous waste generated,
and to reduce water and energy use.
Garment and Fabric Care: Dry cleaners are small
businesses that are dependent on solvents
technologies, including chlorinated and
aliphatic hydrocarbon solvents. Emerging and
innovative technologies include liquid carbon
dioxide and commercial wet cleaning. More
innovation in this small business sector is
needed. A related area of interest is commercial
laundries. Partnerships in commercial laundries
are looking for alternatives to toxic and
persistent surfactants, chlorine bleaches, and
ecological undesirable builders.
Adhesives: Development of low VOC adhesives,
caulks and sealers for automotive body
assembly operations and/or for the building
construction industry are needed.
We also welcome Clean Technology proposals that
reduce emissions and risks in other industries, most nota-
bly those for which there are EPA programmatic efforts that
are likely to highlight the need for and extend the poten-
tial use of these technologies. Such proposals include, but
are not limited to:
Process Technology and Equipment:
Significant changes in the basic technology and
equipment of production, including
modernization, modification, or better control
of process equipment.
Process Inputs: Changes in raw materials, either
to different materials (e.g., water instead of
organic solvents) or materials with different
specifications (e.g., lower levels of
contaminants).
B. PREVENTION, CONTROL AND
MONITORING OF MOBILE
SOURCE EMISSIONS
Research is needed on new, innovative and cost effec-
tive technologies that prevent and control mobile source
emissions, fuel modifications that reduce emissions and
monitoring technologies for particulates, hydrocarbons,
carbon monoxide, oxides of nitrogen and toxic air pollut-
ants (TAP). Areas of interest include, but are not limited to:
Technologies for improved evaporative
emission control systems in the areas of low
leak/no leak fittings and connectors and lines
and hoses with reduced or eliminated fuel
seepage and permeation.
Innovative and cost effective techniques for the
control of particulate emissions from diesel
engines including on-road engines used in
passenger vehicles and trucks, and non-road
engines used in farm, construction, industrial,
lawn care and other non-road applications.
New control technologies for controlling NOx
emissions from both diesel-fueled and gasoline-
fueled engines of all types.
Innovative and cost effective measurement
technologies to characterize activity patterns
and ways in which mobile sources are used,
such as specialized urban operations such as
truck terminals, delivery truck terminal patterns,
and weekend traffic patterns for all road vehicle
types by time of day. For trucks, coupling the
above data with roadway grade and truck
loaded vehicle weight are also of interest. In
addition, activity patterns for non-road mobile
sources such as those used in construction,
industrial, and lawn care applications are
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
needed with a good degree of geographical
resolution.
Innovative technologies to control a method of
combustion in engines known as Homogeneous
Charge Compression Ignition (HCCI). The
HCCI combustion method can result in low
NOx emissions and low particulate emissions at
the same time and this combustion method has
been demonstrated with a variety of fuels. The
Agency is interested in innovative ways to
control this combustion type in a practical and
cost-effective manner. It is expected that actual
engine testing will be needed to demonstrate
the effectiveness of any control approach.
High pressure fuel pumps for direct injection
(DI) engines can utilize alternate fuels with low
lubricity and a more corrosive nature than
diesel fuel. Many clean fuels that could be used
in direct injection (DI) engines (e.g., dimethyl
ether, methanol, and ethanol) present serious
challenges for the design and operation of high-
pressure fuel pumps due to their low lubricity.
Such pumps should be able to demonstrate
durable performance or low lubricity fuels and
be of a practical manufacturable nature for
potential cost-effective implementation.
Innovative and cost effective technologies to
control directly emitted submicron size
particles, secondary particles and organic
compounds from internal combustion and
diesel engines. Innovative NOx controls for
mobile sources and systems for reducing or
eliminating mobile source cold start emissions.
Fuel sulfur removal: Sulfur-containing parts of
fuels can produce undesirable effects when the
fuel is burned. The sulfur oxides that are
emitted are undesirable and can be converted
into ambient particulate material. Also, sulfur
compounds in the fuel can interfere with the
effective operation of exhaust emission control
equipment that might otherwise be used on
diesels or gasoline-fueled vehicles. What is
needed is a novel cost-effective way to remove
sulfur from fuels used in mobile sources.
Technologies that represent ways that are not
now being explored are of most interest to the
Agency. Approaches with the capability to
control sulfur to less than 100 ppm will receive
the greatest interest.
Novel, cost-effective ways to remove benzene,
1-3 butadiene, and other toxics from gasoline
and diesel fuel. Reducing or eliminating these
fuel elements would reduce the exposure to
people during the distribution and refueling
process.
Real-time particle sizer: As the interest grows in
understanding the size distribution of
particulate emissions below 2.5 microns,
analytical instruments have become available
that can measure the size of distribution of the
particulates emitted from mobile sources. Most
current instruments are best used during a
steady state measuring point, that is, when the
particle-producing engine is operating at a
constant speed and torque. Unfortunately, in
actual use, the engines used in mobile sources
rarely operate at constant speed and load
conditions, and the Agency has expended a
good deal of effort to develop test procedures
which reflect the transient nature of actual
engine and vehicle use. What is needed is a
particle sizer that could operate in real time to
measure particle size distributions as a function
of time during a transient test. Both laboratory-
grade and in-use grade instruments are needed.
Cost-effective, rapid, broadly inclusive
measurement of emissions from in-use vehicles
and engines: In order to assess the effectiveness
of the controls used on mobile sources,
measurement technologies are needed that can
measure emissions from engines and vehicles in
use. Measurement approaches fall into two
broad classes: 1) for the measurement of
emissions that would permit recall or other
enforcement actions and 2) for the measurement
of emissions that would allow gross emitters to
be identified for necessary corrective action.
Instrumentation which could be temporarily
attached to a vehicle and instrumentation which
can be operated remotely from the vehicle are
both of interest. Instrumentation is needed that
will measure HC, CO, NOx, particulates, and
smoke for both gasoline-fueled and diesel-
fueled vehicles and engines, including those
engines and vehicles used for over-the-road cars
and trucks and those used for construction
equipment, lawn and garden equipment, and
other small engines.
Nitrous oxide instruments: In addition to
carbon dioxide (C02) and methane (CH4),
21
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
nitrous oxide (N20) is a greenhouse gas which is
emitted from mobile sources and which may be
a concern. The Agency already has analytical
capability to measure C02 and CH4 using
acceptable laboratory methods. What is needed
is an instrument that can measure N20 that
would be more cost-effective than the current
FTIR method.
Source apportionment for particulates: When
samples are taken of the particulate material in
the atmosphere, it is of great interest to the
Agency to know which sources contributed to
the overall particulate material measurements.
To the extent that the Agency's ability to
apportion the overall result to the sources that
caused it improves then control strategies can
be refined to be more cost effective. What is
needed is a source apportionment methodology
(including instrumentation) that is rapid, cost-
effective, and unambiguous. It would be
desirable to be able to determine what percent
of the ambient particulate came from mobile
sources and of that how much came from diesel-
fueled vehicles and how much came from
gasoline-fueled vehicles. Further apportionment
within the mobile source fraction would also be
desirable. To the extent that the methodology
and instrumentation can also be applied to
source apportionment for stationary sources of
emissions, the Agency's interest would, of
course, increase.
Development of a small, portable analytical
instrument that can be transferred between
mobile emissions sources, such as construction
equipment or lawn and garden equipment
engines during their actual use to measure CO,
C02 NO, and hydrocarbons.
Development of a small, portable analytical
instrument and procedures for measuring fine
particulate matter less than or equal to 2.5
microns aerodynamic diameter from mobile
emission sources, such as construction
equipment or lawn and garden equipment
engines.
C PREVENTION AND CONTROL
OF INDOOR AIR POLLUTION
This topic focuses on indoor environmental quality
engineering research directed at: (1) determining the nature
of indoor air emissions and surfaces and how they contrib-
ute to human exposure, and (2) developing cost-effective
tools, techniques, and technologies necessary to prevent or
reduce individual exposure to indoor environmental pol-
lutants. Areas of interest include, but are not limited to,
development of:
Methods to prevent biocontaminant growth in
the indoor environment.
Techniques to prevent/avoid dermal and/or
ingestive exposure to hazardous chemicals on
surfaces found in the indoor environment.
Avoiding exposure by children and infants is of
special interest.
Air cleaners with improved ability to remove
volatile organic compounds and small
particulates from indoor air.
Improved particulate air filters for residential
and commercial heating, ventilating, and air-
conditioning (HVAC) systems.
Innovative, cost-effective techniques for
conditioning outdoor ventilation air.
New consumer/commercial products, building
materials, or equipment that reduce the
availability of harmful contaminants within the
indoor environment. This could include
reformulation or redesign of products, materials,
equipment or substitution with lower-emitting
raw materials. For example, a consumer interior
paint or household cleaning product might be
reformulated with lower-emitting raw materials
so that it emits less into the indoor environment.
D. PREVENTION AND CONTROL
0FN0x,V0C'S,S02,
PARTICULATES AND TOXIC AIR
EMISSIONS
Research is needed on new, innovative and cost-ef-
fective approaches that prevent or control emissions of
nitrogen oxides (NOx), fine particles, volatile organic com-
pounds (VOC), or toxic air pollutants (TAP) from stationary
sources. Systems that can be used to control combinations
of these pollutants are of particular interest. Areas of inter-
est include, but are not limited to:
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
Innovative and cost-effective techniques to
control directly emitted submicron size
particles, secondary particles and organic
compounds from stationary sources. Sources of
particular interest include boilers, smelters and
animal waste operations.
