EPA-453/R-06-002
September 2006
Control Techniques Guidelines for Offset
Lithographic Printing and Letterpress Printing
-------�
This page intentionally left blank.
11
-------�
EPA 453/R-06-002
September 2006
Control Techniques Guidelines for
Offset Lithographic Printing and
Letterpress Printing
Sector Policies and Programs Division
Office of Air Quality Planning and Standards
U.S. Environmental Protection Agency
RTP, NC
-------�
This page intentionally left blank.
IV
-------�
TABLE OF CONTENTS
I. Introduction Page 1
II. Background and Overview Page 2
III. Applicability Page 3
IV. Process Description and Sources of VOC Emissions Page 6
A. Offset Lithography
1. Inks
2. Fountain Solution
3. Cleaning Materials
B. Letterpress Printing
1. Inks
2. Cleaning Materials
V. Available Control Options Page 9
A. Inks
B. Fountain Solution
C. Cleaning Materials
D. Existing State and Local Regulations
VI. Recommended Control Options Page 13
A. Heatset Web Offset Lithographic and Heatset Letterpress Inks and
Dryers
B. Fountain Solution
C. Cleaning Materials
VII. Cost Effectiveness of Recommended Control Options Page 17
VIII. Factors to Consider in Determining VOC Emissions from Offset
Lithographic Printing and Letterpress Printing Page 18
A. Ink Oil Retention
B. Retention of Low VOC Composite Vapor Pressure Cleaning
Materials in Shop Towels
C. Carryover of VOC from Automatic Blanket Wash and Fountain
Solution to Offset Lithographic Heatset Dryers
D. Capture of Petroleum Ink Oil in Heatset Dryers
E. Methods 25 and 25A
IX. References Page 21
-------�
TABLE OF CONTENTS (continued)
Appendix A
Access to 1993 draft CTG, 1994 ACT, and 2005 TSD Page 22
Appendix B
State and Local Regulations for Offset Lithographic Printing ....Page 24
Agency, Rule Number and Applicability
Fountain Solution Limits
Appendix C
State and Local Regulations for Letterpress Printing Page 36
Appendix D
Estimated Costs Associated with the Recommendations Contained in the
Control Techniques Guideline for Offset Lithographic Printing and
Letterpress Printing Page 38
VI
-------�
I. Introduction
Clean Air Act (CAA) section 172(c)(l) provides that state implementation plans
(SIPs) for nonattainment areas must include "reasonably available control measures"
(RACM), including "reasonably available control technology" (RACT), for sources of
emissions. Section 182(b)(2) provides that for certain nonattainment areas, States must
revise their SIPs to include RACT for sources of VOC emissions covered by a control
techniques guidelines (CTG) document issued after November 15, 1990 and prior to the
area's date of attainment.
The United States Environmental Protection Agency (EPA) defines RACT as "the
lowest emission limitation that a particular source is capable of meeting by the
application of control technology that is reasonably available considering technological
and economic feasibility." 44 FR 53761 (Sept. 17, 1979). In subsequent Federal
Register notices, EPA has addressed how states can meet the RACT requirements of the
Act.
CAA section 183(e) directs EPA to list for regulation those categories of products
that account for at least 80 percent of the VOC emissions, on a reactivity-adjusted basis,
from consumer and commercial products in areas that violate the NAAQS for ozone (i.e.,
ozone nonattainment areas). EPA issued the list on March 23, 1995, and has revised the
list periodically. See 60 FR 15264 (March 23, 1995); see also 71 FR 28320 (May 16,
2006), 70 FR 69759 (Nov. 17, 2005); 64 FR 13422 (Mar. 18, 1999). Offset lithographic
printing and letterpress printing are included on the current section 183(e) list.
This CTG addresses both the offset lithographic printing industry and the
letterpress printing industry. Although offset lithographic printing and letterpress
printing are two distinct product categories on the section 183(e) list, they have many
similarities in the types of inks and cleaning materials used, the sources of VOC
emissions, and the controls available to address those emissions. We therefore address
both categories in this CTG.
The CTG is intended to provide state and local air pollution control authorities
information that should assist them in determining RACT for volatile organic compounds
(VOCs) for offset lithographic printing and letterpress printing. In developing this CTG,
EPA, among other things, evaluated the sources of VOC emissions from these printing
industries and the available control approaches for addressing these emissions, including
the costs of such approaches. Based on available information and data, EPA provides
recommendations for RACT for offset lithographic printing and letterpress printing.
States can use the recommendations in this CTG to inform their own
determination as to what constitutes RACT for VOCs for offset lithographic printing and
letterpress printing in their particular nonattainment areas. The information contained in
this document is provided only as guidance. This guidance does not change, or substitute
for, applicable sections of the CAA or EPA's regulations; nor is it a regulation itself.
This document does not impose any legally binding requirements on any entity. It
-------�
provides only recommendations for state and local air pollution control agencies to
consider in determining RACT. State and local pollution control agencies are free to
implement other technically-sound approaches that are consistent with the CAA and
EPA's implementing regulations.
The recommendations contained in this CTG are based on data and information
currently available to EPA. These general recommendations may not apply to a
particular situation based upon the circumstances of a specific source. Regardless of
whether a State chooses to implement the recommendations contained herein through
State rules, or to issue State rules that adopt different approaches for RACT for VOCs for
offset lithographic printing and letterpress printing, States must submit their RACT rules
to EPA for review and approval as part of the SIP process. EPA will evaluate the rules
and determine, through notice and comment rulemaking in the SIP process, whether they
meet the RACT requirements of the Act and EPA's regulations. To the extent a State
adopts any of the recommendations in this guidance into its State RACT rules, interested
parties can raise questions and objections about the substance of this guidance and the
appropriateness of the application of this guidance to a particular situation during the
development of the State rules and EPA's SIP approval process.
CAA section 182(b)(2) provides that a CTG issued after November 15, 1990 and
before the date of attainment must include the date by which States must submit SIP
revisions in response to the CTG. States subject to section 182(b) should submit their
SIP revisions within one year of the date of issuance of this final CTG. States subject to
CAA section 172(c)(l) may take action in response to this guidance, as necessary to
attain.
II. Background and Overview
On November 8, 1993, EPA published a draft CTG for offset lithographic
printing. (58 FR 59261). After reviewing comments on the draft CTG and soliciting
additional information to help clarify those comments, EPA published an alternative
control techniques (ACT) document in June 1994 that provided supplemental information
for States to use in developing rules based on RACT for offset lithographic printing. See
References 1 and 2 in the reference section for the full citation to these documents.
The 1993 draft CTG and 1994 ACT (see Appendix A) provide a thorough
discussion of the offset lithographic printing industry, the nature of VOC emissions from
that industry, available control technologies for addressing such emissions, the costs of
available control options, and other items. In large part, the recommended approaches for
RACT in this document are similar to those proposed in 1993. EPA developed the
recommended approaches contained in this document after reviewing existing state and
local VOC emission reduction approaches, reviewing the 1993 draft CTG and 1994 ACT,
and considering information obtained since issuance of the ACT.
As noted above, letterpress printing and offset lithographic printing have several
important similarities, including similar sources of VOC emissions and similar available
-------�
VOC control approaches. In light of these similarities, EPA relied heavily on the
substantial data and information included in the 1993 draft CTG and 1994 ACT for offset
lithographic printing in formulating the recommendations for RACT in this document for
the letterpress printing industry.
The remainder of this document is divided into seven sections. Section III
describes the scope of sources to which this CTG applies. Section IV provides a
summary of the processes associated with the offset lithographic printing and letterpress
printing industries and identifies the sources of VOC emissions from those processes.
Section V describes the available control approaches for addressing VOC emissions from
this source category and summarizes state and local regulatory approaches for addressing
such emissions. Section VI provides our recommendations for RACT for offset
lithographic printing and letterpress printing. Section VII discusses the cost-effectiveness
of the recommended control approaches. Section VIII presents factors to consider in
assessing VOC emissions from offset lithographic printing and letterpress printing.
References are provided in Section IX.
III. Applicability
This CTG provides control recommendations for reducing VOC emissions
stemming from the use of fountain solutions, cleaning materials and inks in offset
lithographic printing and cleaning materials and inks in letterpress printing. This section
addresses EPA's recommendations as to the scope of entities to which the RACT
recommendations in this CTG should apply. As explained above, this document is
guidance and provides information for States to consider in determining RACT. When
State and local pollution control agencies develop RACT rules, they may elect to adopt
control approaches that differ from those described in this document and/or promulgate
applicability criteria that differ from those recommended here.
In terms of applicability, we recommend that the control recommendations
discussed in this CTG for cleaning materials and fountain solutions apply to any offset
lithographic printing operation where the emissions associated with all aspects of that
operation equal or exceed 6.8 kg/day (15 Ib/day) actual emissions of VOC, or an
equivalent level, before consideration of controls.1 As noted below, the cleaning control
approaches recommended in this CTG include limitations on the VOC composite vapor
pressure of cleaning materials and limits on the VOC content of cleaning materials, with
an exclusion of 110 gallons per year of cleaning materials which meet neither the low
VOC composite vapor pressure recommendation nor the lower VOC content
recommendation, and work practices. We further recommend that the recommendations
concerning fountain solution, which are described in detail below, not be applied to
sheet-fed presses with maximum sheet size 11x17 inches or smaller, or to any press with
1 "Lithographic printing" means a printing process where the image and non-image areas are chemically
differentiated; the image area is oil receptive and the non-image area is water receptive. This method differs
from other printing methods, where the image is a raised or recessed surface. "Offset lithographic printing"
means a printing process that transfers the ink film from the lithographic plate to an intermediary surface
(blanket), which, in turn, transfers the ink film to the substrate.
-------�
total fountain solution reservoir of less than 1 gallon because for these presses. EPA
recommends these exclusions because the recommended VOC (alcohol or alcohol
substitute) content levels associated with such presses would yield a small emission
reduction relative to the cost of achieving that reduction (e.g., changing and maintaining
rollers).
Similarly, we recommend that the control approaches for cleaning materials
discussed in this CTG apply to any letterpress printing operation where the emissions
associated with all aspects of that operation equal or exceed 6.8 kg/day (15 Ib/day) actual
emissions of VOC, or an equivalent level, before consideration of controls.2 As noted
below, these control recommendations include limitations on the VOC composite vapor
pressure of cleaning materials and limits on the VOC content of cleaning materials, with
an exclusion of 110 gallons per year of cleaning materials which meet neither the low
VOC composite vapor pressure recommendation nor the lower VOC content
recommendation, and work practices.
In developing their RACT rules, State and local agencies should consider
carefully the facts and circumstances of the affected sources in their States. As noted
above, States can adopt the above recommended 15 Ib/day actual emissions of VOC
applicability criterion before consideration of controls, or an equivalent applicability
level expressed on a monthly basis (e.g., 450 Ib/month) or 12-month rolling basis (e.g., 3
tons per 12-month rolling period), or they can develop other applicability criteria that
they determine are appropriate considering the facts and circumstances of the sources in
their particular nonattainment areas. EPA will review the State RACT rules in the
context of the SIP revision process.
