Technical Reference Manual for
WaterSense® Labeled Homes
EPA
*
WaterSense

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WaterSense Labeled Homes
Technical Reference Manual
Table of Contents
Section 1: Introduction	1-1
How WaterSense Labeled Homes Save Water	1-1
Purpose of This Manual	1-2
How Professionals Can Use This Manual	1-3
Section 2: A Brief Overview of the WaterSense Labeled Homes Program	2-1
Benefits of WaterSense Labeled Homes	2-1
Building Blocks	2-2
Local Rules, Ordinances, and Permits	2-4
Section 3: How a Home Earns the WaterSense Label	3-1
Section 4: Features of Water-Efficient Homes	4-1
Section 5: Additional Resources	5-1
Photo Credit
On the cover page, the center bottom photograph was provided courtesy of Arras Park by
McStain Neighborhoods.
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Section 1: Introduction
WaterSense, a voluntary partnership program sponsored by the U.S. Environmental
Protection Agency (EPA), is both a label for water-efficient products and a resource to help
save water. The WaterSense label makes it simple to find water-efficient products,
homes, and programs that meet EPA's criteria for efficiency and performance.
The WaterSense Labeled Homes Program is designed to actively promote water efficiency
in the home building industry. It provides a nationally consistent home certification that
ensures a WaterSense labeled home is at least 30 percent more water-efficient than a
typical new home, is free of leaks, and features WaterSense labeled plumbing products.
The program enables builders anywhere in the country to specify, design, and build water-
efficient homes that can earn the WaterSense label.
How WaterSense Labeled Homes Save Water
WaterSense labeled homes are independently certified to meet EPA's criteria for water
efficiency and performance. Home Certification Organizations (HCOs), which are
responsible for overseeing the certification and labeling of homes for WaterSense, must
first undergo an application and approval process to ensure they have the organizational
infrastructure to oversee home certification. As part of the application process, a
technical evaluation of their chosen method of measuring water efficiency is conducted.
EPA verifies that the HCO's methodologies can accurately and consistently identify
homes that are at least 30 percent more water-efficient than a typical new home. Once
approved, these methods are referred to as WaterSense Approved Certification Methods
(WACMs), which outline the requirements for a home to meet the WaterSense efficiency
requirement.
WaterSense labeled homes must be free of leaks and include WaterSense labeled toilets,
faucets, and showerheads, regardless of the WACM used to achieve the efficiency
requirement. Additional water efficiency features are included in WaterSense labeled
homes, but those features can vary from home to home and are dependent on the
requirements of the HCO's WACM.
Features that can contribute to water efficiency may include, but are not limited to:
•	High-efficiency kitchen faucets
•	ENERGY STAR® certified clothes washers and dishwashers
•	Efficient hot water delivery
•	Landscape size, design, and plant selection
•	Irrigation technology, including use of WaterSense labeled irrigation products
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•	Irrigation system design, installation, or audit by a professional certified by a
WaterSense labeled program
Builders have the flexibility to select an HCO and WACM that work with their existing
certifications, if applicable, and best fit their needs and the needs of their customers.
WaterSense labeled homes also provide significant energy savings and utility cost savings
by reducing hot water use. Compared to typical new construction, the average
WaterSense labeled home could save more than $700 in water and energy utility costs
and 50,000 gallons of water per year.
Purpose of This Manual
The WaterSense Labeled Homes Program provides a building science approach to
improving indoor and outdoor water efficiency. Whether you are a builder looking to earn
the WaterSense label for homes, a tradesperson wanting to learn more about strategies to
improve water efficiency, or a verifier seeking to understand what to look for during field
surveys, you've come to the right place! This Technical Reference Manual for WaterSense
Labeled Homes is intended to serve as a resource for anyone interested in the
WaterSense Labeled Homes Program and water-efficient solutions in homes.
The manual is divided into four sections and designed for readers to focus on sections of
particular interest or review the document in its entirety.
•	Section 2: A Brief Overview of the WaterSense Labeled Homes Program: Start
here to learn about the basics of the WaterSense Labeled Homes Program,
including its scope, benefits, and core documents.
•	Section 3: How a Home Earns the WaterSense Label: Follow the process of
earning the WaterSense label for a home from start to finish. Understand the roles
of various program participants and identify ways you can actively promote
WaterSense labeled homes.
•	Section 4: Features of Water-Efficient Homes: This section provides details on
indoor and outdoor water-efficient technologies for single-family and multifamily
residences. It is divided into two subsections: Mandatory Requirements for
WaterSense Labeled Homes and Optional Water Efficiency Measures. This section
consists of one- or two-page technical fact sheets focused on different water-
efficient fixtures, systems, or practices, with details specific to construction or
verification.
•	Section 5: Additional Resources: Explore a variety of topics in detail through
resources written for audiences with different levels of understanding about water
efficiency.
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How Professionals Can Use This Manual
Although everyone can use this manual to learn more about residential water efficiency,
icons identifying specific trades and/or professions are included throughout the
document, allowing readers to focus on sections of interest.
Build homes to earn the WaterSense label (Section 3: How a Home
Earns the WaterSense Label)
Identify other organizations that can help with the certification
process (Section 3: How a Home Earns the WaterSense Label)
Incorporate water-efficient features into residential construction
(Section 4: Features of Water-Efficient Homes)
WaterSense •
Builder
Partners
WaterSense
Home Verifiers
Become a WaterSense home verifier (Section 3: How a Home Earns
the WaterSense Label)
Verify water-efficient features in a home (Section 4: Features of
Water-Efficient Homes)