Innovative NOx controls for stationary sources
and cost effective techniques to control
emission streams with low concentrations of
TAPs. VOC and TAP emission controls and
prevention technologies for area sources, such
as gasoline marketing operations, surface
coating operations and solvent usage related to
consumer and commercial products.
New, cost-effective sulfur oxides control
techniques for the large number of smaller S02
emitters targeted for regulation by States as
impacting short-term air quality standards from
their relatively high concentration of S02 in
stack gases.
Advanced systems to capture gaseous
contaminants such as acid gases, dioxins, and
volatile metals simultaneously with S02.
Techniques that control multiple pollutants,
such as S02 and NOx, or S02 and toxic metals,
with one process step are of special interest.
Cost-effective techniques to control and/or
remove toxic air emissions, such as heavy
metals, nitroaromatics, and other extraordinarily
active mutagens in vent and flue gases from
combustion and/or industrial sources. Mercury
from coal-fired combustors is of special interest.
Also included are isocyanates from auto refmish
spray painting and brominated flame retardant
dust from plastics manufacturing operations.
Innovative clay-based or other inexpensive
sorbents for selective removal of toxic and other
air pollutants from coal-fired power plant
emissions. Control of mercury is of special
interest.
Technologies that allow leaking valves to be
safely repaired on-line.
E. DRINKING WATER TREATMENT
The Safe Drinking Water Act requires that public
water supplies be disinfected and that EPA set standards
and establish processes for treatment and distribution of
disinfected water to ensure that no significant risks to hu-
man health occur. The EPA Science Advisory Board has
ranked pollutants in drinking water as one of the highest
health risks meriting EPA's attention due to the exposure of
large populations to contaminants such as arsenic, lead,
disinfectant by-products (DBPs), and disease-causing or-
ganisms. Disinfectants are used by virtually all surface
water systems in the U.S. and many systems that rely on
ground water. Chlorine has been the most widely used and
most cost effective disinfectant. However, disinfection
treatments can produce a wide variety of by-products,
many of which have been shown to cause cancer and other
toxic effects. Recently, there has been concern that water
quality can deteriorate dramatically during distribution
unless systems are properly designed and operated. While
disinfection is an integral part of water treatment, filtration
is necessary in surface water systems to reduce pathogen
levels and make disinfection more reliable by removing
turbidity and other interfering constituents.
Innovation is needed to upgrade existing techniques
as well as to develop new approaches to address these
problems. Areas of interest include, but are not limited to:
Alternatives to chlorine disinfection for
removing pathogenic microorganisms,
including innovative applications of ultraviolet
radiation and processes that improve overall
effectiveness while using reduced amounts of
disinfectant.
Development of innovative unit processes,
particularly for small systems, for removal of
organic, inorganic and radionuclide
contaminants (such as perchlorate, aluminum,
pesticides, arsenic, nitrate, radium, etc.),
particulates, and pathogens (e.g., cyst-like
organisms (Cryptosporidium) and emerging
pathogens like caliciviruses, microsporidia,
echoviruses, coxsackieviruses, adenoviruses,
and others on the Drinking Water Contaminant
Candidate List).
Development of efficient, cost-effective
treatment processes for removing disinfection
by-product precursors and innovative methods
that minimize their formation.
Improved methods for controlling pathogens
through coagulation/settling, filtration or other
cost effective means.
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
Drinking water contamination control between the
treatment plant and the user; especially
considering potential chemical leaching (copper
and lead) from distribution system materials and
surfaces and biological regrowth in the
distribution system. In particular, development of
innovative unit processes for the control of copper
leaching in waters with neutral pH and high
dissolved inorganic carbon.
Implementation of centrally-managed Point-of-Use
drinking water control methods, especially for
control of arsenic.
New methods to manage residuals from drinking
water treatment, including coagulant recovery and
beneficial reuses. Membrane brines and treatment
of backwash are a concern. Reuse of regenerant
brines and their ultimate disposal is also a concern.
F. MUNICIPAL WASTEWATER
TREATMENT, SEPTAGE AND
BIOSOLIDS MANAGEMENT
Research is needed to improve existing municipal
wastewater treatment processes and treatment and manage-
ment of septage and sewage sludge (biosolids). Existing treat-
ment and management systems often fail to perform as in-
tended due to unforeseen factors not considered in the plant
design, usually related to upsets in the process itself or ineffi-
ciencies in ancillary treatment and control processes. Specific
areas of interest include, but are not limited to:
Process technologies and cost effective
modifications to enhance reliability of achieving
secondary and reuse quality effluent from facilities
with design flows less than 5 million gallons per
day (mgd).
Process concepts and cost effective modifications
to enhance reliability of achieving high
efficiencies for municipal wastewater treatment
systems from facilities with design flows less than
50,000 gallons per day.
Cost-effective alternatives to the chlorination of
outfalls from municipal wastewater treatment
plants, emphasizing the identity and
characteristics of by-products associated with the
alternative treatments.
More-cost effective techniques for removing
phosphorus and nitrogen nutrients from
municipal wastewater, particularly in small
(<10,000 population) or decentralized systems.
Nontoxic anti-biofoulers are needed for exotic
biological species such as the zebra mussel.
Development of nontoxic methods to control
such species would be a major contributor to
the protection of the Great Lakes and many
inland waterways.
Innovative methods to manage and treat
septage.
New treatment techniques for unsewered
residential and commercial wastewaters to
permit onsite reuse, thus reducing the demand
for larger centralized sewage systems.
Process concepts and modifications to enhance
reliability of achieving Class A biosolids
quality and biosolids vector attraction
requirements of 40 CFR Part 503. Methods to
control pathogenic bacteria, enteric viruses and
viable helminth ova to below analytical
detection levels.
Process concepts and modifications to create or
enhance the use of natural systems (e.g.,
aquaculture, land treatment), especially for use
with small flows.
Cost effective treatment technologies for
removal of pesticides from discharges to surface
waters.
G. INDUSTRIAL WASTEWATER
TREATMENT INCLUDING
MINING AND FEEDL0TS
Research is needed to address environmental and
public health problems associated with animal feeding
operations, including management of animal manure and
by-products. Innovative methods are needed to improve
existing industrial wastewater treatment processes which
often fail to perform as intended due to unforeseen factors
not considered in the plant design, usually related to up-
sets or inefficiencies in the treatment processes. Mercury
contaminated surface waters and ground waters are of spe-
cial interest. Areas of interest include, but are not limited
to:
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
Technologies to contain and treat uncontrolled
air and unsewered wastewater from animal waste
from large animal husbandry operations
including pig, chicken, and turkey farms.
Development of methods that complement or
replace existing lagoon and field spraying
operations that release ammonia to the
atmosphere, saturate and contaminate ground
water and overflow into waterways during
periods of heavy rainfall.
Technologies that minimize adverse
environmental impacts associated with cooling
water intake structures that direct water into a
facility to the first intake pump(s). The primary
concern is the impingement and entrainment of
fish and other aquatic organisms in the facility's
intake structure. Impingement refers to the
trapping of fish and other aquatic life against
cooling water intake screens. Entrainment
occurs when aquatic organisms, eggs and larvae
are sucked into the cooling system, through the
heat exchanger and then are pumped back out.
New and cost effective technologies should
focus on the location, design, construction and
capacity of the cooling water intake structure to
minimize adverse environmental impacts.
Process concepts and modifications to enhance
reliability of achieving high efficiencies for
industrial wastewater treatment systems from
facilities with design flows less than 50,000
gallons per day.
Economical processes for treating drainage from
abandoned factories, coal mines, etc., including
low-cost methods of augmenting coal mine
spoils, treating drainage and spoil.
Innovative techniques and technologies for
management of runoff from mine wastes (i.e.,
overburden, leachate and solids from tailings).
Low cost processes for controlling wastewater
discharges containing volatile or toxic organic
pollutants or pesticides.
Innovative technologies are needed to monitor
and treat bilge/ballast water within vessels,
especially important for the Great Lakes,
Houston Ship Channel, Baltimore Harbor, etc.
Cost-effective alternatives for treating and
recycling animal manure, including use of these
organic residues as a source for methane-rich
fuel gas for combustion and/or protein or fiber
as feedstocks for construction materials and
other specialized products.
ป Mercury contaminated surface water and
groundwater is of special interest. Technologies
are needed to remove mercury in its various
forms including methylmercury. Also needed
are innovative technologies and robust
extractants (i.e., cross-linked polystyrene
polymers, selective ion-exchange resins, special
membranes) that selectively remove mercury
even in the presence of competing metal ions
(e.g., Hg(II), Cd).
H. STORMWATERMANAGEMENT
AND WET WEATHER
POLLUTION CONTROL
Research is needed to improve the treatment and
control of storm water runoff before it is discharged to sur-
face and ground waters in urban areas. Urban runoff from
transportation corridors carries trash, sediment, oil and
grease, nutrients, metals, and petroleum hydrocarbons that
may be characterized as "ultra urban" pollutants. Many
densely urbanized areas are not suitable for the application
of land-intensive storm water control measures such as wet
ponds, vegetated swales, and infiltration trenches. Alterna-
tive technologies, including manufactured devices, will
provide public officials with a wider array of options to
effectively address storm water treatment issues in urban-
ized areas. These control measures fall into a number of
categories, including catchment inlet traps or inserts, oil/
grease and debris separators, sedimentation chambers, fil-
tration chambers, and detention/exfiltration systems. The
development of innovative technologies to treat urban
runoff from roads, bridges, and other impervious surfaces
will enhance the ability of States and municipalities to
effectively address the EPA Phase II Storm Water Regula-
tions and improve the quality of storm water discharges.