The above recommended 15 Ib/day threshold is consistent with the applicability
threshold contained in many previous CTGs.3 It is also consistent with the purpose of the
section 183(e) program. In section 183(e), Congress directed EPA to assist States in
achieving VOC emission reductions from consumer and commercial products. These
products individually may result in relatively small amounts of VOC emissions, but, in
the aggregate, they contribute significantly to ozone formation in nonattainment areas.
Given the nature of the products and sources at issue here, we believe that the 15 Ib/day
actual VOC emissions before consideration of controls applicability threshold or
equivalent is appropriate for offset lithographic printing and letterpress printing materials.
For purposes of determining whether the recommended 15 Ib/day actual VOC
emissions applicability threshold or an equivalent threshold is met at a given facility, we
recommend that an offset lithographic printer consider emissions from all offset
2 "Letterpress printing" means a printing process in which the image area is raised relative to the non-
image area and the paste ink is transferred to the substrate directly from the image surface.
3 - See. e.g., Model Volatile Organic Compound Rules for Reasonably Available Control Technology:
Planning for Ozone Nonattainment Pursuant to Title I of the Clean Air Act, dated June 1992 (establishing
the 15 Ib of VOC per day applicability threshold for coating applications for eleven industries, including,
automobile and light duty truck coating operations and coating of cans, coil, paper, fabric, vinyl, metal
furniture, large appliances, magnet wire, miscellaneous metal parts, and flat wood paneling).
-------�
lithographic printing operations, including related cleaning activities at the facility prior
to controls. Similarly, we recommend that a letterpress printer should consider emissions
from all letterpress printing operations, including related cleaning operations at the
facility prior to controls, in evaluating whether the 15 Ib/day actual emissions
applicability threshold or an equivalent threshold has been met.
We recommend a different applicability threshold for the RACT
recommendations in this CTG relating to heatset web offset lithographic printing and
letterpress printing operations. Specifically, we recommend applying the add-on control
recommendations for heatset web offset lithographic printing operations and heatset web
letterpress printing operations only to those presses with potential to emit from the dryer,
prior to controls, of at least 25 tpy of VOC (petroleum ink oil) from heatset inks. We
recommend providing printers with the option of using an enforceable limitation on
potential emissions to keep an individual press below this 25 tpy potential to emit
threshold. Guidance on limiting potential to emit from printing operations is provided in
the Technical Support Document (TSD) for Title V Permitting of Printing Facilities (see
Appendix A). We believe add-on control for heatset presses with potential to emit below
25 tpy is too costly for the emission reduction that would be achieved.
We also recommend excluding heatset presses used for book printing and
excluding heatset presses with maximum web width of 22 inches or less from the add-on
control recommendations. We believe add-on control for such heatset presses is too
costly for the emission reduction that would be achieved.
We estimate that there are approximately 6,700 offset lithographic printing
facilities in current ozone nonattainment areas that meet the 15 Ib/day actual VOC
emissions (before controls) applicability threshold described above. We derived this
number based on available information concerning the offset lithographic printing
industry. Specifically, in the 1993 draft CTG, we estimated that, as of the early 1990s,
there were approximately 34,500 offset lithographic printing facilities in ozone
nonattainment areas. We have information concerning the percentage of the U.S.
population residing in nonattainment areas in the 1990 and 2000 Census. We believe it is
reasonable to use these population figures to estimate the number of offset lithographic
printing facilities in current nonattainment areas (i.e., areas based on the April 2004
designations). Specifically, given the percentage of U.S. population in ozone
nonattainment areas in 1993, and the percentage of U.S. population in ozone
nonattainment areas today, we estimate that 30,500 offset lithographic printing facilities
are located in current ozone nonattainment areas. In the 1993 draft CTG, 78 percent of
the model facilities emitted less than 15 Ib/day before controls. Applying this percentage
to the number of offset lithographic printing facilities in current ozone nonattainment
areas, about 6,700 facilities emit 15 Ib VOC per day or more. Based on a similar
assessment, we estimate that less than 700 heatset web offset lithographic printing
facilities in current ozone nonattainment areas have individual presses that are potentially
affected by the 25 tpy potential to emit threshold described above.
-------�
We have limited information on the number of letterpress printing facilities in
ozone nonattainment areas. In 1992, however, EPA's Office of Pollution Prevention and
Toxics issued a report3 which estimates that there are 21,000 facilities nationwide that are
engaged in letterpress printing operations. Based on the percentage of the U.S.
population in ozone nonattainment areas in 1990 and the percentage of U.S. population in
ozone nonattainment areas in 2000), we estimate that approximately 11,000 of these
facilities are located in current ozone nonattainment areas (based on April 2006
designations). In light of the similarities between letterpress and offset lithographic
printing and the lack of specific data relevant to letterpress printers, we assume that
approximately 80 percent of the letterpress facilities in current ozone nonattainment areas
emit less than 15 Ib of VOC per day and would therefore not be affected by this CTG.
Applying this percentage to the number of letterpress printing facilities in current ozone
nonattainment areas, about 2,200 facilities emit 15 Ib/day actual VOC emissions (before
controls) or more. There are very few heatset letterpress facilities anywhere in the U.S.
IV. Process Description and Sources of VOC Emissions
A. Offset Lithography
Offset lithography is a planographic method of printing. The term
"planographic" denotes that the printing and non-printing areas are in the same
plane on the surface of a thin metal lithographic plate. To maintain the distinction
between the areas on the lithographic plate, the image area is rendered oil
receptive, and the non-image area is rendered water receptive.
Offset lithography is an indirect printing method; that is, ink is not
transferred directly to a substrate. Rather, ink is transferred from the lithographic
plate to a rubber-covered, intermediate "blanket" cylinder and then transferred
from the blanket cylinder to the substrate. The offset lithographic process is used
for a broad range of printing applications, including books, magazines,
periodicals, labels and wrappers, catalogs and directories, financial and legal
documents, business forms, advertising brochures, newspapers, newspaper inserts,
charts and maps, calendars, tickets and coupons, greeting cards, and stamps.
There are two types of offset lithography characterized by the method in
which the substrate is fed to the press. In sheet-fed printing, individual sheets of
paper or other substrate are fed to the press. In web printing, continuous rolls of
substrate material are fed to the press and rewound or cut to size after printing.
VOC emissions from offset lithographic printing result from the evaporation of
components of the inks, fountain solutions, cleaning materials and other
miscellaneous materials such as varnishes, coatings and glues. For a more
complete description of these industry processes, refer to the 1993 draft CTG.
-------�
1. Inks
Offset lithographic printing inks are composed of pigments, vehicles,
binders, and other additives. Offset lithographic inks are paste inks. Pigments
provide the desired color and contain organic and inorganic materials. The
vehicle is a solvent that carries pigment and binders, and is usually composed of
petroleum oils and vegetable oils. Binders fix the pigment to the substrate and are
composed of organic resins and polymers or oils and resins. Additives include
waxes, lubricants, and driers.
Heatset web inks require heat to set the ink. Coldset web (also called non-
heatset web) and sheet-fed inks dry by absorption into the substrate or by
oxidation.
Heatset web inks may contain up to 45 percent VOCs (ink oils). In heatset
web lithographic printing, 20 percent of the petroleum ink oils and essentially all
of the vegetable ink oils are retained in the substrate and dry ink film. The
remaining 80 percent of the petroleum ink oil is volatilized in and then exhausted
from the dryer. Since the vegetable ink oil does not volatilize in the dryer, the
amount of vegetable ink oil that can be used in heatset web offset lithographic
inks is very limited. If there is too much vegetable oil in a heatset web offset
lithographic ink, the ink will not dry properly.
The petroleum ink oils in sheet-fed and coldset web inks have higher
boiling points than the ink oils in heatset inks. Coldset web inks usually contain
below 35 percent VOC. Most sheet-fed inks contain below 25 percent VOC. In
sheet-fed and coldset web offset lithographic printing, 95 percent of the petroleum
ink oils and essentially all of the vegetable oils are retained in the substrate and
dry ink film. The remaining 5 percent of petroleum ink oils is volatilized and
emitted. Because of the high level of ink oil retention, emissions from sheet-fed
and coldset web offset lithographic inks are inherently very low.
Some radiation (ultra-violet light or electron beam) cured materials are
also used. Some printers use these materials in lieu of the heatset web printing
process and others use them in conjunction with heatset web, coldset web or
sheet-fed printing processes. Radiation cured materials generate minimal VOC
emissions. Ultra-violet lamps or electron beam generators are used to dry and
cure these materials.
Varnishes are unpigmented offset lithographic inks. They are applied on
offset lithographic presses in the same manner (i.e., using a lithographic printing
plate, fountain solution and blanket cylinder) as offset lithographic ink. Heatset
varnishes are unpigmented heatset inks. The emissions generated by heatset
varnishes are similar in nature to the emissions generated by heatset inks and they
can be controlled in the same manner. Sheet-fed and coldset web varnishes are
unpigmented sheet-fed and coldset web inks. Sheet-fed and coldset web
-------�
varnishes exhibit the same high level of ink oil retention and generate the same
inherently low emissions as sheet-fed and coldset web inks. The coatings used on
offset lithographic presses are predominantly waterbased or radiation (ultra-violet
or electron beam) cured materials which generate minimal VOC emissions. We
recommend that varnishes and coatings used on offset lithographic printing
presses be considered part of the offset lithographic printing process and that the
recommendations described below in section VI for heatset web offset
lithographic inks and dryers apply equally to varnishes. We recommend that
varnishes and coatings used on offset lithographic printing presses not be
considered as a separate process (e.g., paper coating).
2. Fountain Solution
Fountain solution is applied to the lithographic plate to render the non-
image areas unreceptive to ink. Since offset lithographic printing inks are oil-
based, the fountain solution is water-based. The fountain solution contains small
amounts of gum Arabic or synthetic resins, acids, and buffer salts to maintain the
pH of the solution, and a wetting agent or "dampening aid" to enhance the
spreadability of the fountain solution across the plate. The dampening aid reduces
the surface tension of water as well as increases viscosity.
Isopropyl alcohol traditionally has been used as a dampening aid. Other
alcohols such as ethanol and n-propyl alcohol may also be used. Before the
1980's, the concentration of alcohol in the fountain solution was sometimes as
high as 35 percent, with the concentration in most presses falling between 15 and
20 percent. Over the last 20 years, printers have greatly reduced the alcohol
content of fountain solution. Also in the last 20 years, non-alcohol dampening
aids have been developed. These alcohol substitutes are typically glycol ethers or
ethylene glycol, and achieve the same purpose as alcohol.
3. Cleaning Materials
Cleaning materials are used to remove excess printing inks, oils, and
residual paper from press equipment. These materials are typically mixtures of
organic (often petroleum-based) solvents. The cleaning material may be a solvent
such as kerosene (which contains numerous organics), or a specific mixture of
individual solvents. Cleaning materials are used to wash the blankets, rollers, and
outside of presses, and to remove residues of excess ink between color changes.
Cleaning may be done manually, for example using shop towels, or using an
automatic blanket wash systems.