Tradespeople
Receive irrigation training through a WaterSense labeled certification
program (Section 3: How a Home Earns the WaterSense Label)
Incorporate water-efficient technologies into residential construction
(Section 4: Features of Water-Efficient Homes)
III
Utilities
and Local
Governments
Encourage builders to build WaterSense labeled homes in the
community (Section 2: A Brief Overview of the WaterSense Labeled
Homes Program)
Educate residents, local home builders, and tradespeople about
WaterSense and water efficiency (Section 3: How a Home Earns the
WaterSense Label and Section 5: Additional Resources)
For additional questions or guidance, please contact the WaterSense Helpline at (866)
WTR-SENS (987-7367) orwatersense@epa.gov.
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Section 2:
A Brief Overview of the WaterSense
Labeled Homes Program
Since 2009, the WaterSense Labeled Homes Program has provided a whole-house
solution to help consumers save water, energy, and money while maintaining a high level
of performance.
The WaterSense Labeled Homes Program has a
broad scope that covers:
•	New construction
•	Renovations
•	Single-family homes
•	Multifamily
Multifamily Opportunities
3
Look for this icon
throughout the manual
for information specific
to multifamily buildings.
The specification is largely performance-based, with only a few mandatory requirements.
Builders have flexibility to incorporate water-efficient systems and features in homes
based on local market conditions and climate.
Benefits of WaterSense Labeled Homes
Water efficiency is essential in the community planning, land entitlement, and building
process. As water becomes an increasingly important asset in the residential building
industry, WaterSense labeled homes can help builders and local jurisdictions address the
following challenges:
• Community Planning and Water Availability: With increasing
population and limited water resources, some states and municipalities
are looking for strategies to meet growing housing demand in the face of
water availability challenges due to drought or supply limitations.
Ill
Because WaterSense labeled homes are at least 30 percent more water-efficient
than typical new construction, these homes help ease this burden and lead
communities to more sustainable and resilient growth.
• Entitlements and Connection Fees: New developments frequently
face challenges of water and infrastructure availability as new homes
increase demand on existing water systems, resulting in high utility
connection fees. Some municipalities and water utilities may choose to
streamline the permitting process and/or reduce utility connection fees for
construction of new water-efficient homes.
Ill
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•	Corporate Social Responsibility: Homebuyers and investors are
holding builders accountable by demanding they demonstrate good
stewardship of resources. Building WaterSense labeled homes can help
builders meet these expectations for corporate social responsibility at a
marginal cost.
•	Utility Costs: Rising utility costs
mean that homebuyers can save
more money with a high-
performing, water-efficient home
while mitigating their impact on
limited resources and existing
infrastructure.
Building Blocks
Three main components—the
specification, the certification system,
and the process for evaluating
certification methods—provide the
structure for the WaterSense Labeled
Homes Program. The sections below
describe the purpose and contents of
each document.
1) Specification: The WaterSense Specification for Homes
(www.epa.gov/watersense/homes-specification) establishes the criteria that a
home must meet to earn the WaterSense label. The specification includes a
Mandatory Checklist, as well as the 30 percent water efficiency requirement. The
Mandatory Checklist (Figure 1 on the next page) contains basic measures of water
efficiency and performance that are applicable to all homes, whereas the efficiency
requirement establishes total water savings regardless of variables such as size of
the home and the local climate. The Mandatory Checklist includes WaterSense
labeled plumbing fixtures and verification that no visible or hidden water leaks are
present in a home. The efficiency requirement means that a home must use at
least 30 percent less water compared to a home built using typical new
construction practices. The efficiency requirement is achieved through certification
to a WACM.
On average,
a WaterSense
labeled
home can
save...
more than $700 in water
and electricity costs and
50,000 gallons
of water per year!
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Figure 1. Mandatory Checklist for WaterSense Labeled Homes
Mandatory Checklist to Ensure Quality Performance
Leaks
O Pressure-loss test on all water supplies detects no leaks
O Free of visible leaks from all fixtures and appliances at point of use or point
of connection to water distribution system
O Toilets
O Bathroom faucets
OShowerheads
O Bathroom tub faucets, i.e., tub spouts
O Kitchen and other sink faucets
O Other fixtures or appliances (e.g., water heaters, clothes washers,
dishwashers)
WaterSense Labeled Plumbing Fixtures
O Toilets
O Bathroom sink faucets
O Showerheads