Areas of needed research and interest include, but are not
limited to:
Development of cost-effective technologies for
preventing toxic substances and pollutants from
entering storm or combined sewer/drainage
systems.
Development of monitoring technologies and
equipment to measure the characteristics and
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
impacts of wet weather flows (WWF), including
pathogenicity.
Development of high-rate and high-efficiency
WWF treatment technologies suitable for
retrofitting existing wastewater treatment plants
as well as for new installations.
I. REHABILITATION OF URBAN
INFRASTRUCTURE SYSTEMS
The aging condition of our cities and deterioration of
infrastructure includes water distribution and sewerage
systems. This provides an important research area address-
ing how to repair and maintain this infrastructure. The
costs are staggering; the national investment in sewers
alone approaches $1.8 trillion. Excessive flow to the sewer
system from infiltration and inflow (I/I) robs the capacity of
the sewer system and negatively affects proper operation of
the entire sewerage system. I/I has caused surcharging of
sewers, wastewater treatment plants and pumping stations.
Building connections to the street sewers or laterals can
contribute as much as 70 - 80% of the infiltration load.
With current technology, building connection rehabilita-
tion may not be economically feasible because of the sheer
number of connections. Less expensive technologies other
than acoustic approaches are needed to detect leaks, fore-
cast structural failures, and repair/ rehabilitate sewers and
other utility pipelines such as municipal pressurized water
distribution and possibly heat distribution systems. Areas
of needed research and interest include, but are not limited
to:
New sewer materials and construction/
maintenance techniques and new technologies
to repair existing sewer infrastructure at an
acceptable cost.
New technologies to construct, maintain, and
repair new and existing urban utility/steam and
water distribution systems infrastructure at an
acceptable cost.
New pipe materials, relining techniques and
innovative materials for water distribution
systems.
J. RECYQ/INGOFMUNIQPALSOLID
msrE
The nation's growing recycling infrastructure in-
cludes more than 12,000 drop-off sites and some 9,000
curbside programs that collect recyclable materials from
municipal solid waste (MSW). In 1996, over 27% of MSW
was recycled. This means that in 1996 alone more than 57
million tons of recyclable materials from MSW re-entered
manufacturing processes to make new products and pack-
aging. MSW recycling is a complex and growing industry
ripe for innovation both in the collection of recyclable
materials and in the processing of those materials into us-
able goods. Areas of interest for innovation include, but are
not limited to:
Storage, collection, and transport of recyclables
from multi-family and single family residences,
including high-rises, and from commercial
establishments such as stores, restaurants,
construction sites, etc.
Processes to separate recyclables (e.g., various
plastic resins) and to remove contaminants (e.g.,
adhesives not soluble in water) from recyclable
materials.
On-site or en route processing of recyclables
(e.g., bottle crushing at bars or restaurants, paper
processing at offices or print shops, plastics
shredding on collection trucks).
Technologies for improving quality control for
recyclable materials or to identify the extent to
which contaminants are present.
Alternative or new uses and products for
recyclable materials (e.g., using recycled glass
bottles to produce something other than glass
bottles, using recycled newspaper to produce
something other than newsprint, using plastic
bottles to produce something other than
bottles).
Innovative recycling of organics (e.g., using the
compost process to treat manures, composting
of restaurant wastes, using compost for
bioremediation).
Re-designing products to enhance their
recyclability (e.g., recycling-friendly adhesives,
bottle coatings to substitute for colored glass).
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
K. PREVENTION, RECYCLING,
TREATMENT AND DISPOSAL OF
HAZARDOUS AND NON-
HAZARDOUS SOLID WASTES
AND SEDIMENTS
Solid wastes appear in various forms and may be haz-
ardous or non-hazardous in character. In practice, numerous
approaches are used to manage these wastes, including
recycling, incineration or other treatment, and disposal in
conventional or special landfills. Contaminated sediments
now appear to be the main source of toxic contaminants in
many bays, lakes, and rivers. Innovative approaches to
address these problems are needed in areas including, but
not limited to:
Improved treatment and disposal of solid and/or
liquid wastes or sediments, including
detoxification, solidification, chemical
treatment, neutralization, or otherwise fixing
organic waste prior to disposal in landfills. New
methods are also needed for cost-effective
treatment and removal of PCBs from
contaminated sediments.
Multiple recovery and recycling of different
plastic materials in automobile salvage
operations.
Innovative methods for the operation and con-
trol of high temperature waste combustion in-
cinerators that lead to reduced contaminant
release through air, water, or residual ash
streams. Of special interest is mercury, one of
the worst emission problems for waste incinera-
tors. The current technology for capturing mer-
cury is injection of sorbents/reactants into the
flue which results in the capture of mercury
along with fly ash in electrostatic precipitators
or baghouses. This creates a problem with dis-
posal of the mercury-contaminated fly ash or
scrubber solution. Improved technologies are
needed to retrofit incinerators for optimum cap-
ture of the mercury and minimization of mer-
cury-contaminated waste by-products.
Advanced hazardous constituent destruction
technologies using cost-effective thermal,
chemical and biological detoxification
methods.
Advanced physical separation techniques that
make wastes easier to treat or destroy by
moving the metal/organic constituents from one
medium to another.
Recovery processes which may enable the
economic recovery of valuable components
from solid waste that may then be sold and/or
recycled off site.
Innovative new uses for waste materials from
industrial sources, particularly for materials of
which large amounts are not being recycled
presently, to reduce landfill and disposal costs.
Innovative ways of preventing or treating/
detoxifying wastes prior to land disposal,
particularly those containing highly persistent,
bioaccumulative and toxic constituents (e.g.,.
improved means of leaching toxic constituents
from wastes in a landfill environment to render
the wastes innocuous within the period of
operation and post-closure care). Of particular
interest are immobilization technologies
suitable for mercury-bearing wastes. More
information on the Agency's strategy for "PBT
Chemicals" is available at the following web
site: http://www.epa.gov/pbt
An improved technique for the rapid removal of
the paint from a variety of architectural surfaces.
The system should soften and/or loosen the
paint film and physically strip it from the
surface to comply with the Housing and Urban
Development (HUD) cleanliness standards. The
method should minimize the generation of
small dust or fume particles while capturing the
paint film as it is removed. It should be four or
five times faster than existing techniques and
avoid the use of toxic and/or hazardous
chemicals, especially volatile organic
compounds. The system must produce a surface
that can be repainted or include an inexpensive
refinishing step to permit refinishing.
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
L. REMEDIATION OF
ORGANICALLY
CONTAMINATED SOIL,
SEDIMENTS AND GROUND
WATER
Certain locations within the United States have be-
come contaminated with hazardous and toxic organic sub-
stances or agents. These contaminants have permeated and
adsorbed onto soils, diffused to interstitial saturated zones,
dissolved into ground waters and migrated to subsurface
aquifers. In many instances, these contaminants have ex-
hibited physical and chemical properties that make them
difficult to remove from the environment. They may exist
in subsurface deposits as immobile gums or sludges diffi-
cult to access. They may be resistant to normal subsurface
chemical and biological degradation processes. They may
strongly adsorb on soil structures and be only slightly
soluble in aqueous concentrations.
Proposals are solicited that will result in the develop-
ment of innovative, cost-effective methods for the in-situ
or ex-situ treatment or extraction of hazardous organic
waste contaminants using physical, chemical, and biologi-
cal techniques. Also needed are in-situ technologies that
mobilize contaminants to make them more amenable to
subsequent ex-situ or in-situ treatment or extraction. Bio-
logical techniques that utilize genetically engineered mi-
croorganisms can be included in this solicitation, but will
require the proposer to provide any special clearances
needed for such projects. Clearance information on geneti-
cally engineered bioremediation microorganism use can be
obtained from EPA's Office of Pollution Prevention and
Toxics (contact Jim Alwood at (202) 260-1857). Informa-
tion on the EPA biotechnology program is available at the
following web site: http://www.epa.gov/opptintr/biotech/
Of special interest are innovative ex-situ and in-situ
treatment technologies for mercury-contaminated soil,
sediments and groundwater. Also, mercury is a contaminant
under buildings and in buildings, sumps and drains. Inno-
vative and cost effective technologies are needed in areas
including, but not limited to:
Mercury exists as organo-mercury complexes,
phenyl mercury, methyl mercury and mixed
mercury wastes. Cost effective, innovative
technologies are needed to treat, remove, or
immobilize these forms of mercury.
Chemical detoxification, such as neutralization
and dehalogenation or electrochemical
decomposition.
Physical methods for subsurface mixing to
enhance mobilization and mass transfer.
Biotreatment methods in the saturated and
unsaturated zone.
Approaches for detecting, degrading and
removing dense non-aqueous phase liquids
(DNAPL) from ground water. DNAPLs are usually
highly concentrated, small pockets or strands of
semi-pure VOCs. Special needs include better
methods for locating DNAPL pockets and cost-
effective in-situ destruction technologies.