-------�
B. Letterpress Printing
1. Inks
Letterpress inks are similar to offset lithographic inks. They are paste inks
containing petroleum oils or vegetable oils. Both sheet-fed and web presses are
used for letterpress printing.
Sheet-fed letterpress presses use coldset inks. Most web letterpress
equipment use coldset inks. These letterpress inks are similar in composition and
behavior to sheet-fed and coldset web lithographic inks. In sheet-fed and coldset
web letterpress printing, 95 percent of the petroleum ink oils and essentially all of
the vegetable oils are retained in the substrate and dry ink film. The remaining 5
percent of petroleum ink oils is volatilized and emitted. Because of the high level
of ink oil retention, emissions from sheet-fed and coldset web letterpress inks are
inherently very low.
There are also some heatset web letterpress printers. Heatset letterpress
ink is similar to heatset lithographic ink with 20 percent of the petroleum ink oils
and essentially all of the vegetable ink oils retained in the substrate and dry ink
film. The remaining 80 percent ink oil is volatilized in and then exhausted from
the dryer. Since the vegetable ink oil does not volatilize in the dryer, the amount
of vegetable ink oil that can be used in heatset letterpress inks is very limited. If
there is too much vegetable oil in a heatset letterpress ink, the ink will not dry
properly.
2. Cleaning Materials
Cleaning materials are used to remove excess printing inks, oils, and
residual paper from press equipment. The cleaning materials used for letterpress
printing are similar to those used in offset lithographic printing. These materials
are typically mixtures of organic (often petroleum-based) solvents.
V. Available Control Options
There are three main sources of VOC emissions from offset lithographic printing:
(1) evaporation of VOC (petroleum ink oils) from the inks; (2) evaporation of VOC from
the fountain solution; and (3) evaporation of VOC from the cleaning materials. There
are two main sources of VOC emissions from letterpress printing: (1) evaporation of
VOC (petroleum ink oils) from the inks and (2) evaporation of VOC from the cleaning
materials.
-------�
The three mechanisms to reduce VOC emissions from offset lithographic printing
and letterpress printing are as follows:
• Add-on controls,
. Process modifications or work practices, and
• Material reformulation or substitution.
A. Inks
Inks are a significant source of VOC emissions from heatset web offset
lithographic printing and heatset letterpress printing. In these processes, heat is
applied in a dryer to set the inks. As a result of the heating process, about 80
percent of the petroleum ink oil (VOC) is volatilized in the dryer. The remaining
20 percent of petroleum ink oil and all of the vegetable ink oil is retained in the
substrate and dry ink film.
Most heatset web offset lithographic printing dryers are equipped with
control devices such as a thermal oxidizer, catalytic oxidizer, or chiller condenser
(condenser filter). These same control devices can also be used on heatset
letterpress dryers. These control devices significantly reduce VOC emissions
from heatset web printing. Oxidizers are more widely used than condenser filters,
with catalytic oxidizers being slightly more popular than thermal oxidizers. At
the time the 1993 draft CTG was being developed, new oxidizers generally were
capable of achieving 95 percent or greater destruction efficiency, but chiller
condensers were only capable of achieving 90 percent.
Oxidizers and condenser filters may not be able to achieve the above
stated destruction or recovery efficiencies when the VOC concentration of the
stream entering the control device is too low. Oxidizers tend to have a rather
constant outlet concentration around 20 ppmv as compound. As a result, an
oxidizer that achieves 90 percent destruction efficiency at inlet concentrations
above 200 ppmv as compound may not be able to achieve this level of destruction
efficiency at inlet concentrations below 200 ppmv as compound. Similarly, an
oxidizer that achieves 95 percent destruction efficiency at inlet concentrations
above 400 ppmv as compound may not be able to achieve this level of destruction
efficiency at inlet concentrations below 400 ppmv as compound. Print jobs (e.g.,
book printing) with light coverage will yield low inlet concentrations. In addition,
there are several instances, such as sources utilizing combined dryers and control
devices that do not have an identifiable measurable inlet where the only option
available is to measure the outlet concentration to demonstrate compliance.
Some printers use radiation (ultra-violet light or electron beam) cured
materials in lieu of the heatset web printing process. These radiation cured
materials generate minimal VOC emissions.
10
-------�
Some reduction in VOC emissions from heatset web offset lithographic
inks and heatset letterpress inks could be achieved by increasing the use of
vegetable oil and decreasing the use of petroleum oil. Since only very limited
amounts of vegetable oil can be used in heatset inks, only a small emission
reduction could be achieved and we do not believe this reduction would be cost-
effective.
The VOC emissions from sheet-fed and coldset web lithographic inks and
sheet-fed and coldset web letterpress inks are inherently very low. First, these
inks are lower VOC-content inks than heatset web inks. Second, 95 percent of the
petroleum ink oil and essentially all of the vegetable ink oil in sheet-fed and
coldset web inks do not evaporate and are retained in the substrate and dry ink
film. Because only a small percentage of the sheet-fed and coldset web ink oils
evaporate, VOC emissions associated with these inks are small.
Some reduction in VOC emissions from sheet-fed and coldset web inks
could be achieved by increasing the use of vegetable oil and decreasing the use of
petroleum oil. Since 95 percent of the petroleum oil is retained, only a small
emission reduction could be achieved and we do not believe this reduction would
be cost-effective.
The limited VOC emissions that occur from sheet-fed and coldset web
offset lithographic inks are diffuse and spread over a large area. These emissions
are not amenable to add-on control. This is in contrast to the emissions associated
with heatset offset web lithographic inks and heatset web letterpress inks, as the
petroleum oils in those inks volatilize in a dryer and are more amenable to add-on
control because they are emitted in a more concentrated form from a discrete
source.
B. Fountain Solution
Fountain solutions can be the source of a significant portion of the VOC
emitted by offset lithographic printing operations. Historically, alcohols such as
isopropyl alcohol, n-propyl alcohol and ethanol were used as the dampening aid.
Before the 1980's, the concentration of alcohol in the fountain solution
was sometimes as high as 35 percent, with the concentration in most presses
falling between 15 and 20 percent. Over the last 20 years, printers have greatly
reduced the alcohol content of fountain solution.
Cooling a fountain solution that contains isopropyl alcohol is a process
modification that reduces VOC emissions by reducing the evaporation of the
alcohol. Refrigerated circulators are available that can cool the fountain solution
to a pre-set temperature of 55 to 60 °F. Refrigeration also gives operators better
control of ink emulsification and hot weather scumming, and stabilizes the
ink/water balance by minimizing alcohol evaporation. Refrigeration of fountain
11
-------�
solution trays has been shown to reduce alcohol consumption by as much as 44
percent.
In addition, many printers have reduced VOC emissions by switching to
alcohol substitutes, most commonly certain glycol ethers. These additives have
higher boiling points and lower volatilities than traditional dampening aids. The
additives are incorporated in small quantities (from 2 to 4 ounces in 1 gallon of
water) to produce a final, mixed fountain solution that is usually less than 3
weight percent VOC.
C. Cleaning Materials
Cleaning materials can be the source of a significant portion of the VOC
emitted by offset lithographic printing and letterpress printing operations. The
keys to reducing VOC emissions from offset lithographic printing and letterpress
printing cleaning materials are reducing the composite vapor pressure or VOC
content of the material used, and work practices.
Cleaning materials with VOC composite vapor pressure less than 10
millimeters of mercury (mm Hg) at 20 °C have been used successfully by many
printers for blanket washing and other cleaning activities. Low VOC composite
vapor pressure materials generate less VOC emissions than higher vapor pressure
cleaning materials. As noted in the ACT document, cleaning materials with VOC
composite vapor pressure less than 10 millimeters of mercury (mm Hg) at 20 °C
when used in conjunction with good work practices achieve a comparable
emission reduction to cleaning materials containing 30 weight percent VOC. For
certain cleaning activities, such as metering roller cleaning or removing dried ink,
higher vapor pressure cleaning materials may be required.
The VOC composite vapor pressure of a cleaning material is a weighted
average of the vapor pressures of the VOC components of that cleaning material.
The vapor pressure of each VOC component is weighted by the mole fraction of
that VOC component in the whole cleaning material including non-VOC
components such as water or exempt compounds. Water and exempt compounds
thereby reduce the VOC composite vapor pressure of cleaning materials in which
they are present.
Water-miscible cleaning materials with less than 30 weight percent VOC
were developed and tested for offset lithographic printing in the early 1990's.
These materials were recommended as RACT in the 1993 draft CTG. These
materials did not provide adequate performance and therefore they are not being
used by the offset lithographic printing industry today.
There are some water-miscible or exempt solvent containing cleaning
materials that contain 70 weight percent VOC or less in use today. These lower
VOC content materials are capable of performing many of the tasks, such as
12
-------�
metering roller cleaning, which cannot be performed with low VOC composite
vapor pressure cleaning materials. A small number of cleaning tasks cannot be
carried out with low VOC composite vapor pressure cleaning materials or reduced
VOC content cleaning materials.
Work practices such as keeping solvent containers closed except when
filling, draining or conducting cleaning operations, and keeping used shop towels
in closed containers also reduce VOC emissions. Typically, 50 percent of a
cleaning material with composite vapor pressure less than 10 mm Hg at 20 °C will
remain in used shop towels if the used towels are kept in closed containers.
D. Existing State and Local Regulations
In researching available control approaches for addressing VOC emissions
associated with offset lithographic printing and letterpress printing, EPA reviewed
existing state and local regulatory approaches. Seventeen states or local areas
have VOC emission regulations for offset lithographic printing operations. Five
states or local areas have regulations for letterpress printing operations. These
rules generally limit the alcohol or alcohol substitute content of fountain solutions
(for offset lithographic printers only) and the composite vapor pressure or VOC
content of cleaning materials, and require control of heatset dryer exhaust. The
tables in Appendices B and C list and describe the regulations that EPA reviewed.
VI. Recommended Control Options
Recommendations for controlling VOC emissions from heatset inks, fountain
solution, and cleaning materials used in offset lithographic printing operatons, and for
controlling VOC emissions from heatset inks and cleaning materials used in letterpress
printing operations are as follows:
A. Heatset web offset lithographic and heatset letterpress inks and dryers
The recommended level of control for VOC emissions from heatset dryers
is tied to the first installation date of the control device. The first installation date
for a control device does not change if it is later moved to a new location. For
example, a brand new control device first installed in 1992 is moved to a new
location in 1998 - the first installation date for this control device is still 1992.
The first installation date for a control device does not change if it is later used to
control a new press. For example, a brand new heatset press is installed in 2009
and emissions from this press are controlled by a control device that was first
installed in 2002 - the first installation date for this control device is still 2002.
The recommended level of control for VOC emissions from heatset dryers
is 90 percent control efficiency for a control device whose first installation date
was prior to the effective date of a State RACT rule issued after the date of this
CTG. The recommended level of control for VOC emissions from heatset dryers
13
-------�
is 95 percent control efficiency for a control device whose first installation date
was on or after the effective date of a State RACT rule issued after the date of this
CTG.