Efficiency Requirement
Verified Efficiency
O At least 30 percent more water-efficient than a typical new home (based
on national standards and common design and landscape practices).
2) Certification System: The WaterSense Home Certification System
(www.epa.gov/watersense/homes-certification) outlines the administrative
structure of the program and assigns roles and responsibilities for conducting
home certification for WaterSense. It explains the qualifications that a prospective
HCO must meet for EPA to approve them to oversee the verification and labeling of
homes for WaterSense.
When a prospective HCO applies to the program, EPA evaluates whether it meets
requirements for the following categories: independent oversight; quality
assurance; verifier training and authorization; home verification protocols;
impartiality; and messaging and reporting. This ensures that an HCO has the
organizational structure and necessary qualifications to oversee the certification
process.
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3) Process for Evaluating Certification Methods: As part of its application, a
prospective HCO submits the proposed certification method it intends to use to
confirm whether homes meet WaterSense's water efficiency requirement. EPA
reviews the proposed certification method according to the WaterSense Technical
Evaluation Process for Approving Home Certification Methods
(www.epa.gov/watersense/homes-specification). The technical evaluation serves
as a stress test to ensure that homes will meet WaterSense's 30 percent efficiency
requirement at the HCO's proposed certification threshold. HCOs have flexibility in
identifying water efficiency features their certification method will include, as long
as the certification threshold specified passes WaterSense's technical evaluation.
If approved by EPA, the HCO's proposed certification method is designated as a
WACM.
Figure 2 on the next page lists HCOs approved by EPA at the time of publication and
provides details on their WACMs. The current list of HCOs and their contact information
are maintained on the WaterSense Homes Certification web page
(www.epa.gov/watersense/homes-certification#approvedhcos). HCOs train and authorize
WaterSense Home Verifiers, who conduct onsite verifications to confirm that the home
meets the Mandatory Checklist and the technical requirements of the HCO's WACM
(therefore ensuring they achieve the 30 percent efficiency requirement). The HCO then
issues the WaterSense label to homes meeting all requirements.
Learn more about the process of earning the WaterSense label in Section 3: How a Home
Earns the WaterSense Label.
Local Rules, Ordinances, and Permits
The WaterSense Specification for Homes is not intended to replace or contravene state or
local codes and requirements. All homes, landscapes, and irrigation systems are required
to meet all applicable national, state, and local building codes and regulations. In
addition, all plumbing and irrigation system installers must meet all applicable state and
local licensing requirements.
In some locations, local jurisdictions and other government entities have chosen to
incorporate WaterSense labeled products and/or WaterSense labeled homes into their
regulations or community planning requirements as a way to achieve their sustainability
and water saving goals.1
1 The Appliance Standards Awareness Project (ASAP) maintains a list of states that have adopted energy and
water efficiency standards on its web page (https://appliance-standards.org/states). The Urban Land
Institute's report Water Wise: Strategies for Drought-Resilient Development
(https://knowledge.uli.org/reports/research-reports/2022/water-wise) discusses best practices for water-
smart development and landscaping.
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Figure 2. EPA Approved HCOs
HCO
CHEERS
Single-Family
New
Construction
/>
L_+-
Method for Labeling
Homes
Achieve a score of 70
or less under CHEERS
WaterSense
GreenBuilder
COALITION
Green Builder
Coalition