Improvement in nutrient and chemical reagent
delivery systems for biological or chemical
methods.
M. TREATMENT OR REMOVAL OF
HEAVY METALS AT
CONTAMINATED SITES
Environmental contamination at various sites often
includes both toxic and hazardous organics and heavy
metals. Topic L specifically deals with the organics and
this topic addresses the heavy metal components. The goal
is to treat or remove heavy metals from the soil, vadose
zone or ground water. Research and development efforts
that employ physical, chemical and biological techniques
for the mobilization of the heavy metals must describe the
subsequent heavy metal removal methods. Treatment of
complex mixed wastes, especially containing heavy met-
als, are of interest. Mercury is a special problem. Improved
technologies are needed for mercury-contaminated wastes.
Physical separation, thermal processing involving volatil-
ization and condensation, hydrometallurgical processing
and solidification and stabilization (S/S) are applied to
control mercury. Technologies that are capable of separat-
ing and recovering mercury from the waste matrix are pre-
ferred over S/S technologies.
Opportunities for innovation in the themes listed
below are provided as examples only and are not meant to
be all inclusive.
Ex-situ/in-situ cost effective and innovative
treatment processes for the removal of mercury
and heavy metals including: physical
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
separation, thermal processing (i.e., in-situ or
high vacuum thermal desorption),
electrokinetics or S/S technologies.
Ex-situ/in-situ remediation of mercury in
ground water or surface water including low
cost ion exchange resins, polymers, ligands or
ceramic media.
Physical methods for subsurface mixing to
enhance mobilization and mass transfer of
heavy metals.
In-situ treatment of soils, sediments, and
sludges.
Improved methods for treatment of heavy
metals by reduction of their bioavailability in
soils.
Improvement in nutrient and chemical reagent
delivery systems for biological or chemical
methods for heavy metals removal.
Improvement in heavy metal reaction product
recovery and separation systems that enhance
the commercial value of these products.
N. MONITORING AND
MEASUREMENT
TECHNOLOGIES FOR
HAZARDOUS WASTE SITES
EPA's Office of Solid Waste and Emergency Response
(OSWER) is undertaking an initiative to advance new sys-
tems for monitoring hazardous waste sites. OSWER be-
lieves that there have been significant technological ad-
vances in recent years in the areas of chemical constituent
identification and quantification, geophysical analysis,
and information management. These advances could dra-
matically improve capabilities to characterize sites, moni-
tor remedial activities and provide long term monitoring
for closed sites. OSWER's Monitoring and Measurement
Technologies for the 21st Century or 21M2 initiative will
identify and support promising measurement and monitor-
ing technologies in response to waste management and site
cleanup program needs. OSWER will aggressively pursue
the transfer of information and lessons learned to profes-
sionals in the hazardous waste management and site
remediation communities.
EPA has identified areas where significant technol-
ogy needs or gaps exist and, thus, require research to help
address these needs. For the current fiscal year EPA waste
programs are seeking research proposals for in-situ sensors
for monitoring groundwater contamination and treatment
system performance. Technologies are needed as follows:
As more and more pump-and-treat (and other
water treatment) systems enter the operations
and monitoring phase of implementation,
techniques which either effectively monitor the
behavior of the contamination plume or the
performance features of the system are essential.
In-situ sensor technologies or techniques are
needed which either improve the capacity to
monitor the presence and concentration of
contaminants, particularly chlorinated solvents,
in the saturated zone or significantly decrease
the cost of existing techniques for monitoring
these contaminants. Techniques which allow for
remote operations through telemetry are also of
interest as are techniques, which in conjunction
with modeling processes, allow for optimization
of monitoring and/or operating treatment
systems.
Federal and state underground storage tank
(UST) cleanup programs need remote-telemetry
compatible sensors that measure reductions in
BTEX or MTBE levels in soil and groundwater
at several hundred thousand ongoing and new
UST cleanup sites. These sensors should
produce either continuous or statistically-
determined periodic signals indicating BTEX or
MTBE levels or both. Each sensor should have
a self-contained power source with a life of 3 to
5 years and be capable of interfacing with either
remote-telemetry data-capture systems or hand-
held data-capturing devices applied on-site.
EPA has also identified significant technology needs
for research proposals for continuous emissions monitors
for use with thermal hazardous waste treatment systems,
remote sensing for fugitive emissions, new monitoring
methods for cyanides and cyanide speciation, leak detec-
tion technologies for small landfills, monitoring for mining
waste sites, technologies for locating and monitoring
DNAPL contamination, UST internal inspection methods
and non-invasive monitoring technologies for mercury and
heavy metals in soil. Technologies are needed as follows:
Compliance with air emission standards or
limitations has traditionally been determined
by initial and periodic "stack tests", and
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
establishment of operating parameters with the
goal of ensuring day-to-day compliance. This
approach involves long time intervals,
uncertainties that day-to-day emissions are
meeting acceptable limits and questions about
measuring all of the potential "products of
incomplete combustion" (PICs). Technologies
or techniques are needed which allow real-time/
near real-time ability to measure stack emissions
for toxic organic and heavy metal air emissions.
The current standard for dioxins and furans is 30
ng TEQ/dscm. According to EPA's combustion
strategy (November 1994), the proposed new
performance standard for Municipal Waste
Combustors is 0.2 ng TEQ/dscm. Technologies
and techniques for dioxin and furan monitoring
are needed which address the problem that these
contaminants can occur in both gaseous form
and attached to particulate matter.
Remote optical sensing is needed for fence-line
monitoring for fugitive emissions and
enforcement activities. Emergency response/
removal operations, compliance/enforcement
functions, and operation of treatment
technologies in both the Superfund and
corrective action programs require systems that
effectively monitor for fugitive emissions of
hazardous air pollutants along the "fence-line"
of a site. The effectiveness of a fence-line
monitoring technique is a function of the length
of the fence line, number of monitoring points,
the receptors' locations, the source size and
strength, and the compounds of concern. Real
time/near real-time monitoring of toxic organic
pollutants is needed at all points downwind at
the fence-line of a facility using remote optical
sensing technology.
New monitoring methods are needed for total
cyanides and cyanide speciation. To prevent
adverse effects from acute exposure from
cyanide, EPA must monitor for release of toxic
levels of cyanide. This capability is essential to
protect human health, prevent deaths, enhance
credibility of regulation. EPA needs more
accurate, reliable, and enforceable technologies,
techniques and tests to monitoring for total
cyanides and to speciate cyanides. The Agency
is particularly interested in techniques based on
alkaline digestion and ion chromatograph.
Leak detection technologies are needed for
small municipal landfills. There are
approximately 3,000 municipal solid waste
landfills in the U.S. Over 2,000 are owned by
local governments with populations under
10,000 where ground water monitoring is a
relatively large cost. At the same time, ground
water monitoring is essential to guard against
leachate contamination which is the greatest
environmental threat from landfills.
Development of cost-effective monitoring
would help to solve this dilemma between
insurmountable financial burden and
environmental threat. Cost effective
technologies are needed which allow for
protective methods to verify the integrity of
and/or detect leaks from municipal landfills,
focusing on the special needs of smaller
capacity facilities. Examples may include (but
are not limited to) remote platforms that provide
cost-effective monitoring of the integrity of
engineered covers. In addition, sensors are
needed to monitor the integrity and
effectiveness of slurry walls and liners. This
need includes systems designed for
containment purposes and systems designed for
containment and passive treatment (e.g.,
permeable reactive barrier systems). Such
platforms/sensors, with appropriate telemetry,
should allow timely remedial action that
minimizes the frequency and extent of
contaminant releases from the containment
system and reduces the potential for human and
environmental exposure.
Monitoring technologies are needed for mining
waste sites. The presence of very large mining
waste sites, particularly in the western states,
presents a significant health and environmental
threat with no cost-effective solution.
Superfund mining sites pose a unique and
significant challenge because they often cover a
large geographic area and include a very large
volume of contaminated media resulting from
mining operations (e.g., waste materials from
mine excavation or mineral separation activities
or contaminant releases from such activities).
The ability to characterize and monitor releases
from these sites is vital to understanding the
risks, and developing appropriate remedial
approaches. The Agency needs low-cost, low
maintenance monitors and advanced remote-
sensing based tools (i.e., air and space-borne)
for characterizing the extent of contamination
at very large mining waste sites, monitoring
releases, assessing risks, and planning and
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
implementing remediation measures. These
tools should provide information on the
location and areal extent of mining activities
and related waste piles; on the nature and extent
of releases from active and inactive mines; and
on contaminants, particularly metals, and their
concentrations.
Technologies are needed for locating and
monitoring DNAPL contamination. Monitoring
for the presence and persistence of non-aqueous
phase liquids (NAPLs), particularly dense non-
aqueous phase liquids (DNAPLs), presents a
continuing challenge to the operation and
effectiveness of remedial systems for treating
contaminated ground water. Accurately locating
and addressing DNAPL contamination is
essential to designing and implementing
effective systems. EPA needs non-invasive or
minimally invasive technologies or techniques
which can locate, identify, and characterize
DNAPL contamination in the subsurface.
Technologies should be capable of locating
small volumes of DNAPL, assisting with the
characterization of the contamination, assisting
with the visualization of the DNAPL relative to
the feature of the subsurface hydrogeology, and
supporting the optimization of treatment
systems.