We recommended a 90 percent control efficiency in the 1993 draft CTG
and this efficiency is currently required by most state and local regulations for
heatset web offset lithography. At the time the 1993 draft CTG was being
developed, new oxidizers generally were capable of achieving 95 percent or
greater destruction efficiency, but chiller condensers were only capable of
achieving 90 percent. For a variety of reasons, including the 90 percent control
efficiency recommendation in the 1993 draft CTG and the 90 percent control
efficiency requirement in most existing state and local regulations, some oxidizers
first installed between 1993 and the publication of this CTG may not be achieving
95 percent control device efficiency. We do not recommend retroactively
requiring these oxidizers to achieve 95 percent control device efficiency.
To accommodate situations where the inlet VOC concentration is so low
that a 90 or 95 percent efficiency may not be achievable, we recommend
providing an outlet concentration alternative. Specifically we recommend
providing an option to reduce the control device outlet concentration to 20 ppmv
as hexane on a dry basis to accommodate situations where the inlet VOC
concentration is low, or there is no identifiable measurable inlet.
As explained above in section III, we recommend applying the above
recommended levels of control to individual heatset web offset lithographic
printing presses with potential to emit from the dryer, prior to controls, of at least
25 tpy of VOC (petroleum ink oil). We also recommend applying the above
recommended levels of control to individual heatset web letterpress printing
presses with potential to emit from the dryer, prior to controls, of at least 25 tpy of
VOC (petroleum ink oil). We recommend providing printers with the option of
using an enforceable limitation on potential emissions to keep an individual
heatset press below this 25 tpy potential to emit threshold. This equates to using
inks and coatings which contain less than 31.25 tpy VOC (petroleum ink oil)
because of the 20 percent ink oil retention. We also recommend excluding heatset
presses used for book printing and excluding heatset presses with maximum web
width of 22 inches or less from the add-on control recommendations.
We believe that control of a press that is above the 25 tpy threshold will
generally be cost effective. Control of a press that is below the 25 tpy threshold,
presses used for book printing, and presses with maximum web width of 22
inches or less will generally not be cost effective.
We are not recommending control of VOC emissions from sheet-fed or
coldset web inks, sheet-fed or coldset web varnishes, waterborne coatings or
radiation (ultra-violet light or electron beam) cured materials used on offset
14
-------�
lithographic presses or letterpress presses. The VOC emissions from these
materials are already low and they are not amenable to add-on control.
B. Fountain Solution
We recommend the following approaches for controlling VOC emissions
from fountain solution. These recommended levels of control were recommended
in the 1993 draft CTG and are required by certain existing state and local
regulations.
• Heatset Web Offset Lithographic Printing
The recommended level of control for VOC emissions from on-press
(as-applied) fountain solution for heatset web offset lithographic
printing is 1.6 percent alcohol (by weight) in the fountain or
equivalent. There are at least three different approaches for achieving
this level of control. The first approach involves reducing the on-press
(as-applied) alcohol content to 1.6 percent alcohol or less (by weight).
The second approach involves using 3 percent alcohol or less (by
weight) on-press (as-applied) in the fountain solution if the fountain
solution is refrigerated to below 60°F (15.5°C). The third approach
involves using 5 percent alcohol substitute or less (by weight) on-press
(as-applied) and no alcohol in the fountain solution.
• Sheet-fed Offset Lithographic Printing
The recommended level of control for VOC emissions from on-press
(as-applied) fountain solution for sheet-fed printing is equivalent to 5
percent alcohol (by weight) in the fountain or equivalent. There are at
least three different approaches for achieving this recommended level
of control. The first approach involves reducing the on-press (as-
applied) alcohol content to 5.0 percent alcohol or less (by weight).
The second approach involves using 8.5 percent alcohol or less (by
weight) on-press (as-applied) in the fountain solution provided the
fountain solution is refrigerated to below 60°F (15.5 °C). The third
approach involves using 5 percent alcohol substitute or less (by
weight) on-press (as-applied) and no alcohol in the fountain solution.
This recommendation does not apply to sheet-fed presses with sheet
size of 11 inches by 17 inches or smaller, and does not apply to any
press with total fountain solution reservoir of less than 1 gallon.
• Coldset Web Offset Lithographic Printing
The recommended level of control for VOC emissions from fountain
solution for coldset web is 5 percent alcohol substitute or less (by
weight) on-press (as-applied) and no alcohol in the fountain solution.
15
-------�
As explained more fully in Section III above, we recommend applying the
control recommendations for offset lithographic printing fountain solution to any
offset lithographic printing operation where the emissions associated with all
aspects of that operation equal or exceed 6.8 kg/day (15 Ib/day) actual emissions
of VOC, or an equivalent level, before consideration of controls. State and local
agencies may adopt different applicability criteria in their regulations. States
should craft their applicability criteria in their State RACT rules based on
consideration of the facts and circumstances of the facilities in their particular
nonattainment areas.
We recommend that these control recommendations for fountain solution
not be applied to sheet-fed presses with maximum sheet size 11x17 inches or
smaller, or to any press with total fountain solution reservoir of less than 1 gallon.
For these presses, the recommended VOC (alcohol or alcohol substitute) content
levels would yield a small emission reduction relative to the cost of achieving that
reduction (e.g., changing and maintaining rollers).
C. Cleaning Materials
The following recommendations apply to blanket washing, roller washing,
plate cleaners, metering roller cleaners, impression cylinder cleaners, rubber
rejuvenators, and other cleaners used for cleaning a press, press parts, or to
remove dried ink from areas around a press. EPA recommends that when States
develop RACT rules in response to the Industrial Cleaning Solvents CTG, see
EPA 453/R-06-001 (Sept. 2006), they consider excluding from those rules the
activities noted in the prior sentence, which are covered by this CTG. See 71 FR
44540. In addition, the recommendations for cleaning materials provided below
do not apply to cleaners used on electronic components of a press, pre-press
cleaning operations (e.g., platemaking), post-press cleaning operations (e.g.,
binding), cleaning supplies (e.g., detergents) used to clean the floor (other than
dried ink) in the area around a press, or cleaning performed in parts washers or
cold cleaners.
We recommend using cleaning materials with a VOC composite vapor
pressure less than 10 mm Hg at 20 °C or cleaning materials containing less than
70 weight percent VOC. We believe this combination of material
recommendations will reduce VOC emissions and allow for use of a mix of
materials capable of achieving all of the covered cleaning tasks. Cleaning
materials with low VOC composite vapor pressure have been used successfully
by many printers for blanket washing and other cleaning activities. Many of the
cleaning tasks that cannot be carried out with low VOC composite vapor pressure
cleaning materials can be carried out with reduced VOC content cleaning
materials. We also recommend excluding 110 gallons per year of cleaning
materials which meet neither the low VOC composite vapor pressure
recommendation nor the lower VOC content recommendation because a small
16
-------�
number of cleaning tasks cannot be carried out with low VOC composite vapor
pressure cleaning materials or reduced VOC content cleaning materials.
We also recommend that the following work practices be employed:
keeping cleaning materials and used shop towels in closed containers. In the
ACT document, EPA noted that using cleaning materials with a VOC composite
partial vapor pressure less than 10 mm Hg at 20 °C in conjunction with good
work practices would result in an emission reduction that is comparable to using
cleaning materials that contain less than 30 weight percent VOC.
As explained more fully in Section III above, we recommend applying the
above control recommendations for offset lithographic printing cleaning
materials to any offset lithographic printing operation where the emissions
associated with all aspects of that operation equal or exceed 6.8 kg/day (15
Ib/day) actual emissions of VOC, or an equivalent level, before consideration of
controls. Similarly, we recommend applying the above control recommendations
for letterpress printing cleaning materials to any letterpress printing operation
where the emissions associated with all aspects of that operation equal or exceed
6.8 kg/day (15 Ib/day) actual emissions of VOC, or an equivalent level, before
consideration of controls. State and local agencies may adopt different
applicability criteria in their regulations. States should craft their applicability
criteria in their State RACT rules based on consideration of the facts and
circumstances of the facilities in their particular nonattainment areas.
VII. Cost Effectiveness of Recommended Control Options
In the 1993 draft CTG, EPA estimated baseline emissions from the offset
lithographic printing industry in ozone nonattainment areas, based on 1990 data, to be
820,000 tons per year (with 62,000 tpy coming from ink, 631,000 tpy from fountain
solution and 126,000 tpy from cleaning). In the 1993 draft CTG, EPA also conducted a
model plant analysis, in which it evaluated VOC emissions associated with different
kinds of printing processes, the VOC emission reduction capabilities of various control
options, and the costs of such controls. The model plants were developed to represent a
range of sizes and emissions. See Appendix A (describing model plant analysis and
EPA's VOC emission reduction and cost estimates).
Commenters on the 1993 draft CTG asserted that the alcohol content (17 percent)
used to generate this estimate was too high and that the assumed ratio of fountain solution
usage to ink usage was also too high. Baseline VOC emissions from fountain solution
may have been overestimated in 1993 by a factor of 2 to 3, which would mean that
industrywide baseline emissions in 1990 ranged from approximately 400,000 to 500,000
tpy. As for letterpress printers, we have limited emissions information for this industry.
Based on available information, we estimate that VOC emissions from the letterpress
printing industry as of 1990 were about 28,000 tons per year.
17
-------�
We believe that the model plant analysis in the 1993 draft CTG is representative
of current operations in the offset lithographic printing industry and current control
options. The significant control approaches addressed in the 1993 draft CTG are the
same approaches that are available today, and those approaches continue to represent the
most effective means of controlling VOC emissions from offset lithographic printers.
We also believe that the model plant analysis accurately presents the costs associated
with the control approaches identified in the 1993 document. We recognize, however,
that the costs in that draft document are presented in first quarter 1990 dollars and must
be adjusted to represent current costs. Accordingly, for purposes of estimating the cost-
effectiveness of the recommended control approaches in this document, we escalated the
1990 costs in the 1993 draft CTG, to 2005 costs using a cost index.4 The escalated costs
are presented in Table 1 below. (See Appendix D for additional cost information.)
Table 1. Cost Effectiveness Values for Recommended Control Approaches
for Offset Lithographic Printing
Control Technique
Control of VOC from heatset inks
Control of VOC from fountain solutions
Control of VOC from cleaning materials
$ Per Ton VOC Removed"
2,010
estimated savings
855
a Costs from 1990 are escalated to 2005 costs by use of a Marshall and Swift Equipment Cost
Index (Chemical Engineering Magazine).
b Reduction in alcohol use or conversion to alcohol substitutes results in a cost savings.
Because of the similarities between offset lithographic printing and letterpress printing in
terms of the nature of the processes at issue, the sources of VOC emissions and available
control approaches, it is reasonable to assume that the cost-effectiveness estimates in
Table 1 for control of VOC from heatset inks and control of VOC from cleaning
materials apply equally to the letterpress printing industry.
VIII. Factors to Consider in Determining VOC Emissions from Offset
Lithographic Printing and Letterpress Printing
This section provides a summary of some of the recommendations EPA has
previously made to States concerning factors that may be considered in determining
VOC emissions from offset lithographic printing and letterpress printing operations.