Single-Family
/\
New and
Existing
Construction
&
Achieve a score of
66 or less under the
Water Efficiency Rating
Score (WERS) with
WaterSense Baselines
1JLI
NGBS
GREEN
Home Innovation Research Labs
Home
Innovation
Research Labs

Single-
Family and
Multifamily
/\
New and
Existing
Construction
l_ * I*
Complete a set of
selected practices from
the National Green
Building Standard
(NGBS)
/YV\
New
Construction
/\
l_+-
Achieve a score of 64
or less under the Water
Rating Index
IsH
RESNET
m
Single-Family
/\
New and
Existing
Construction
Achieve a score of 70 or
less under HERSH20
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Section 3: How a Home Earns the WaterSense Label
Homes earn the WaterSense label through an iterative process involving multiple
participants. Figure 3 on the next page illustrates WaterSense's home certification
process, showing the basic steps to earning the WaterSense label from design and
construction to occupancy. Keep in mind that the certification process replicates the
building process in that it is not linear and requires interdisciplinary collaboration. In
addition, some administrative requirements may be required at different points in the
process, depending on the HCO.
The diagram assumes that all participants have already taken specific steps to ensure that
they are eligible to participate in the WaterSense Labeled Homes Program, namely:
•	Home builders must first partner with WaterSense (www.epa.gov/watersense/join-
watersense) to certify homes with the WaterSense label. Partnership is free but
requires builders to commit to building at least one WaterSense labeled home per
year.
•	EPA must approve HCOs to certify homes and issue the WaterSense label.
•	Verifiers work directly with HCOs to become WaterSense home verifiers.
As the home certification process diagram (Figure 3) shows, the WaterSense Labeled
Homes Program relies on the involvement and expertise of various stakeholder groups.
Each can encourage adoption and raise awareness of water-efficient and high-performing
products and design practices in the building industry. Although water utilities are not
involved in the specific process to certify a home, they, along with local governments, can
also play a significant role in bringing WaterSense labeled homes to their communities.
Table 1 and Table 2 on pages 3-3 and 3-4, respectively, illustrate the role of the
participants involved with building, certifying, and promoting WaterSense labeled homes
and the benefits they receive from involvement with the program. Both WaterSense
partners (Table 1) and those who are not eligible for partnership (Table 2) can participate
in varying capacities. WaterSense partners commit to promote the value of water
efficiency and WaterSense labeled products, homes, and programs; adhere to the
WaterSense Program Guidelines (www.epa.gov/watersense/program-guidelines): and
feature WaterSense on websites and promotional materials. WaterSense partners also
have exclusive access to educational and marketing materials. Visit the WaterSense
Partners web page (www.epa.gov/watersense/watersense-partners) to learn more.
With various participants contributing expertise and insight, the WaterSense Labeled
Homes Program is grounded in building science and offers a multidisciplinary approach to
residential building. Collaboration among participants is essential to the program's
success.
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Figure 3. WaterSense Labeled Home Certification Process Overview
Step 1. Builder works with their verifier to identify a WACM. If
builder does not currently work with a verifier, they can locate one
using EPA's Find a WaterSense Verifier tool at
www.epa.gov/watersense/find-horne-verifier. If applicable, the
builder will register the project with the HCO.
Ba