Internal Inspection Methods are needed for
Internally-Lined Underground Storage Tanks
(USTs). EPA estimates that 50,000 to 100,000
USTs are internally-lined and will need to be
periodically inspected in order to continue to
meet State and Federal UST requirements. States
have expressed a concern over how these
inspections will be conducted as tank linings
become 10 years old. Currently the
Environmental Protection Agency (EPA) is
aware of only one code of practice for
conducting the internal inspection, National
Leak Prevention Association (NLPA) Standard
631, Chapter B. NLPA 631 requires human
entry into the UST to measure thickness,
hardness, conduct a holiday (spark) test, and
perform ultrasonic measurements on the steel
tank shell. State inspectors and owners/
operators of lined USTs would benefit from
having multiple technologies available for
internally inspecting internally-lined USTs.
EPA is seeking technologies/methods for
conducting the inspection that can meet the
regulatory language at 40 CFR part 280.21
which requires the following be done (for
petroleum and hazardous substance tanks) in
accordance with a code of practice developed
by a nationally recognized association or
independent testing laboratory: Within 10 years
of lining and every 5 years thereafter, the lined
tank is internally inspected, the lined tank is
found to be structurally sound, and 3/4 the
lining is still performing in accordance with
original design specifications.
New, leak detection technologies are needed for
detecting releases from underground storage
tanks (UST) and pipes that are more sensitive,
less prone to human error and cost effective.
Over 800,000 UST systems must conduct leak
detection. However, even at UST sites where
leak detection is performed, releases are usually
discovered by other means. While there are
multiple leak detection technologies in use,
most only detect a release once it exceeds a
certain threshold (e.g., flow rate). In addition,
the regulated community, which includes many
small businesses and governments, is frequently
stymied by the complexity of current
technologies. The Agency is concerned that
current technologies and thresholds may not be
effective, given the prevalence of substances,
such as MTBE, that are more mobile and
persistent in the subsurface than BTEX.
EPA needs field instrumentation to enhance
characterization of soil at sites in the U.S. that
have become contaminated with mercury and
heavy metals. Of special interest are new, non-
invasive technologies such as electromagnetic
radiography that eliminate core sampling, save
time and reduce monitoring costs.
0. ADVANCED MONITORING AND
ANALYTICAL TECHNOLOGIES
The purpose of this program is to advance measure-
ment science by stimulating research on new approaches to
solving environmental monitoring and measurement prob-
lems. EPA is interested in both remote and in-situ measure-
ments approaches. EPA is also interested in the adaption or
extension of existing techniques from other, non-
environmental fields that can provide significant improve-
ments in current environmental measurements. Specific
areas of interest include, but are not limited to:
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
Portable measurement technologies that can be
used in the field to eliminate packaging and
shipping samples to distant laboratories, and
yield real time information at a lower cost. Such
technologies need to be rugged, sensitive, and
suitable for the wide variety of samples that are
commonly analyzed, including industrial
wastes, incinerator stack emissions, industrial
waste waters, and drinking water (source water
assessment and for use in the distribution
system). Ability to measure multiple pollutants
simultaneously would be a plus factor, Rapid
field tests are also needed by personnel
responding to crisis situations such as spills and
accidents.
Improved measurement of microbial pathogens
in drinking water systems is of special interest.
Improved methods for Cryptosporidium are a
priority. Better methods are also needed for
measuring other cyst-like organisms and
emerging pathogens like caliciviruses,
microsporidia, echoviruses, coxsackieviruses,
adenoviruses, and others on the Drinking Water
Contaminant Candidate List. Inaccurate and
highly variable methods contribute to
uncertainty of the extent of health risks from
exposure to drinking water containing these
pathogens including the viability of cysts,
oocysts and viruses found in drinking water
systems. Research is needed to develop
practical, low cost, accurate, and specific
methods to identify and quantify viable
pathogens in raw and finished drinking water
systems.
Improved measurement of disinfection by-
products (e.g., for ozonation: bromate,
aldehydes; for chlorination: chloropicrin,
haloacetonitriles; for chloramination: organic
chloramines, cyanogen chloride). Innovative
approaches for disinfectants (in particular
ozone) and precursors are needed, as well as
portable measurement technologies and rapid
field test kits.
Major improvements in process control, compliance
monitoring, and environmental decision making could be
made if more accurate, less costly, more rugged techniques
were available, including remote sensing devices, that
would yield continuous data on pollutant concentrations
in environmental media. Examples of situations where
advances are needed include, but are not limited to:
Continuous monitors of toxic metal
(particularly mercury) and/or organic
compound emissions from high temperature ,
complex matrix sources such as incinerators,
fossil fuel based power plants, cement kilns, and
smelters.
On-line, in-situ monitors for drinking water,
including source water monitoring and
protection, treatment and distribution system
monitoring.
Continuous monitors of release of volatile
compounds from complex point sources or area
sources such as tanks, pipes, valves, landfills,
and contaminated soils under ambient
conditions.
Measurement of physical, chemical, and
biological water quality parameters. Instream
water monitoring devices that economically
record physical parameters and specific
chemicals in situ and send information in real
time to receiving stations.
Continuous monitors of organic and inorganic
toxicants in municipal and industrial waste
water and their impact (toxic effects) on
receiving waters.
New on-line measurement techniques for
continuous monitoring and process control of
metal or trace organic air pollution emissions.
Instruments to measure air quality from
nonpoint sources such as pesticide drift and
construction-related dust.
Alternative monitors that provide similar data
to expensive monitoring wells of ground water
resources, including refinements of CPT/
hydropunch techniques.
Development of a portable, integrated system
that can capture and measure in real time large
leaks from refineries and other oil and gas or
chemical process equipment flanges, valves,
and pump seals.
Technologies that detect leaks of organic and
inorganic chemicals from the perimeter of the
process unit. Technologies with the ability to
detect leaks of a variety of chemicals, at least as
sensitive as the current Method 21, the ability
to operate from the perimeter of a chemical
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
process unit, and technologies with a sufficient
resolution to identify the specific component
that is leaking.
Cost effective monitoring technologies which
are capable of monitoring multiple toxic air
pollutants (TAP), ambient monitoring
techniques for TAP and technologies that can
be used for compliance monitoring purposes.
Measurement of the size distribution and dry
mass of inhalable particulate matter (PM 2.5
and PM 10), including semi-volatile organic
toxicants and ammonium nitrate in air.
Mass measurements of particle-bound water in
airborne inhalable particulate matter (PM 2.5
and PM 10).
Analytical monitors for hazardous air pollutant
emissions from curing coatings based on the
resin and hardener chemical properties,
including the analytical procedures for their
measurement.
Cost effective continuous emission monitoring
system that can be installed on industrial
process emissions vents and stacks to measure
continuously concentrations of organic
hazardous air pollutant compounds. Devices
must be rugged, sensitive, and yield real-time
data for multiple or single pollutants.
Hazardous metal pollutant monitoring
technology for measuring concentrations of
specific metals species (e.g., Hg) in combustion
process gaseous emissions vents or stacks.
Technology must be rugged, sensitive, provide
continuous data, and may be designed for
measuring multiple or single metal species.
Cost-effective technology for the measurement
of particulate emissions concentrations in
industrial process and combustion stack or vent
exhaust gases on a continuous basis.
Technology for measuring opacity of emissions
from combustion and other industrial processes
at levels less than 10 percent opacity.
Technology will include development of
calibration standards and techniques for
opacities down to zero percent and data quality
criteria suitable for operating continuous
opacity monitoring systems.
Infrared absorption spectra for use in calibrating
FTIR devices for measurements of
concentrations of hazardous air pollutants from
combustion and industrial processes.
Cost-effective technology for the measurement
of mercury emissions concentrations in
industrial process and combustion stack or vent
exhaust gases on a continuous basis.
Technology for collecting and assuring
representative sampling and loss minimization
for particulate air toxics emissions from
combustion and industrial process emissions
stacks and vents.
Technology for determining the species
composition of particulate matter samples from
combustion and industrial process emissions
stacks or vents.
Technology transfer from ambient monitoring
to continuous monitoring of combustion or
industrial process stack or vent emissions for
criteria or hazardous air pollutants.
P. NEW TECHNOLOGIES AND
ALTERNATIVES FOR OZONE
DEPLETING COMPOUNDS
Under Title VI Section 612 of the Clean Air Act
(CAA) of 1990, the EPA is required, to the maximum extent
practicable, to enable the replacement of substances that
harm the stratospheric ozone layer (such as chlorofluoro-
carbons (CFCs) and halon fire suppressants) with safer al-
ternatives and technologies that reduce overall risks to
human health and the environment.
Research is needed to continue the process of finding
non-ozone depleting substances to replace CFCs and other
ozone depleting substances (ODS). Many commercial sec-
tors are affected by the phaseout of ODS, including the
refrigeration, air conditioning, fire extinguishing systems
and foams industries. Examples of areas where research is
needed include, but are not limited to:
Development of systems to reduce the amount
of hydrogen fluoride generated during the use
of hydrofluorocarbon (HFC) fire-suppressants.
Development of better and more efficient fire
suppressants and systems, including
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
compounds that meet weight restrictions, use
available substitutes in a more efficient manner,
technologies more efficient for putting out fires,
delivery enhancement, and optimizing the
amount of agent delivered.
Development of cheaper, more reliable fire
detection methods and systems.