These factors are important for a number of reasons including determining whether a
facility or a press exceeds the applicability thresholds recommended in this CTG or other
applicability thresholds that a state may consider including in its regulations. The factors
described below and other relevant factors are discussed in the 1993 draft CTG, the 1994
ACT and the 2005 Printing TSD.
A. Ink Oil Retention
Heatset Inks - We recommend using a 20 percent VOC retention factor
for petroleum ink oils and a 100 percent retention factor for vegetable ink oils in
heatset inks. The VOC emissions, before consideration of any control, from a
18
-------�
heatset ink would therefore be 80 percent of the petroleum ink oil content. The
petroleum ink oil content of a heastet ink can be determined from formulation
data (e.g., technical data sheet or material safety data sheet). We believe that a
Method 24 test of a heatset ink will volatilize the petroleum ink oils and will not
volatilize the vegetable ink oils.
Sheet-fed and coldset web inks - We recommend using a 95 percent VOC
retention factor for petroleum ink oils and a 100 percent retention factor for
vegetable ink oils in sheet-fed and coldset web inks. The VOC emissions from a
sheet-fed or coldset web ink would therefore be 5 percent of the petroleum ink oil
content. The petroleum ink oil content of a sheet-fed or coldset web ink can be
determined from formulation data (e.g., technical data sheet or material safety
data sheet). We believe that an EPA Method 24 test of a sheet-fed or coldset web
ink will volatilize the petroleum ink oils and will not volatilize the vegetable ink
oils. The ASTM method D6419 (Standard Test Method for Volatile Content of
Sheet-Fed and Coldset Web Offset Printing Inks) is a more precise method for
determining the volatile (petroleum ink oil) content of sheet-fed and coldset web
inks than ASTM D2369 which is referenced in EPA Method 24.
B. Retention of Low VOC Composite Vapor Pressure Cleaning Materials in
Shop Towels
We recommend using a 50 percent VOC retention factor for low VOC
composite vapor pressure cleaning materials in shop towels where (1) VOC
composite vapor pressure of the cleaning material is less than 10 mm Hg at 20 °C,
and (2) cleaning materials and used shop towels are kept in closed containers.
C. Carryover of VOC from Automatic Blanket Wash and Fountain Solution
to Offset Lithographic Heatset Dryers
We recommend using a 40 percent VOC carryover (capture) factor for
automatic blanket washing when the VOC composite vapor pressure of the
cleaning material is less than 10mm Hg at 20°C.
We recommend using a 70 percent VOC carryover (capture) factor for
alcohol substitutes in fountain solution.
D. Capture of Petroleum Ink Oil in Heatset Dryers
For heatset web offset lithographic presses and heatset web letterpress
presses, we believe capture efficiency for VOC (petroleum ink oils) from oil-
based paste inks and oil-based paste varnishes (coatings) can be demonstrated by
showing that the dryer is operating at negative pressure relative to the surrounding
19
-------�
pressroom. We recommend that as long as the dryer is operated at negative
pressure, the capture efficiency for VOC from the heatset lithographic inks and
varnishes (coatings) formulated with low volatility ink oils can be assumed to be
100 percent of the VOC (ink oils) volatilized in the dryer. We do not recommend
conducting a capture efficiency test in this situation.
Conventional heatset lithographic inks and varnishes are paste-type
materials. The VOC in these materials are oils with high boiling points, which
volatilize only within the dryer. Some ink oils, nominally 20 percent, are not
volatilized and remain in the substrate. If other types (e.g., fluid type) of coating
materials are used on a heatset lithographic press or a heatset letterpress press, we
recommend that capture efficiency testing be conducted for the VOC from these
other materials if the printer wants to take into account the effect that the dryer
controls have on VOC emissions from these other types of coatings. The most
common other types of coatings materials used on heatset presses are waterbased
or radiation (ultra-violet light or electron beam) cured materials which generate
minimal VOC emissions.
E. Methods 25 and 25A
We recommend using EPA Method 25 A in lieu of EPA Method 25 for
determining the destruction efficiency of an oxidizer (inlet and outlet
concentrations) when:
• An exhaust concentration of 50 or less parts per million volume
(ppmv) as carbon (Cl) is required to comply with the applicable
standard;
• The inlet concentration and the required level of control results in
an exhaust concentration of 50 or less ppmv as Cl; or
• The high efficiency of the control device alone results in an
exhaust concentration of 50 or less ppmv as Cl.
In situations where M25 is not viable, such as those described in section 1.1 of
M25, we recommend the use of M25A on both the inlet and outlet.
20
-------�
IX. References
1. Guideline Series: Control of Volatile Organic Compound Emissions from Offset
Lithographic Printing. Draft. U.S. Environmental Protection Agency. Research
Triangle Park, NC. September 1993.
2. Alternative Control Techniques Document: Offset Lithographic Printing. EPA
453/R-94-054. U.S. Environmental Protection Agency. Research Triangle Park,
NC. June 1994.
3. Use Cluster Analysis of the Printing Industry. Office of Pollution Prevention and
Toxics. Office of Pollution Prevention and Toxics. May 1992.
4. Marshall and Swift Equipment Cost Index. Chemical Engineering Magazine.
McGraw-Hill, (www.che.com)
5. Model Volatile Organic Compound Rules for Reasonably Available Control
Technology: Planning for Ozone Nonattainment Pursuant to Title I of the Clean
Air Act. U.S. Environmental Protection Agency. Research Triangle Park, NC.
June 1992.
6. Technical Support Document (TSD) for Title V Permitting of Printing Facilities,
Office of Air Quality Planning and Standards, U.S. Environmental Protection
Agency, Research Triangle Park, NC 27711, January 2005.
21
-------�
Appendix A
Access to 1993 draft CTG, 1994 ACT, and 2005 TSD
Guideline Series: Control of Volatile Organic Compound Emissions from Offset
Lithographic Printing. Draft. U.S. Environmental Protection Agency. Research
Triangle Park, NC. September 1993.
Available as a separate item in docket EPA-HQ-OAR-2006-0536 and on the internet
at http://www.epa.gov/ttn/atw/print/draftlithoctg.pdf.
Alternative Control Techniques Document: Offset Lithographic Printing.
EPA 453/R-94-054. U.S. Environmental Protection Agency. Research Triangle
Park, NC. June 1994.
Available as a separate item in docket EPA-HQ-OAR-2006-0536 and on the internet
at http://www.epa.gov/ttn/atw/print/lact.pdf.
Technical Support Document (TSD) for Title V Permitting of Printing Facilities,
Office of Air Quality Planning and Standards, U.S. Environmental Protection
Agency, Research Triangle Park, NC 27711, January 2005.
Available as a separate item in docket EPA-HQ-OAR-2006-0536 and on the internet
at http://www.epa.gov/ttn/oarpg/t5/memoranda/tsd.pdf.
22
-------�
This page intentionally left blank.
23
-------�
Appendix B
State and Local Regulations for Offset Lithographic Printing
Agency, Rule Number and Applicability
State or Local
Agency
Offset
Lithography
Applicability
Bay Area Air
Quality
Management
District
Regulation 8
Rule 20
http://www.baaqmd.gov/dst/regulations/rg0820.pdf
8-20-110
175 Ib VOC per month
San Joaquin
Valley
Unified Air
Pollution
Control
District
Rule 4607 -
Graphic Arts
No cutoff
http://www.vallevair.org/rules/currntrules/r4607.pdf
2.0 Applicability
This rule is applicable to any graphic arts printing operation, to any
paper or fabric coating operation, to the organic solvent cleaning, and to
the storage and disposal of solvents and waste solvent materials
associated with such operations as defined in Section 3.0 of this rule.
San Diego
County Air
Pollution
Control
District
Rule 67.16-
Graphic Arts
Operations
http://www.sdapcd.org/rules/rules/Reg4pdf/R67-16.pdf
(1) The provisions of Sections (d) and (e) of this rule shall not apply to
stationary sources which emit less than an average of 15 Ibs (6.8 kg) of
volatile organic compounds (VOCs) from all graphic arts operations per
day of operation for each calendar month.
South Coast
Air Quality
Management
District
Rule 1130-
Graphic Arts,
Rule 1171 -
Solvent
Cleaning
Operations
http://www.aqmd.gov/rules/reg/regl 1/rl 130.pdf
no cutoff
Delaware
CAP 24.47 -
Offset
Lithographic
Printing
http://www.dnrec.state.de.us/air/aqm_page/docs/pdf/reg_24.pdf
151b/day
2. This Section does not apply to any offset lithographic printing facility
whose total actual volatile organic compound (VOC) emissions from all
lithographic printing operations (including emissions from cleaning
solutions used on lithographic printing presses) are less than 6.8
kilograms (kg) (15 pounds [Ib]) VOCs per day before the application of
capture systems and control devices.
or maintains a maximum dryer exhaust outlet concentration of 20 parts
per million by volume (ppmv) as methane (as Cl), whichever is less
stringent when the press is in operation.
24
-------�
Georgia
Illinois
Kansas
Maryland
391-3-1-02
Provisions.
Amended,
(2)(ddd) -
VOC
Emissions
from Offset
Lithography
35.215.408-
(Heatset
Web),
35.218.407-
Lines on and
after March
15, 1996, and
35.219.407-
Lines on and
after March
15, 1996
28-19-76-
Lithography
Printing
Operations
26.11.19.11-
Lithographic
Printing
25tpy
lOOtpy
3. The requirements of this subsection shall apply to facilities with VOC
emissions exceeding 25 tons per year and located in the counties of
Cherokee, Clayton, Cobb, Coweta, DeKalb, Douglas, Fayette, Forsyth,
Fulton, Gwinnett, Henry, Paulding and Rockdale and to facilities with
potential VOC emissions exceeding 100 tons per year and located in the
counties of Bartow, Carroll, Hall, Newton, Spalding, and Walton.
Old rule?
http://www.ipcb.state.il.us/documents/dsweb/Get/Document-11924/
Section 215.408 Heatset Web Offset Lithographic Printing
a) No owner or operator of a heatset web offset lithographic printing
facility, located in Cook, DuPage, Kane, Lake, Macoupin, Madison,
McHenry, Monroe, St. Clair or Will County, emitting over 100 tons/year
of organic material, in the absence of pollution control equipment, may
cause or allow the operation of a heatset web offset press unless:
1) An incinerator system is installed and operated that oxidizes at least
90 percent of the organic materials (measured as total combustible
carbon) in the dryer exhaust airstream to carbon dioxide and water; or
2) The fountain solution contains no more than eight (8) percent, by
weight, of volatile organic material and a condensation recovery system
is installed and operated that removes at least 75 percent of the non-
isopropyl alcohol organic materials from the dryer exhaust airstream.
b) No owner or operator of a heatset web offset lithographic printing
facility, located in a county other than Cook, DuPage, Kane, Lake,
Macoupin, Madison, McHenry, Monroe, St. Clair or Will County,
emitting over 100 tons/year of organic material, in the absence of
pollution control equipment, may cause or allow the operation of a
heatset web offset press unless the fountain solution contains no more
than eight (8) percent, by weight, of volatile organic material.