Step 2. Builder specifies features of the home to meet certification
criteria, consulting with a verifier as needed.
Step 3. Builder works with trades to build the home and correct any
issues that may arise during construction and/or verification.
Step 4. Home is ready for certification. Verifier conducts
verification of specified features to confirm that the home meets
certification criteria. Verifier identifies any issues, works with the
builder and trades to correct them, and submits documentation to
the HCO.
1
ik
m

9

Step 5. Once the home meets the certification criteria, the HCO
provides the builder with a label certificate and WaterSense label
use guidelines. The HCO reports the certified home to EPA.
Step 6. Home is delivered to the resident. Builder should provide
education and guidance for maintaining the water-efficient
products and systems to the new resident.
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Table 1. WaterSense Partners Involved in the WaterSense Labeled Homes Program
Participant
Builders
•	Partner with WaterSense and
commit to building at least one
home earning the WaterSense
label within the first year of joining
and at least one home annually
thereafter.
•	Install WaterSense labeled
plumbing and irrigation products
in homes.
•	Work with trades, such as
plumbers and irrigation
professionals, to raise awareness
of the benefits of designing
systems and installing products
that are water-efficient.
•	Work with HCOs and WaterSense
Home Verifiers to certify homes.
•	Help communicate the value of
WaterSense labeled homes to the
public and prospective
homebuyers.
Benefits
Receive co-branded
marketing materials
and program support
from WaterSense,
including a
promotional label for
builders of WaterSense labeled
homes.
Serve as a nexus for various
stakeholders involved with
building homes that meet
WaterSense's requirements by
engaging with verifiers,
tradespeople, water utilities,
and municipalities.
Become eligible to receive
national recognition by applying
for the annual WaterSense
Awards program.
Water
Utilities and
Local
Governments
III
•	Promote the WaterSense program
and WaterSense labeled products
and homes to consumers and
other organizations.
•	Encourage water efficiency in
home building through marketing
campaigns and/or educational
resources.
•	Provide incentives, such as
rebates, water connection fee
reductions, and permit
prioritization, for builders and
developers building WaterSense
labeled homes.
•	Consider providing customers
with enhanced or smart metering
information that can be used to
track their water use overtime.
•	Achieve greater reduction in
water use at the jurisdictional
level than is typically achieved
through product standards,
rebates, or retrofits alone.
•	Facilitate smart growth in the
housing sector by adopting
water efficiency measures and
contributing to local
sustainability and drought
mitigation plans.
•	Become a WaterSense
promotional partner to enjoy the
following benefits:
o Access to educational and
marketing resources that
can be used to promote
water efficiency,
o Eligibility to receive
national recognition
through the WaterSense
Awards program.
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Table 2. Non-Partners Involved in the WaterSense Labeled Homes Program
Participant
Tradespeople
•	Understand WaterSense labeled
indoor and outdoor products and
communicate their benefits to
builders and consumers.
•	Participate in water utility rebate
programs that incentivize
installing water-efficient
products.
•	For plumbing professionals: Learn
about and install water-efficient
hot water delivery systems in
residential buildings.
•	For irrigation professionals:
Become certified to design,
install/maintain, and/or audit
irrigation systems through a
WaterSense labeled program
(www.epa.gov/watersense/profes
sional-certification-O).
Benefits
•	Differentiate a business by
offering expertise in water
efficiency.
•	For irrigation professionals
certified through a WaterSense
labeled program:
o Be listed in WaterSense's
online Directory of
Certified Professionals at
www.epa.gov/watersense/
find-pro,
o Use the WaterSense
promotional label on
marketing materials,
o Receive access to tools
and program support from
WaterSense.
WaterSense
Home
Verifiers
•	Receive training on the
WaterSense Labeled Homes
Program and the requirements
specific to the HCO's WACM.
•	Conduct verification to confirm
that a home includes:
o All features on the
Mandatory Checklist,
o Verified absence of leaks
as confirmed through tests,
o Any features that
contribute to the 30
percent water efficiency
requirement in accordance
with the HCO's WACM.
Meet customer demand for
water efficiency certification,
especially in regions
experiencing drought.
Offer WaterSense certification
services in addition to other
home certifications,
such as ENERGY
STAR and Zero
Energy Ready Home
(ZERH).
Use the
WaterSense verifier mark on
marketing materials.
Become part of WaterSense's
online Directory of WaterSense
Home Verifiers at
www.epa.gov/watersense/find-
home-verifier.This tool helps
builders and other stakeholders
locate qualified verifiers.	
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Section 4: Features of Water-Efficient Homes
Water efficiency in homes can be achieved in many ways and is dependent on the local
climate, region, and builder or homeowner preferences. The Mandatory Checklist (Figure 1
on page 2-3) identifies features that are required for all WaterSense labeled homes.
However, homes will need to go beyond these mandatory requirements to achieve the 30
percent efficiency requirement to earn the WaterSense label. Working with their verifier
and reviewing guidance from the selected HCO, builders can decide on how best to
achieve the 30 percent efficiency requirement. This section provides technical details and
information on the items in the Mandatory Checklist, as well as fixtures, systems, and
practices that may help a home achieve the 30 percent efficiency requirement.
This section includes one- or two-page technical fact sheets on topics related to
residential water efficiency. Table 3 on the next page provides a list of the technical fact
sheets included in this section. Each technical fact sheet indicates whether the topic is
mandatory or optional to earn the WaterSense label. "Optional" refers to features that
may contribute to the efficiency requirement, which may differ by HCO and WACM. Be
sure to check your HCO's WACM for further details on these optional fixtures, systems, or
practices.
Each technical fact sheet is divided into the following three subsections:
Understand: General background on the topic.
Build: Instructions for incorporating the feature into home design and
construction.
Verify: Guidelines for confirming whether the feature is installed in a home.
Each technical fact sheet also provides links to additional resources to find out more
about the topic area. WaterSense may include additional fact sheets within this document
in the future.
The technical fact sheets have been designed to be standalone documents, allowing
users to reference and share a single fact sheet on a particular fixture, system, or practice
in either printed or digital format. The fact sheets can be brought to a construction site for
reference or shared with prospective homebuyers or renters.