Development of alternative adhesives for
ozone-depleting foam to foam and wood to
wood applications.
Development of low-ozone depleting coating
removers.
Alternatives to methyl bromide, particularly
non-chemical alternatives like steam
sterilization and solarization for soil fumigation
or irradiation and C02/heat treatment.
Development of very-low-temperature (e.g., -
50ฐ C) refrigerants or alternative technologies.
Development of alternatives to control the
emissions of blowing agents used in insulating
foams (i.e., non-emissive foam or capture/
recycle of the blowing agents).
Development of air-conditioning and
refrigerant technologies that reduce system
leaks, (e.g., using hermetic systems instead of
open systems for end uses where leaks are
significant, or by incorporating self-sealing
additives into air-conditioning components
which would minimize leaks).
Development of systems that would enable use
of smaller refrigerant charge or appropriate use
of flammable refrigerants, (e.g., the use of
hydrocarbons or ammonia with secondary
loops).
Q. GLOBAL CLIMATE CHANGE:
PREVENTION AND CONTROL
OF GREENHOUSE GAS (GHG)
EMISSIONS
This topic focuses on GHGs as they relate to global
climate change. Gases of concern are methane, carbon di-
oxide, nitrous oxide, hydrofluorocarbons, perfluoro-
carbons, and sulfur hexafloride. EPA is interested in pre-
vention and control technologies for GHGs where there are
multiple pollution reduction benefits for GHGs and other
pollutants such as toxic metals, mercury and hazardous air
pollutants. Technologies that only involve energy effi-
ciency, where the pollution reduction benefit is indirect
reduction of power plant emission, are addressed by other
agencies and are technically unacceptable. Of high interest
are areas for which little success has been achieved, for
which little is being done, or where a significant improve-
ment can be made over an existing or developing way to
reduce GHG and other pollutant emissions. Some of these
areas include, but are not limited to:
New, environmentally safe chemicals (e.g.,
blends of chemicals to reduce flammability of
potential refrigerants) and intelligent controls
(e.g., fuzzy logic and neural networks) to reduce
GHG emissions.
Ways to reduce, detect, collect, and utilize
waste methane from various sources including
animal husbandry.
Improved instruments and methods to measure
GHG emissions (e.g., from area sources such as
rice patties and urban transportation).
New ways to improve control of aluminum
production to reduce perfluorocarbon
emissions.
Improved processes or process modules for
utilizing biomass or other renewable energy
sources (e.g., better conversion efficiency of
biomass to liquid fuels for transportation to
provide co-control of environmental burdens).
New insulation materials or processes to replace
uses of sulfur hexafluoride.
R. REDUCTION OF
ENVIRONMENTAL AND HUMAN
HEALTH RISKS FROM
PESTICIDE USE
Under the authority of The Federal Insecticide, Fun-
gicide, and Rodenticide Act (FIFRA), The Federal Food,
Drug, and Cosmetic Act (FFDCA), and The Food Quality
Protection Act of 1996 (FQPA) the EPA Office of Pesticide
Programs (OPP) is charged with protecting public health
and the environment from risks posed by pesticides, and
with promoting safer means of pest control. To carry out
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
this mission OPP must be able to evaluate and reduce ex-
posure and effects of pesticides and their degradation prod-
ucts. This topic relates to that mission by requesting re-
search aimed at increasing OPP's ability to measure,
evaluate and reduce environmental and human exposure
and effects associated with the use of chemical and bio-
logical pesticides. It also relates to preserving clean water
as a valuable natural resource. Technologies are needed to
determine the amount of exposure that results from pesti-
cide use and to determine what effect such exposure may
have on ecosystems and individual organisms. Methods,
equipment and alternatives for reducing use of and expo-
sure to toxic chemicals is needed. This is not aimed at pro-
tecting pesticide workers specifically but at protecting the
public from unintentional exposure to pesticides. Ex-
amples of research needed includes, but is not limited to:
Environmentally benign alternatives to toxic
chemicals are needed for pest control. These
may include physical or nontoxic chemical
means for controlling undesirable plants,
invertebrates or vertebrate pests.
Techniques to prevent the drift of pesticide
aerosols during aerial spraying or field tractor
application of pesticides to plants. Techniques
may include changes to the process (e.g., direct
application of a systemic pesticide replacement
below the soil surface), or improvements in
pesticide materials and application hardware
(e.g., an alternative pesticide formulation with
improved wetting properties that will have
higher transfer efficiency to the plant leaf
surface coupled with an adjustable height spray
drift cover).
Small, effective, inexpensive water purification
devices are needed for home use. Recent
research indicates that most groundwater and
surface water in the U.S. contains one or more
pesticide related compounds. Current water
treatment technology may not remove these
compounds. In addition, a large percentage of
the U.S. population receives their drinking
water from small sources or private wells that
are not regulated under the Safe Drinking Water
Act. Home water purification capable of
removing polar and non polar pesticides are
needed to ensure that safe drinking water is
available.
The Agency also needs innovative and cost effective
methods for monitoring occurrence and movement of pesti-
cides and their degradation products in the environment.
Examples of research needed include, but are not limited to:
Equipment and methods are needed for in-situ
monitoring of non-persistent pesticides and
pesticide degradation products in soil, water
and air. It is difficult and expensive to monitor
environmental concentration of compounds
whose concentration change with time. Point
concentration values are very limited in
describing the distribution of chemicals that
may be short lived. Alternatives to the standard
procedures for collecting a sample in the field
and transporting it to the lab for analysis can
greatly enhance our ability to track the
occurrence and movement of pesticide
compounds in the environment.
Simple, accurate pesticide and pesticide
degradation product detection methods are
needed for individual homeowner use.
Technologies and methods are needed for
detecting pesticides and pesticide residues on
food and plant surfaces in the field.
Technologies and methods are needed that
allow consumers to check produce for the
presence of pesticides and pesticide residues on
fruit and vegetables at the point of purchase.
This would allow consumers to make an
informed decision before buying agricultural
products that may contain pesticide chemicals.
EPA is also interested in equipment and methods for
determining the effects of exposure to pesticides and pesti-
cide degradation products. Examples of research needed
include, but are not limited to the following:
Technologies and methods are needed for
evaluating the effects of chemical mixtures. For
example, alachlor, atrazine and aldicarb show
little individual toxicity in concentrations
currently observed in the environment. When
multiple pesticides are present, the toxicity of
the mixture is significantly greater. Currently,
regulatory decisions are made based on single
compounds and additive or synergistic effects
are not considered. New technologies and
methods are needed for mixtures. Toxicity of
the mixtures may be significantly greater.
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
New test systems are needed for evaluating
hormonal disruption potential for new and
existing pesticides and pesticide degradation
products in non-mammalian species. Under
FQPA, EPA is required to establish an endocrine
disruption screening and testing program for
pesticides. New technologies and better tests are
needed for non-mammalian species (i.e., fish,
amphibians and reptiles).
Technologies and in-situ methods are needed
for monitoring lethal and sub-lethal effects of
pesticides and pesticide residues on birds, fish
and other organisms. For example, it is difficult
to determine if a pesticide application has had
an effect on local bird populations. A method
for detecting bird kills would allow better
evaluation of environmental risks of a pesticide.
IX. SUBMKSIONFX)RMSAM)
CERTMCMONS
The attached forms, Appendix A - Proposal Cover
Sheet, Appendix B - Project Summary, and Appendix C -
SBIR Proposal Summary Budget, should be downloaded
and printed from the Internet or photocopied, and com-
pleted as indicated under Section III, Proposal Preparation
Instructions and Requirements. The purpose of these forms
is to meet the mandate of law or regulation and simplify
the submission of proposals.
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
Appendix A: SBIR Proposal Cover Sheet
SOLICITATION NO. PR-NC-99-13350
PROPOSAL TITLE:
FIRM NAME:
MAILING ADDRESS:
CITY: STATE: ZIP:
PHONE: _ FAX: E-MAIL:
AMOUNT REQUESTED:$ PROPOSED DURATION (PHASE I): 6 MOS
(Not to Exceed $70,000)
TOPIC (check one)
A. Pollution Prevention and Clean Technologies
B. Prevention, Control and Monitoring of Mobile Source Emissions
C. Prevention and Control of Indoor Air Pollution
D. Prevention/Control of NOx, VOC's, S02, Particulates, Toxic Air Emissions
E. Drinking Water Treatment
F. Municipal Wastewater Treatment, Septage and Biosolids Management
G. Industrial Wastewater Treatment, Mining and Feedlots
H. Stormwater Management and Wet Weather Control
I. Rehabilitation of Urban Infrastructure
J. Recycling of Municipal Solid Waste
K. Prevention, Recycling, Treatment, and Disposal of Hazardous and Non-Hazardous Solid Wastes/Sediments
L. Remediation of Organically Contaminated Soil, Sediments and Ground Water
M. Treatment or Removal of Heavy Metals at Contaminated Sites
N. Monitoring and Measurement Technologies for Hazardous Waste Sites
O. Advanced Monitoring and Analytical Technologies
P, New Technologies and Alternatives for Ozone Depleting Compounds
Q. Global Climate Change: Prevention/Control of Greenhouse Gas Emissions
R. Reduction of Environmental and Human Health Risks from Pesticides Use
CERTIFICATIONS AND AUTHORIZATIONS: Answer Y(Yes) or N(No)
1. The above concern certifies that it is a small business concent and meets the definition as stated in the program solicitation.