(Source: Added at 11 111. Reg. 16706, effective September 30, 1987)
http://www.kdheks.eov/bar/download/AIRREGS2005new.pdf
28-19-76. Lithography printing operations, (a)
The provisions of this regulation shall apply to all offset lithography
printing facilities with a potential contaminant emission rate of volatile
organic compounds (VOC) equal to or more than 100 tons per year. The
potential contaminant emission rate calculations may include federally
enforceable permit conditions.
(b) The provisions of this regulation do not apply to:
(1) printing on fabric, metal or plastic;
(2) sheet fed lithographic presses with cylinder widths of 26 inches or
less; or
(3) web lithographic presses with cylinder widths of 18 inches or less.
(c) Any owner or operator of an offset lithographic printing press subject
to this regulation
http://www.dsd.state.md.us/comar/26/26. 11.19.11 .htm
no cutoff for some items, 100 Ib/day from web presses for heatset dryer
control, 1 8 inch width for sheet fed ftn soln limits
25
-------�
Massachusetts
310CMR
7.26 - (24)
Non-Heatset
Operations,
(27) Printers
with Heatset
Presses or
Non-
conforming
Operations
Complex, but less than major
http://www.mass.gov/dep/service/regulations/310cmr07.pdf
Missouri
10 CSR 10-
2.340 and 10
CSR 10-
5.442, Control
of Emissions
from
Lithographic
Printing
2.340 Kansas City
http://www. sos.mo. gov/adrules/csr/current/1 Ocsr/1 Pel 0-2.pdf
(B) This regulation shall apply to installations that have calculated actual
volatile organic compound (VOC) emissions for a known number of
crewed hours, increased by the amount by weight of VOCs whose
emission into the atmosphere is prevented by the use of air pollution
control devices and extrapolated to eight thousand seven hundred
sixty (8,760) hours per year equal to or greater than one hundred (100)
tons per year from offset lithographic printing presses after
December 9, 1991. The following factors shall be taken into
consideration unless an alternative
5.442 St. Louis
http://www.sos.mo.gov/adrules/csr/current/10csr/10clO-5.pdf
(B) This rule shall apply only to installations described in subsection
(2)(A) which have ever had the potential to emit VOCs equal to or
greater than one hundred (100) tons per year. Once the installation
exceeds the applicability level of this rule, it shall remain subject to this
rule even if its potential emissions drop below the applicability
level.
(C) This rule shall not apply to printing on fabric, metal or plastic.
New
Hampshire
Env-A
1204.37-
Applicability
Criteria and
Compliance
Standards
http://www.des.state.nh.us/Rules/pdf/env-al200.pdf
(a) A source whose offset lithographic printing operations have
combined TPEs during any consecutive 12-month period after December
31, 1989 which equal or exceed 50 tons of VOCs shall be subject to the
provisions of this section.
(cy) "Theoretical potential VOC emissions" (TPEs) means the emissions
of VOCs that would have occurred prior to the application of add-on
controls required by a federally enforceable rule or document issued
prior to January 1, 1990, based on one of the following:
(1) Continuous operation of 8760 hours per year under
maximum production capacity, which for coating and
graphic arts sources includes coatings and inks with the
highest VOC content used in practice by the source during
1993 and 1994 or the 2-year period most representative of
normal production rates; or
(2) Hours of operation, process conditions, or both that are
limited by federally enforceable permit conditions;
26
-------�
New York
6 Part 234 -
Graphic Arts
http://www.dec.state.ny.us/website/regs/part234.html
NYC metro
(b) Any packaging rotogravure, publication rotogravure, flexographic,
offset lithographic printing process or screen printing process at any
facility located in the New York City metropolitan area, regardless of its
annual potential to emit volatile organic compounds, must comply with
this Part according to the following schedule.
(3)... Any offset lithographic printing process which was constructed
on or before September 1, 1988 regardless of annual potential to emit
must have demonstrated compliance with this Part by May 15, 1991.
(4) Any owner or operator of a packaging rotogravure, publication
rotogravure, flexographic or offset lithographic printing process which
was constructed after September 1, 1988 must have demonstrated
compliance with this Part upon start-up.
Lower Orange County metro
(c) Any owner or operator of a packaging rotogravure, publication
rotogravure, flexographic or offset lithographic printing process or
screen printing process at any facility located in the Lower Orange
County metropolitan area must comply with this Part according to the
following schedule:
(3) Any owner or operator of a packaging rotogravure, publication
rotogravure, flexographic, offset lithographic printing process or screen
printing process at any facility for which the annual potential to emit
volatile organic compounds from all sources regardless of process type,
but excluding combustion installations, at the facility equal or exceed 25
tons must:
Rest of state
(d) Any owner or operator of a packaging rotogravure, publication
rotogravure, flexographic, offset lithographic printing process, or
screen printing process at any facility located outside the New York City
metropolitan area and Lower Orange county metropolitan area must
comply with this Part according to the following schedule:
(3) Any owner or operator of a packaging rotogravure, publication
rotogravure, flexographic, offset lithographic printing process, or screen
printing process at any facility for which the annual potential to emit
volatile organic compounds from all sources regardless of process type,
but excluding combustion installations, at the facility equal or exceed 50
tons must:
North
Carolina
15ANCAC
02Q.0803 -
Coating,
Solvent
Cleaning,
Graphic Arts
Operations
This is a title V exclusionary rule, not a RACT rule
http://daq.state.nc.us/rules/rules/Q0800.pdf
Mecklenburg County VOC rules (nothing on litho)
http://tinyurl.com/peemi
27
-------�
Tennessee
1200-3-18.43
- Offset
Lithographic
Printing
Operations
http://www.state.tn.us/sos/rules/1200/1200-03/1200-03-18.pdf
1200-3-18-.43 OFFSET LITHOGRAPHIC PRINTING
OPERATIONS.
(1) Applicability of this rule is as follows:
(a) This rule applies to offset lithographic printing operations in
Davidson, Rutherford, Shelby, Sumner, Williamson, and Wilson
Counties.
(b) The emission limits of this rule do not apply to offset lithographic
printing operations within any facility whose potential VOC emissions
from all offset lithographic printing operations within the facility are less
than 100 tons of volatile organic compounds (VOC's) per year.
Texas
30 Section
115.442-
Control
Requirements
http://www.tceq.state.tx.us/assets/public/legal/rules/rules/pdflib/115e.pdf
starts at 115.440
§115.449. Counties and Compliance Schedules.
(a) In El Paso County, all offset lithographic printing presses shall be in
compliance with §§115.442, 115.443, 115.445, and 115.446 of this title
(relating to Control Requirements; Alternate Control Requirements;
Testing Requirements; and Monitoring and Recordkeeping
Requirements) as soon as practicable, but no later than November 15,
1996.
(b) In Collin, Dallas, Denton, and Tarrant Counties, all offset
lithographic printing presses on a property which, when uncontrolled,
emit a combined weight of volatile organic compound (VOC)
equal to or greater than 50 tons per calendar year, shall be in compliance
with §§115.442, 115.443, 115.445, and 115.446 of this title as soon as
practicable, but no later than December 31, 2000.
(c) In Collin, Dallas, Denton, and Tarrant Counties, all offset
lithographic printing presses on a property which, when uncontrolled,
emit a combined weight of VOC less than 50 tons per calendar
year, shall be in compliance with §§115.442, 115.443, 115.445, and
115.446 of this title as soon as practicable, but no later than one year,
after the commission publishes notification in the Texas Register
of its determination that this contingency rule is necessary as a result of
failure to attain the national ambient air quality standard (NAAQS) for
ozone by the attainment deadline or failure to demonstrate
reasonable further progress as set forth in the 1990 Amendments to the
Federal Clean Air Act (FCAA), §172(c)(9).
(d) In Brazoria, Chambers, Fort Bend, Galveston, Harris, Liberty,
Montgomery, and Waller Counties, all offset lithographic printing
presses on a property which, when uncontrolled, emit a combined
weight of VOC equal to or greater than 25 tons per calendar year, shall
be in compliance with §§115.442, 115.443, 115.445, and 115.446 of this
title as soon as practicable, but no later than December 31, 2002.
(e) In Brazoria, Chambers, Fort Bend, Galveston, Harris, Liberty,
Montgomery, and Waller Counties, all offset lithographic printing
presses on a property which, when uncontrolled, emit a combined
weight of VOC less than 25 tons per calendar year, shall be in
compliance with §§115.442, 115.443, 115.445,and 115.446 of this title
as soon as practicable, but no later than one year, after the
commission publishes notification in the Texas Register of its
determination that this contingency rule is necessary as a result of failure
to attain the NAAQS for ozone by the attainment deadline
28
-------�
9 VAC 5-40-
7820-
Standard for
Volatile
Organic
Compounds
http://www.deq.virginia.gov/air/regulations/air40.html
see article 53
9VAC5-40-7800. Applicability and designation of affected facility.
A. Except as provided in subsections C, D, and E of this section, the
affected facility to which the provisions of this article apply is each
lithographic printing process which uses a substrate other than a textile.
B. The provisions of this article apply only to sources of volatile organic
compounds in the Northern Virginia or Richmond Volatile Organic
Compound Emissions Control Area designated in 9VAC5-20-206.
C. Exempted from the provisions of this article are facilities in the
Northern Virginia Volatile Organic Compound Emissions Control Area
whose potential to emit is less than 10 tons per year of volatile organic
compounds, provided the emission rates are determined in a manner
acceptable to the board. All volatile organic compound emissions from
printing inks, coatings, cleaning solutions, and fountain solutions shall
be considered in applying the exemption levels specified in this
subsection.
D. Exempted from the provisions of this article are facilities in the
Richmond Volatile Organic Compound Emissions Control Area whose
potential to emit is less than 100 tons per year of volatile organic
compounds, provided the emission rates are determined in a manner
acceptable to the board. All volatile organic compound emissions from
printing inks, coatings, cleaning solutions, and fountain solutions shall
be considered in applying the exemption levels specified in this
subsection.
E. The provisions of this article do not apply to the following:
1. Printing processes used exclusively for determination of product
quality and commercial acceptance provided:
a. The operation is not an integral part of the production process;
b. The emissions from all product quality printing processes do not
exceed 400 pounds in any 30 day period; and
c. The exemption is approved by the board.
2. Photoprocessing, typesetting, or imagesetting equipment using water-
based chemistry to develop silver halide images.
3. Platemaking equipment using water-based chemistry to remove
unhardened image-producing material from an exposed plate.
4. Equipment used to make blueprints.
5. Any sheet-fed offset lithographic press with a cylinder width of 26
inches or less.
Wisconsin
NR 422.142-
Lithographic
Printing, NR
423.035-
Industrial
Cleaning
Operations
http://www.legis.state.wi.us/rsb/code/nr/nr422.pdf
NR 422.142 Lithographic printing. (1) APPLICABILITY
(a) This section applies to all lithographic printing presses at any facility
which is located in the county of Kenosha, Kewaunee, Manitowoc,
Milwaukee, Ozaukee, Racine, Sheboygan, Washington or Waukesha and
which has maximum theoretical emissions of VOCs from all
lithographic printing presses at the facility greater than or equal to 755.7
kilograms (1666 pounds) in any month.