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Table 3. List of Technical Fact Sheet Topics
Fact Sheet Topic
Mandatory*
Optional**
Indoor
Free of leaks
~

Toilets
~

Bathroom sink faucets
~

Showerheads
~

Kitchen faucets

~
Dishwashers

~
Clothes washers

~
Hot water delivery

~
Water softeners

~
General
Metering

~
Leak detection and flow monitoring systems

~
Service water pressure

~
Outdoor
Landscape design and plant selection

~
Soil management and mulching

~
Spray irrigation

~
Microirrigation

~
Rain sensors

~
Irrigation controllers

~
Using a certified professional for irrigation
system design, installation, and auditing

~
Pools and outdoor water features

~
* Mandatory fixtures and practices must be included in all WaterSense labeled homes regardless
of the HCO's WACM.
** Optional fixtures, systems, and practices can contribute to the 30 percent efficiency
requirement if included in the certifying HCO's WACM.
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0
#
Mandatory Checklist Requirement: There must be no detected leaks from any water-using fixtures,
appliances, or equipment. Compliance shall be verified through pressure-loss testing and visual
inspection.
UNDERSTAND
The average household's leaks can account for nearly
10,000 gallons of water wasted per year. Common types
of leaks found in homes are from worn toilet flappers,
dripping faucets, poor connections to hot and cold water
lines, leaking irrigation system components, and other
leaking valves. However, leaks can occur in new
construction as well, and proactively identifying and fixing
leaks leads to more satisfied customers and a more water-
efficient home.
To be eligible to receive the WaterSense® label, homes
must be verified to be free of water leaks at the time of
certification.
BUILD
•	CONFIRM valves and hoses for water-using fixtures and
appliances are installed correctly throughout the home.
Use plumber's tape when making threaded connections,
such as with showerheads or some tub spouts.
•	CONDUCT a pressure-loss test on all water supplies to
check for leaks before the verification (see the Pressure-
Loss Test Protocol at right}. This will offer the opportunity
to address leaks proactively and ensure the home is free
of leaks before the verifier's visit.
•	REPAIR leaks when they are identified outdoors and work
with the irrigation installer to commission the system and
replace leaky sections,
VERIFY
•	VERIFY the following requirements as part of the
Mandatory Checklist for WaterSense Labeled Homes:
Pressure-Loss Test Protocol
Attach a pressure gauge to the cold-
water faucet for the washing machine
or a hose bibb. Turn on the water to
the fully open position and take a
pressure reading.
Turn off the water to the home or unit
using the home's shutoff valve.
The pressure should remain constant
after 5 to 10 minutes.
If the pressure drops, this indicates
that the home has a leak.
Work with the builder to find and fix
any leaks before proceeding with the
home verification.
If the home or multifamily building has
a separate water supply for irrigation,
check both the indoor and outdoor
water supply lines for leaks.
Toilet Leak Test Protocol
1.	Drop a dye tablet or a few drops of
food coloring into each toilet tank.
2.	Wait 5 to 10 minutes without flushing.
3.	Check the toilet to see if the color
leaked from the tank into the bowl.
4.	If color is observed in the bowl, the
flapper or flush valve seal is leaking
and needs to be replaced.
Note: Flush the toilet within 5 to 10
minutes after inserting the dye to avoid
staining.
Pressure-loss test on all water supplies detects no
leaks (see Pressure-Loss Test Protocol box above).
No visible leaks from toilet(s), as determined through visual assessment and by conducting a dye test
in each toilet to ensure the flapper or flush valve seal is not leaking (see Toilet Leak Test Protocol at
right).
No visible leaks from bathroom faucets.

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o No visible leaks from showerheads.
o No visible leaks from bathroom tub spouts when
showerhead(s) are activated, as determined through
visual assessment after showerheads have been
activated for one minute (see instructions at right),
o No visible leaks from kitchen and other sink faucet(s).
o No visible leaks from other fixtures or appliances (e.g.,
water heaters, clothes washers, dishwashers, hose
bibbs, irrigation systems) at the point of use or point of
connection to the water distribution system.
ENSURE tight connections to hoses and valves that
Bathroom Tub Faucets Leak Test
1.	For all bathtub/showerhead
combinations, turn on the water and
divert flow so it is flowing only through
the showerhead.
2.	Wait one minute.
3.	Observe whether a continual stream
of water seepage (more than a few
drips) comes from the tub spout while
the shower is flowing.
connect to fixtures and appliances.
CHECK in-ground irrigation systems for broken sprinklers or nozzles spraying outside the landscaped
area. Consider having the irrigation system designed, installed, and/or audited by a professional
certified by a WaterSense labeled program. Find a certified professional in your area with WaterSense's
Find a Pro tool at www.epa.gov/watersense/find-pro.
*NOTE: Consult with the Home Certification Organization for specific verification protocols.
Where to Look for Leaks
Check all of the fixtures and appliances listed in the table below to look for leaks, and visit the
WaterSense Fix a Leak Week web page at www.epa.gov/watersense/fix-leak-week to learn
more about identifying and fixing leaks.
Fixture or Appliance
What to Check
Water heater
• Supply connections
Toilets
•	Angle valve
•	Tank overflow tube
Showers
•	Showerhead outlet
•	Shower arm and threaded connection
•	Tub faucet/spout
Bathroom and kitchen faucets
•	Faucet outlet
•	Hot and cold water connection hoses and
valves
Dishwashers
• Visible supply connections and valves
Clothes washers
• Visible supply connections and valves
Irrigation systems
•	Landscape where irrigation is installed
•	At each sprinkler head/emitter
•	At the irrigation shut-off valve
Hose bibbs
• Hose bibb outlet
Other (e.g., water softeners,
• Visible water supply connections and valves
drinking water treatment systems,

evaporative cooling systems)