2. The above concern certifies that a minimum of 2/3 of the research and/or analytical effort will be performed by the proposing firm.
3. If the proposal does not result in an award, is the Government permitted to disclose the title and technical abstract page of your proposed project, and the name,
address, and telephone number of the official of the proposing firm to any inquiring parties?
4. The above concern certifies that it is a woman owned small business concern and meets the definition as stated in the program solicitation. *
3. The above concern certifies that it is a socially and economically disadvantaged small business concern and meets the definition as stated in the program
solicitation.*
6. Do you plan to send, or have you sent, this proposal or a similar one to any other federal agency? If yes, which? Use acronym(s) for each agency, (e.g., DOD, NIH,
DOE, NASA, etc.)
7. Choose one of the following to describe your Organization "type: Individual Partnership Corporation
8. Provide the following information: Tax Identification No:
Dun & Bradstreet Number: Common Parent Name:
* for informat ion purposes
Endorsements
Authorized Negotiator Person Authorized to Sign Proposal
Title: Title:
Telephone: Telephone:.
Fax: Fax:
Email; Email:
Signature: Signature:
of Authorized Negotiator of Person Authorized to Sign Proposal
Date: Date:
PROPRIETARY NOTICE: For any other purpose than to evaluate the proposal, this data shall not be disclosed outside the Government and shall not be duplicated,
used or disclosed in whole or in part, provided that if a funding agreement is awarded to this offeror as a result of or in connection with the submission of this data the
Government shall have the right to duplicate, use or disclose the data to the extent provided in the funding agreement. This restriction does not limit the
Government's right to use information contained in the data if it is obtained from another source without restriction. The data in this proposal subject to this
restriction is contained on pages of this proposal.
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
Appendix B: SBIR Project Summary (Limit to 1 Page)
FIRM NAME, ADDRESS, TELEPHONE AND FAX NUMBER, AND E-MAIL ADDRESS:
Firm name: Telephone:
Address: Fax:
E-mail:
TITLE OF PROPOSAL:
TOPIC LETTER (A-R):
NAME AND TITLE OF PRINCIPAL INVESTIGATOR:
TECHNICAL ABSTRACT, RESULTS, AND POTENTIAL COMMERCIAL APPLICATIONS (Limit to 400Words;
Must be Publishable):
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
Appendix C: SBIR Proposal Summary Budget
(Instructions on Reverse Side)
Organization and Address
A. DIRECT LABOR (PI and other staff, list separately) Hours/Est Rate: $
B. OVERHEAD: ~ $
C. OTHER DIRECT COSTS (List separately): $
D. TRAVEL (List purpose and individuals and/or title): $
E. CONSULTANTS (List estimated rate and hours): $
F. GENERAL AND ADMINISTRATIVE: $
TOTAL COSTS (Total of A thru F above): $
G. PROFIT ( %) Not to exceed 10% of total project costs $
TOTAL PROJECT PRICE (Total Cost + Profit) $
SIGNATURE: Date Submitted:
This proposal is submitted in response to EPA SBIR Program Solicitation No. PR-NC-99-13350 and reflects our best
estimate as of this date.
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
Instructions for Appendix C
The purpose of this form is to provide a vehicle whereby the offeror submits to the Government a pricing proposal of
estimated costs with detailed information for each cost element, consistent with the offeror's cost accounting system.
If the completed summary is not self-explanatory and/or does not fully document and justify the amounts requested
in each category, such documentation should be contained, as appropriate, on a budget explanation page immedi-
ately following the budget in the proposal. The form Appendix C will count as one page in the 25 page limit, and
any budget explanation pages included will count separately toward the 25 page limit. (See below for discussion on
various categories.)
A. Direct Labor - List individually all personnel included, the estimated hours to be expended and the rates of pay
(salary, wages, and fringe benefits).
B. Overhead - Specify current rate(s) and base(s). Use current rate(s) negotiated with the cognizant federal negotiat-
ing agency, if available. If no rate(s) has (have) been negotiated, a reasonable rate(s) may be requested for Phase I
which will be subject to approval by EPA. Offerors may use whatever number and types of overhead rates that are
in accordance with their accounting systems and approved by the cognizant federal negotiating agency, if avail-
able.
C. Other Direct Costs - List all other direct costs which are not otherwise included in the categories described
above, i.e., computer services, publication costs, subcontracts, etc. List each item of permanent equipment to be
purchased, its price, and explain its relation to the project.
D. Travel - Address the type and extent of travel and its relation to the project.
E. Consultants - Indicate name, daily compensation, and estimated days of service.
F. General and Administrative (G& A) - Same as B. Above.
G. Profit - Reasonable fee (estimated profit) will be considered under this solicitation. For guidance purposes, the
amount of profit normally should not exceed 10% of total project costs.
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
Appendix D: Scientific and Technical Information Sources
State-of-the-art information, including service and cost details, useful in preparing SBIR proposals or in guiding
research efforts may be obtained from the following sources:
National Technical Information Service (NTIS)
5288 Port Royal Road
Springfield, VA 22161
(513) 569-7562
EPA Headquarters Library (3404)
US Environmental Protection Agency
401 M Street, SW
Washington, DC 20460
(202) 260-5922
The Hazardous Waste Collection and Database are available for use in the EPA Headquarters Library, the 10 EPA
Regional libraries, EPA laboratories in ADA, OK; Edison, NJ; Las Vegas, NV; Research Triangle Park, NC and the Na-
tional Enforcement Investigations Center in Denver, CO. The Database runs on an IBM AT/XT or compatible equip-
ment and may be purchased from NTIS using the NTIS order number PB87-945000.
The Environmental Quality Instructional Resources Center
1200 Chambers Road, R.310
Columbus, OH 43212
(614) 292-6717
[Especially related to Drinking Water and Waste Water Treatment]
National Small Flows Clearinghouse (SWICH)
P.O. Box 7219
Silver Spring, MD 20910
1-800-677-9424
[Topic themes include source reduction, recycling, composting, waste combustion, collection, transfer, disposal, land-
fill gas, and special wastes]
ACCESS EPA (#055-000-00509-5) 1995 EditionA consolidated guide to EPA information resources, services,
and products. It provides access to:
Public information tools
Major EPA dockets
Clearing houses and hot lines
Records management programs
Major EPA environmental database
Library and information services
State environmental libraries
"ACCESS EPA" may be ordered at a cost of $16.00 each from the U.S. Government Printing Office, New Orders,
Superintendent of Documents, P.O. Box 371954, Pittsburgh, PA 15250-7954, or telephone (202)512-1800, or from
NTIS using order number PB-147438.
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
Vendor Information System for Innovative Treatment Technologies (VISITT) Profiles 325 innovative technologies
available from 204 vendors to treat ground water in situ, soil, sludges, and sediments. Includes technologies in all
stages of development-bench, pilot, or full. VISITT is available at no charge on diskettes compatible with personal
computers using DOS operating systems. To order VISITT diskettes and user manual, and to become a registered user,
call the VISITT Hotline at 1-800-245-4505.
ENVIROSENSE
Internet: http://www.epa.gov/envirosense
GS includes numerous databases and addresses industry and small business needs by establishing specific compli-
ance assistance, P2, regulatory and specific industry sector (SIC) data sets.
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
Appendix E: Commercialization Factsheet
(Finding Commercial Products; Conducting a Patent Search; Searching for
Federal Research; Standards/Certifying Bodies)
FINDING COMMERCIAL PRODUCTS
The technology you are proposing may already be being sold in the market. There are five web searches recom-
mended as the minimum for determining if the technology is commercially available. In each case, when having trouble
look for the FAQs (Frequently Asked Questions) or other advice on searching.
Web Search using General Search Engines
There are around 320 million indexed web pages and the web continues to grow exponentially. One problem with
this rate of growth is that no single web search engine is capable of indexing the whole of cyberspace. We recommend
using at least one meta-engine and two search engines.
A meta-engine is a search engine which searches other engines that actually catalog or index sites. Examples are
Metacrawler .http://www.metacrawler.com/. and Dogpile, http://www.dogple.com. We use that search to identify which
search engines seem to be producing the best results and then use those engines for more complicated queries which
cannot be supported by metacrawler and other meta-engines.
Two engines for more detailed searches at present are Hotbot's More Options page (http://www.hotbot.com/
default.asp?MT=&SM=MC&DV=7&RG=.com&act.super=+More+Qptions+&DC=10&DE=2& v=2&0Ps=MDRTP) and
Alta Vista's Advanced Query Page (http://www.altavista.digital.com/cgi-bin/querv?pg=aq). Both engines allow you to
search newgroups (Usenet) as well as the Web. Hotbot has the largest number of pages indexed by any web browser as
this is written. Alta Vista has the next most extensive coverage. Unfortunately, queries are constrained to the options pre-
sented. Alta Vista supports any Boolean query you can design. Both sites have a search by subject feature that provides
another path to sites of interest. Because Digital Equipment Corporation, who maintains Alta Vista, is a high tech com-
pany, this engine has traditionally been strong on indexing science and technology sites.
When searching, expand or narrow your keywords over time. For example, when searching for "sapphire liquid
crystal displays," you may want to broaden to liquid crystal displays or just displays. Also remember to use abbreviations
such as LCD.