(b) To determine VOC emissions under par. (a), the VOC content of a
lithographic ink shall be multiplied by 0.8 for a heatset ink, or multiplied
by 0.05 for a non-heatset ink, to account for VOC retention on the
substrate.
29
-------�
Fountain Solution Limits
1) San Joaquin Valley Unified Air Pollution Control District
Effective 9/17/2000 - 8 percent VOC by volume as applied
2) San Diego County Air Pollution Control District
15 percent by volume VOC as applied
3) South Coast Air Quality Management District
Effective January 1, 2000 - 80 grams per liter VOC as applied or 100
grams per liter as applied if a refrigerated chiller is used
4) Bay Area AQMD
8 percent VOC by volume
5) Delaware
For heatset web presses: 1.6 percent or less by volume or 3 percent or
less by volume if the fountain solution is refrigerated to less than 15.6 °C (60 °F)
For non-heatset web presses: alcohol content in the fountain solution
shall be eliminated; non-alcohol additives or alcohol substitutes may be used to
accomplish the total elimination of alcohol use
For sheet-fed presses: 5 percent or less by volume or 8.5 percent or less
by volume if the fountain solution is refrigerated to below 15.6 °C (60 °F)
Any type of offset lithographic printing press is in compliance if the
only VOC's in the fountain solution are in non-alcohol additives or alcohol
substitutes so that the concentration of VOCs' in the fountain solution is 3 percent
or less by weight. (The fountain solution shall not contain any alcohol.)
6) Georgia
8 percent or less by volume VOC
7) Illinois
8 percent or less VOC by weight
8) Kansas
Continuously contain 10 percent or less by weight of alcohol (alcohol is
defined as isopropanol or isopropyl alcohol) or fountain solution is refrigerated to
a temperature of 55 °F or less for alcohol-based solutions
30
-------�
9) Maryland
8.5 percent isopropyl alcohol by weight; fountain solution is refrigerated
to maintain a temperature of less than 55 °F if isopropyl alcohol is used
10) Massachusetts
For facilities that will not have a usage rate of all VOC-containing
compounds exceeding 670 gallons per calendar month or a facility-wide
emission rate of VOC exceeding 2.5 tons per calendar month:
Non-heatset: for web presses installed on or after May 1, 1998, the
fountain solution shall not contain any alcohol.
Sheet-fed presses with cylinder widths greater than 21 inches:
3 percent alcohol by volume, or 5 percent alcohol by volume and
fountain solution refrigerated to a temperature of less than 60 °F.
Sheet-fed presses with cylinder widths less than or equal to 21
inches: 5 percent alcohol by volume
Newspaper printing - 0 percent alcohol
Any VOC-containing additive other than alcohol shall be limited
to a mix ratio that will result in a VOC concentration in the
fountain solution, excluding alcohol, equal to or less than 2.5
percent volume by alcohol.
For facilities with the potential to emit, before the application of air
pollution control equipment, equal to or greater than 50 tons per year of
VOC (310 CMR 7.18(25)(a):
Sheet-fed offset lithographic press using propanol in fountain
solution: 5 percent VOC by volume as applied or 8 percent VOC
by volume as applied with fountain solution refrigerated to a
temperature below 60 °F
Web fed offset lithographic press using propanol in fountain
solution: 1.6 percent VOC by volume as applied or 3 percent VOC
by volume as applied with fountain solution refrigerated to a
temperature below 60 °F
Non-heatset web-fed offset lithographic press: 0 percent
propanol and maintain a total VOC concentration of 2.5 percent or
less by weight
-------�
Propanol Substitute Requirements: Any person subject to 310
CMR 7.18(25)(a), who owns, leases, operates, or controls an offset
lithographic press with fountain solution with propanol substitutes,
containing a concentration of VOC in the fountain solution at 3.0
percent by volume or less, shall be considered in compliance with
the VOC emission limitations for fountain solutions contained in
310 CMR 7.18(25).
For large printers1 and midsize printers2:
The following standards apply to midsize and large
printers, except that they do not apply to the fountain
solution in a press with a fountain solution reservoir that
holds less than or equal to one gallon.
Web-fed Presses: fountain solution shall not contain any alcohol.
Sheet-fed Presses:
a. unrefrigerated fountain solution containing alcohol shall
contain no more than 5 percent VOC by weight, including
but not limited to alcohol, and;
b. refrigerated fountain solution containing alcohol shall
contain no more than 8 percent VOC by weight, including
but not limited to alcohol, and shall be refrigerated to a
temperature of less than 60° F.
1 Large printer - a printer that uses a total of more than 3,000
gallons of cleanup solution and inks/coatings/adhesives with a
VOC content greater than 10 percent by weight as applied, per
rollingl2 month period, where incidental material, ink used in non-
heatset offset lithographic printing, waterbased
ink/coating/adhesive, plastisol and ultraviolet ink are excluded
from this calculation
2 Midsize printer - a printer that uses a total of more than 275 and
no more than 3000 gallons of cleanup solution and
inks/coatings/adhesives with a VOC content greater than 10
percent by weight as applied, per rolling 12 month period, or that
uses a total of more than 55 gallons of alcohol per rolling 12 month
period and a total of no more than 3000 gallons of cleanup
solution, and inks/coatings/adhesives with a VOC content greater
than 10 percent by weight as applied, per rolling 12 month period,
where incidental material, ink used in non-heatset offset
lithographic printing, water-based ink/coating/adhesive, plastisol
and ultraviolet ink are excluded from this calculation
11) Missouri
(Kansas City) 10 percent or less alcohol by weight and fountain solution
refrigerated to 55 °F or less for alcohol based solutions
32
-------�
(St. Louis) heat set web: 1.6 percent or less by volume of alcohol, or 3
percent or less by volume of alcohol and fountain solution is refrigerated to a
temperature of 60 °F or less, or 5 percent or less by volume of alcohol substitutes
(St. Louis) sheet-fed: 5 percent or less by volume of alcohol, or 8.5
percent or less by volume of alcohol and fountain solution is refrigerated to a
temperature of 60 °F or less, or 5 percent or less by volume of alcohol substitutes
or combination of alcohol and alcohol substitutes
(St. Louis) non-heatset web: 5 percent or less by volume of alcohol
substitutes, or 5 percent or less by volume of a combination of alcohol and
alcohol substitutes
12) New Hampshire
Heatset web: 1.6 percent or less by weight, or 3 percent or less by weight
if the fountain is refrigerated to a temperature below 60 °F, or 5 percent or less by
weight if the fountain solution contains no alcohol
Sheet-fed: 5 percent VOC or less by weight, or VOC content of 8.5
percent or less by weight if the fountain solution is refrigerated to a temperature
below 60 °F
Fountain solution used in a non-heatset web-fed offset lithographic
printing process, including both newspaper and non-newspaper facilities,
shall contain no alcohol and the concentration of total VOC's shall not exceed 5
percent by weight in the final solution.
13) New York
10 percent or less by weight of VOC
14) North Carolina
None found
15) Tennessee
Heatset web: 1.6 percent VOC by volume as applied, or 3 percent VOC
by volume as applied if the fountain solution is refrigerated to less than 60 °F, or
4.6 percent VOC by volume as applied and use no alcohol in the fountain
solution, or 6 percent VOC by volume as applied if the fountain solution is
refrigerated to less than 60 °F and use no alcohol in the fountain solution
Non-heatset web: No owner or operator of a non-heatset web offset
printing press subject to this rule shall apply any fountain solution that contains
alcohol, nor shall any fountain solution be applied unless the VOC content is
equal to or less than 5 percent by weight of the fountain solution as applied.
33
-------�
Sheet-fed: 5 percent VOC by volume as applied, or 8.5 percent by volume
as applied is the fountain solution is refrigerated to less than 60 °F
16) Texas
Heatset web: Any person who owns or operates a heatset web offset
lithographic printing press that uses alcohol in the fountain solution shall maintain
total fountain solution alcohol to 5.0 percent or less by volume. Alternatively, a
standard of 10.0 percent or less by volume alcohol may be used if the fountain
solution containing alcohol is refrigerated to less than 60 degrees Fahrenheit.
Nonheatset web newspaper: Eliminate the use of alcohol in the fountain
solution. Non-alcohol additives or alcohol substitutes can be used to accomplish
the total elimination of alcohol use.
Nonheatset web non-newspaper: 5.0 percent or less by volume or 10.0
percent or less by volume alcohol may be used if the fountain solution is
refrigerated to less than 60 °F.
Sheet fed: 10.0 percent or less by volume or 12.0% or less by volume
alcohol may be used if the fountain solution is refrigerated to less than 60 °F.
Any person who owns or operates any type of offset lithographic printing
press shall be considered in compliance with the fountain solution limitations of
this paragraph if the only VOCs in the fountain solution are in nonalcohol
additives or alcohol substitutes, so that the concentration of VOCs in the fountain
solution is 3.0 percent or less by weight. The fountain solution shall not contain
any isopropyl alcohol.
17) Virginia
Heatset web:
a. When the fountain solution contains alcohol:
(1) The fountain solution shall contain no more than a daily
average of 1.6 percent volatile organic compounds by weight; or
(2) The temperature of the fountain solution shall be maintained at
or below 60 °F and the fountain solution shall contain no more than
a daily average of 3.0 percent volatile organic compounds by
weight; or
b. When the fountain solution contains no alcohol, the fountain solution
shall contain no more than a daily average of 5.0 percent volatile organic
compounds by weight.
Non-heatset web presses and each newspaper presses: the fountain
solution shall contain no alcohol and shall contain no more than a daily
average of 5.0 percent volatile organic compounds by weight.
34
-------�
Sheet-fed press:
a. The fountain solution shall contain no more than a daily average of 5.0
percent volatile organic compounds by weight; or
b. The temperature of the fountain solution shall be maintained at or below
60 °F and the fountain solution shall contain no more than a daily average
of 8.5 percent volatile organic compounds by weight.
18) Wisconsin
Heatset web presses: any person who owns or operates a heatset web
lithographic printing press shall, when printing on a substrate other than metal,
metal-foil or plastic, use a fountain solution which has a VOC content as applied
of no more than one of the following:
a. 1.6 percent by weight if the fountain solution contains any restricted
alcohol and is not refrigerated to 60 °F or less.
b. 3.0 percent by weight if the fountain solution contains any restricted
alcohol and is refrigerated to 60°F or less.
c. 5.0 percent by weight if the fountain solution contains no restricted
alcohol.
Non-heatset web presses: any person who owns or operates a non-heatset
web lithographic printing press shall, when printing on a substrate other than
metal, metal-foil or plastic, use a fountain solution which has a VOC content as
applied of no more than 5.0 percent by weight and which contains no restricted
alcohol.
Sheet-fed presses: any person who owns or operates a sheet-fed
lithographic printing press shall, when printing on a substrate other than metal,
metal-foil or plastic, use a fountain solution which has a VOC content as applied
of no more than one of the following:
a. 5.0 percent by weight.
b. 8.5 percent by weight if the fountain solution is refrigerated to 60 °F or
less.
Metal, metal-foil or plastic substrates: any person who owns or operates
any lithographic printing press shall, when printing on a metal, metal-foil or
plastic substrate, use a fountain solution which has a VOC content as applied of
no more than one of the following:
a. 13.5 percent by weight if the fountain solution contains any restricted
alcohol and is refrigerated to 60 °F or less.
b. Not more than 1.6 percent by weight if the fountain solution contains
any restricted alcohol and is not refrigerated to 60 °F or less or 5.0 percent
by weight if the fountain solution contains no restricted alcohol for
heatset web; not more than a VOC content as applied of 5.0 percent by
weight and which contains no restricted alcohol for non-heatset web; and
not more than a VOC content as applied of 5.0 percent by weight for
sheet-fed presses
35
-------�
Appendix C
State and Local Regulations for Letterpress Printing
Letterpress State and Local Rules - Ink VOC Content Limits
State
San Diego
Rule 67. 16
San Joaquin Valley1
Rule 4607
South Coast1
Rules 1130 (printing) and 1171 (cleaning)
Massachusetts
3 10 CMR 7.26 -(25)
Wisconsin2
NR 423. 035 (cleaning)
Ink VOC Content Limit (Ib/gal as applied, less
water)
2.5
2.5
2.5
2.5
—
1. This limit is expressed as Ib/gal as applied, less water and less exempt compounds.
2. Wisconsin only has rules for industrial solvent cleaning operations.
Letterpress State and Local Rules - Cleaning Solutions
State
San Diego1
San Joaquin
Roller Wash - Step 1
San Joaquin
Roller Wash - Step 2,
Blanket Wash, and On-
press Components
San Joaquin
Removable Press
Components
South Coast
Roller Wash - Step 1
South Coast
Roller Wash - Step 2,
Blanket Wash, and On-
press Components
South Coast Removable
Press Components
Massachusetts
Wisconsin On-press
Components2
Wisconsin Removable
Press Components
Cleaning Solution
VOC Content
Limit
(grams/liter)
200
600
800
50
500
500
25
50
Cleaning Solution VOC
Composite Partial Vapor
Pressure,
millimeters of mercury
(mm Hg) at 20 °C
45
10
10
10
25
Cleaning Solution
VOC Content Limit
(Ib/gal)
5.0
6.7
0.42
4.2
4.2
0.21
0.42
1. Total vapor pressure
2. A maximum VOC content of 30% by weight
36
-------�
This page intentionally left blank.
37
-------�
Appendix D
Estimated Costs Associated with the Recommendations Contained in the
Control Techniques Guidelines for Offset Lithographic Printing and
Letterpress Printing
This appendix presents the estimated costs associated with implementing the
recommendations in the CTG for controlling volatile organic compounds (VOCs)
emissions from offset lithographic printing and letterpress printing facilities in ozone
nonattainment areas. As explained in the CTG, the CTG is guidance for State and local
pollution control agencies to use in determining "reasonably available control
technology" (RACT) for VOCs from offset lithographic printing and letterpress printing.
State and local pollution control agencies are free to adopt the recommendations
contained in the CTG, or implement other technically-sound approaches for RACT,
provided those approaches are consistent with the CAA and EPA's implementing
regulations. Accordingly, there is necessarily some uncertainty in any prediction of
costs and emission impacts associated with the recommendations contained in the CTG.
For purposes of this analysis, we assume that all states will adopt the recommendations in
the CTG.
Costs are presented below for installing and operating control equipment to
reduce VOC emissions from heatset dryers, and for reducing emissions from cleaning
through the use of low VOC composite vapor pressure (less than or equal to 10mm Hg at
20 degrees C) and low VOC content (less than 70 weight percent VOC) cleaning
materials.
Estimated nationwide total annual cost of CTG recommendations for offset
lithographic printing - heatset dryers
The nationwide total annual cost of the CTG recommendations for offset lithographic
printing heatset dryers is estimated to be $33 million.
As shown in Tables 1 through 3, this is based on estimates in the 1993 draft CTG with
adjustments made for the number of facilities in nonattaiment areas today versus 1993,
2005 dollars versus first quarter 1990 dollars and the number of facilities already
achieving the recommendations in this CTG today versus the number of facilities
achieving the 1993 draft recommendations in 1993.
38
-------�
Table 1
Col A
heatset
litho
model
plants
A-l
A-ll
A-l II
A-IV
ColB
#
facilities
in
nonatt
areas in
1993
draft
CTG
77
122
319
308
ColC
B*53/60
#
facilities
in
nonatt
areas
today
68
108
282
272
ColD
B*0.4
#
facilities
in
nonatt
areas in
1993
w/o
dryer
controls
30
48
127
123
ColE
C*0.2
#
facilities
in
nonatt
areas
today
w/o
dryer
controls
14
22
57
55
Table 1 Notes
In 1993, 60 percent of US population was in ozone nonattainment areas. Today, 53
percent of US population is in ozone nonattainment areas.
In 1993, 60 percent of heatset dryers were assumed to already be controlled and 40
percent were assumed to be uncontrolled. Today, 80 percent of heatset dryers are
assumed to already be controlled and 20 percent are assumed to be uncontrolled.
39
-------�
Col A
Heatset
litho
model
plants
A-l
A-ll
A-l II
A-IV
ColB
total annual
cost from
1993 draft
CTG Table
E-1
$1,513,392
$4,433,742
$20,464,574
$27,614,987
Table 2
ColC
#of
facilities
installing
controls
in 1993
30
48
127
123
ColD
B/C
total
annual
cost of
control
per
facility
(1st
quarter
1990
dollars)
$50,446
$92,370
$161,138
$224,512
ColE
D*1.36
total
annual
cost of
control
per
facility
(2005
dollars)
$68,607
$125,623
$219,148
$305,336
A cost escalation factor of 1.36 was used to convert first quarter 1990 dollars to 2005
dollars.
Table 3
Col A
Heatset
litho
model
plants
A-l
A-ll
A-l II
A-IV
TOTAL
ColB
# facilities
in nonatt
areas
today w/o
dryer
controls
14
22
57
55
ColC
total
annual
cost of
control
per
facility
(2005
dollars)
$68,607
$125,623
$219,148
$305,336
ColD
B*C
total annual
cost of
control
(2005
dollars)
$960,499
$2,763,699
$12,491,447
$16,793,504
$33,009,150
40
-------�
Estimated nationwide total annual cost of CTG recommendations for offset
lithographic printing - cleaning
The nationwide total annual cost of the CTG recommendations for cleaning associated
with offset lithographic printing is estimated to be $18 million.
As shown in Tables 4 through 6, this is based on estimates in the 1993 draft CTG with
adjustments made for the number of facilities in nonattaiment areas today versus 1993,
2005 dollars versus first quarter 1990 dollars and the number of facilities already
achieving the recommendations in this CTG today.
41
-------�
Table 4
Col A
model
plants
heatset
A-l
A-ll
A-l 11
A-IV
coldset
web
B-l
B-ll
B-l 11
B-IV
sheet fed
C-l
C-ll
C-l 11
C-IV
newspaper
D-l
D-ll
D-l 11
D-IV
D-V
D-VI
ColB
#
facilities
in
nonatt
areas in
1993
draft
CTG
77
122
319
308
158
535
1,198
397
14,362
12,131
2,624
1,733
419
93
42
21
8
4
ColC
6*53/60
#
facilities
in
nonatt
areas
today
68
108
282
272
140
473
1,058
351
12,686
10,716
2,318
1,531
370
82
37
19
7
4
ColD
#
facilities
in
nonatt
areas
today
above
cutoff
68
108
282
272
140
473
1,058
351
0
0
2,318
1,531
0
82
37
19
7
4
ColE
D*0.4
# facilities in
nonatt areas
today above
cutoff and not
already meeting
cleaning
recommendations
27
43
113
109
56
189
423
140
0
0
927
612
0
33
15
7
3
1
42
-------�
Table 4 Notes
In 1993, 60 percent of US population was in ozone nonattainment areas. Today, 53
percent of US population is in ozone nonattainment areas.
The two smallest size sheet-fed model facilities and the smallest size newspaper model
facility do not exceed the 15 Ib/day cutoff.
In 1993, no facilities were assumed to be meeting the draft recommendations for
cleaning. Today, at least 60 percent of facilities are assumed to already be meeting the
recommendations for cleaning because over 60 percent of the nonattainment area
population is in areas which already have state or local VOC rule for offset lithography.
43
-------�
Table 5
Col A
ColB
ColC
ColD
B/C
ColE
D*1.36
Model
plants
total annual
cost from
1993 draft
CTG Table
E-3 (1st # facilities in nonatt
quarter 1990 areas in 1993 draft
dollars) CTG
total annual cost of
control per facility
(1st quarter 1990
dollars)
total annual cost of
control per facility
(2005 dollars)
Heatset
A-l
A-ll
A-l 11
A-IV
$84,080
$292,755
$1,529,563
$2,685,126
77
122
319
308
$1,092
$2,400
$4,795
$8,718
$1,485
$3,263
$6,521
$11,856
coldset
web
B-l
B-ll
B-lll
B-IV
$172,527
$1,283,805
$5,744,251
$3,461,022
158
535
1,198
397
$1,092
$2,400
$4,795
$8,718
$1,485
$3,264
$6,521
$11,856
sheet fed
C-l $6,323,589
C-ll $10,682,559
C-lll $9,242,778
C-IV $12,971,678
14,362
12,131
2,624
1,733
$440
$881
$3,522
$7,485
$599
$1,198
$4,790
$10,180
newspaper
D-l
D-ll
D-l 11
D-IV
D-V
D-VI
$276,729
$184,266
$151,639
$151,639
$119,409
$96,514
419
93
42
21
8
4
$660
$1,981
$3,610
$7,221
$14,926
$24,129
$898
$2,695
$4,910
$9,820
$20,300
$32,815
Table 5 Notes
A cost escalation factor of 1.36 was used to convert first quarter 1990 dollars to 2005
dollars.
44
-------�
Table 6
Col A
Model
plants
heatset
A-l
A-ll
A-l 11
A-IV
coldset
web
B-l
B-ll
B-l 11
B-IV
sheet fed
C-l
C-ll
C-l 11
C-IV
newspaper
D-l
D-ll
D-l 11
D-IV
D-V
D-VI
TOTAL
ColB
# facilities in
nonatt areas
today above
cutoff and not
already meeting
cleaning
recommendations
27
43
113
109
56
189
423
140
0
0
927
612
0
33
15
7
3
1
ColC
total
annual
cost of
control
per
facility
(2005
dollars)
$1,485
$3,263
$6,521
$11,856
$1,485
$3,264
$6,521
$11,856
$440
$881
$4,790
$10,180
$660
$2,695
$4,910
$9,820
$20,300
$32,815
ColD
B*C
total annual
cost of
control (2005
dollars)
$40,403
$140,679
$735,006
$1,290,293
$82,905
$616,911
$2,760,304
$1,663,136
$0
$0
$4,441,463
$6,233,324
$0
$88,546
$72,868
$72,868
$57,380
$46,378
$18,342,463
45
-------�
United States Office of Air Quality Planning and Standards Publication No. EPA 453/R-06-002
Environmental Protection Sector Policies and Programs Division
Agency Research Triangle Park, NC September 2006
-------� |