Thomas Register of American Manufacturers: Long a staple of corporate buyers and market researchers, you can
access Thomas Register on-line for free at http://www.thomasregister.com/. Once you obtain your free membership, you
can search the 155,000 companies by product. You may have to try a few different keywords to get hits.
Hoovers : Hoovers on-line at http://www.hoovers.com provides access to profiles on over 12,000 companies. These
are the major firms in America, including subsidiaries of foreign operations. By using the keyword search, you can look
for companies making products in areas related to your technology. Hoovers provides hypertext links to go to the
company's web page. Phone, fax, and street address are also provided. If you cannot find the information on the web, ask
for relevant product literature from their marketing departments.
Press Releases: PR Newswire (http://www.prnewswire.comA redistributes corporate press releases. It provides cover-
age of newly released products that might not otherwise be found on the web.
Patents: We discuss patent searches in the next section of this FactSheet. Look for patents related to your technol-
ogy, then examine the assignee field. Companies licensing or patenting technology in areas related to your technology
are competitors that may be introducing products similar to the one you are considering proposing. Search for their web
pages using one of the resources above.
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EPA Small Business Innovation Research Phase I FYOO Program Solicitation No. PR-NC-99-13350
CONDUCTING A PATENT SEARCH
What is a patent? A patent is a right to an invention that is granted by the U.S. Government or a foreign government.
It gives the holder an exclusive right to use an invention during a period of time. In the United States, before a patent can
be issued, the inventor must demonstrate his or her invention is new and non-obvious. To be new, an invention must not
have been known nor made by others in the U.S. The invention also can not have been previously patented or presented in
a publication prior to the claimed date on which the invention was made. Patents are handled by the U.S. Patent Office.
Non-obvious is established with reference to what would be obvious to a person of ordinary skill in the relevant tech-
nology (or technologies) at the time of the invention. A general rule is that the more complicated the technology and the
greater the rate at which it is developing, the higher the skill-level of that hypothetical ordinary person. Non-obvious is
determined by examining prior patents, technical publications, and non-secret work being conducted. Usually some aspect
of an invention will be non-obvious and thus capable of being patented.
It is important to recognize that different rules apply in different countries. In the U.S., you have one year from the
time of first disclosure, use, publication, or sale of an invention to patent the invention. Where more than one person or
group makes a claim to be the inventor, the patent goes to the person or group that can demonstrate priority in time. Over-
seas, the rules are different. Usually the invention must be patented before any public disclosure, use, publication, or sale.
In case of a dispute, priority goes to the first person or group to apply for a patent, regardless of who may actually be the
inventor. You can, however, get the same overseas priority rights you would get from simultaneously filing overseas and in
the U.S. if you file in each relevant country within 12 months of a U.S. patent application.
How to search for U.S. patents-. There are two free web sites useful for searching for U.S. patents: the U.S. Patent Office
and IBM's Patent Server. To search the Patent Office go to http://patents.uspto.gov/index.html. The IBM server is at http://
www.patents.ibm.com/ihm.html.
The Boolean search capability of the Patent Office enables constructing complicated searches to narrow in on patents
of interest. It allows two terms Booleans in the first search, with more complicated queries when refining a search. You can
search specific sets of years or the entire database. The advanced search gives you the ability to look in any or all of the
fields in the patent ~ a very nice feature. Coverage includes all patents issued no later than one week earlier. It includes all
utility, design, and plant patents since 1976. Claims and pictures are not included. (See below, Reading Patents.)
The IBM Patent server contains over 2 million patents. Where drawings are part of the patent, they have been scanned
in and can be viewed. Off the home page, you have the option of searching from 1995 to present or 1971 to present.
Hypertext links on the home page let you search by patent number, use Boolean Logic, or do a text search in various sec-
tions of the patent. Try to be as targeted as possible in your search terms. For example, "environmental monitor" will return
42 patents issued in 1995 or later on IBM's server. "Mercury monitor," by comparison, returns only three.
Reading Patents: Once you have found a patent that looks relevant for your interests, examine the abstract and the
claims. The abstract provides an overview of what is covered. The claims give you the specific scope of the patent.
There are three paths for finding other patents of interest, once you have found the first one. The first method is to
look at the class (or classes) of the patent. You can find patents addressing similar problems by looking in those classes. To
fine tune the classes to use, look at a number of relevant patents. Examine the classes that are listed on the patent. Select
those classes that most frequently appear across your sample of patents for further examination.
The second method is to look at the patents cited as references. The final method is to look at patents that reference
the one you are examining. By searching text, relevant classes, and patents referred to or referencing relevant patents you
can quickly determine if a U.S. patent has issued on a technology of interest. CAUTION: Examining U.S. patents does not
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
assure you the technology has not been patented elsewhere. Further, if the patent is only applied for and has not yet been
issued, you will not find it.
SEARCHING FOR FEDERAL RESEARCH
There are two sets of publicly available data on Federal Research. FEDRIP, or Federal Research in Progress, provides
access to current civilian agency research. FEDRIP includes:
Department of Agriculture
Department of Energy
Department of Veterans Affairs
Environmental Protection Agency
Federal Highway Administration
National Institutes of Health
NASA
National Science Foundation
US Geological Survey
National Institute of Standards and Technology
Nuclear Regulatory Commission
Small Business Innovation Research
Parts of FEDRIP may be searched for free at The Community of Science, http://fundedresearch.cos.com/. Separate
databases exist for the National Institutes of Health, NSF, USDA, and the SBIR program ~ which means you must do mul-
tiple searches. You can also search projects of the Medical Research Council of the United Kingdom. To search all of
FEDRIP, go to http://grc.ntis.gov/fedrip.htm. There is a $350 fee.
In addition, by going to an agency's web site, you can find information on their current and/or past awards. The Na-
tional Technical Information Service (NTIS) is the designated repository of research reports. It contains technical reports
and other government-produced information products. The free access parts may be searched at http://www.ntis.gov/. For
the fee-based access, see http://dtic.mil/stinet/.
DoD material can be search through the Defense Technical Information Center (DTIC). Public access searching is at
http://www.dtic.mil/stinet/.
Perhaps the best comprehensive resource for searching is the RAND's RaDiUS at http://www.rand.org/radius/.
RaDiUS, stands for "Research and Development in the United States." It is the first comprehensive database that tracks in
real-time the research and development activities and resources of the U.S. Government. Among its sources are the follow-
ing: the Catalog of Federal Domestic Assistance (CFDA); USDA's Current Research Information System (CRIS); HHS's
Computer Retrieval of Information on Scientific Projects (CRISP) and Information for Management, Planning, Analysis,
and Coordination (IMPAC) system; DoD's R-l and R-2 Budget Exhibits and Work Unit Information Summaries (WUIS);
DOE's laboratory information system; the Federal Assistance Awards Data System (FAADS); the Federal Procurement Data
System (FPDS); OMB's MAX system; DVA's R&D Information System (RDIS); NSF's Science and Technology System
(STIS); and NASA's 507 System.
You must be a Government Contractor to subscribe to RaDiUS. The small business fee is $1,000 per year per pass-
word.
STANDARDS AND CERTIFYING BODIES
If you are going to introduce a commercial product, it most likely will have to meet certain standards and be certified
as meeting those standards. For example, we all are familiar with the Underwriter Laboratories seal found on household
electrical productsa certification of safety under normal use.
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
A wide range of bodies creates standards or certifies products. To find relevant standards, we recommend beginning at
the American National Standards Institute's "Internet Resources for Standards Developers", located at: http://web.ansi.org/
public/librarv/intemet/resources.html. The site provides links to U.S. bodies developing standards.
If you are anticipating overseas sales, be aware that you will need to identify relevant foreign and international stan-
dards. The place to begin is the International Organization for Standardization. Their list of links to standards bodies is at
http://www.iso.ch/VL/Standards.html.
In the U.S., private sector laboratories, like UL commonly do certification. These organizations rely on standards de-
veloped by consensus bodies such as the American Society for Testing and Materials (http://www.astm.orgA or federal
agencies such as EPA. ASTM maintains an International Directory of Testing Laboratories at: http://www.astm.org/lahs/
index.html. The Directory can be searched by geographic location, lab name, subject area, or keywords.
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EPA Small Business Innovation Research Phase 1 FYOO Program Solicitation No. PR-NC-99-13350
IMPORTANT!!
IFYOU WISH TO RECEIVE AN ACKNOWLEDGMENT CARD TO CONFIRM RECEIPT OF YOUR PROPOSAL,
PLEASE COMPLETE A STANDARD SELF-ADDRESSED POSTCARD CONTAINING THE FOLLOWING INFORMA-
SIDE ONE: Please type the following and fill in the blanks as appropriate.
This will acknowledge the receipt of your proposal titled:
Topic Letter . The evaluation of proposals and the award of SBIR Contracts will require approximately
6-9 months, and no information on proposal status will be available until final selection(s) is made. Your proposal
has been assigned EPA No. . (To be filled in by EPA)
Date:
REVERSE SIDE: Please type the following in the upper left-hand corner (return address) and self-address the card to
your corporate official: (Post cards that do not meet postal service standrads will not be returned).
U.S.EPA
CONTRACTS MANAGEMENT DIVISION (MD-33)
RESEARCH TRIANGLE PARK, NC 27711
OFFICIAL BUSINESS
PENALTY FOR PRIVATE USE $300
YOUR FIRM NAME
ADDRESS
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