This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-016
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

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Mandatory Checklist Requirement: All toilets must be WaterSense® labeled.

ilk
UNDERSTAND
WaterSense labeled toilets have a maximum flush volume of 1.28 gallons per flush (gpf), which is 20
percent lower than the current U.S. federal standard.
The WaterSense Specification for Tank-Type Toilets and WaterSense
Specification for Flushometer-Valve Water Closets, as applicable, also
establish criteria for toilet performance and markings.
WaterSense labeled toilets are independently certified for efficiency and
flush performance and must also meet requirements of the applicable
national standard for toilets, ASME A112.19.2/CSA B45.1 Ceramic
Plumbing Fixtures.
WaterSense specifications cover both single- and dual-flush toilets.
BUILD
USE the WaterSense Product Search Tool at
www.epa.gQv/watersense/product-search to identify and specify toilet
models that have earned the WaterSense label.
CONFIRM toilets are properly installed to prevent leaks.
CHECK that all toilet components, such as flappers, flush
valves, and fill valves, are connected and working properly
at time of installation.
Look for Leaks
VERIFY
•	OBTAIN the makes and model numbers for all toilets in a
home. Use the WaterSense Product Search Tool to
confirm that all toilets are WaterSense labeled.
•	CHECK the gpf marking on the fixture or inside the tank.
•	CONFIRM that no leaks are present through visual
inspection and dye tablet test in toilet tank (see the "Free
of Leaks" informational fact sheet).
*NOTE: Consult with the Home Certification Organization for
specific verification protocols.
Learn More
Visit WaterSense's Residential Toilets web page
atwww.epa.gov/watersense/residential-toilets
to learn more about WaterSense labeled toilets.
Misaligned or warped toilet flappers, flush
valves, or other flushing mechanisms can
cause undetected leaks that waste
significant amounts of water over time.
Conduct a simple water dye test to check
for toilet leaks (see the "Free of Leaks"
informational fact sheet for details).
Replace the flush mechanism if
necessary.
Getting a Handle on Dual Flushing
If selecting dual-flush toilets, make sure
the buttons or handles are intuitive so
homeowners and residents select the
appropriate flush setting and achieve the
desired water savings. Provide an owner's
manual that explains which flush is
which.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-016
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

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9
Mandatory Checklist Requirement: All bathroom sink faucets must be WaterSense® labeled.
UNDERSTAND
WaterSense labeled bathroom sink (lavatory) faucets use a maximum of 1.5
gallons per minute (gpm) at 60 pounds per square inch (psi) of water pressure,
which means the faucet's water flow is at least 30 percent lower compared to
the U.S. federal standard flow rate of 2.2 gpm.
WaterSense labeled bathroom sink faucets are also tested to provide no less
than 0.8 gpm at 20 psi of water pressure, ensuring they provide adequate flow
for typical bathroom activities (e.g., face washing, shaving} without sacrificing
performance at lower pressures.
WaterSense labeled bathroom sink faucets are
independently certified for water efficiency and
performance and meet expected life cycle and
lead-free requirements of the national standard
forfaucets, ASME A112.18.1 /CSA B125.1
Plumbing Supply Fittings.
They are available at a wide variety of price points
and styles. For greater efficiency or to meet local
requirements, many models are available with
maximum flow rates of 1.0 to 1.2 gpm.
Not Too Low Flow
BUILD
•	USE the WaterSense Product Search Tool at
www.epa.gov/watersense/product-search to
identify and specify bathroom sink faucet models
that have earned the WaterSense label.
•	INSTALL WaterSense labeled faucets and/or
faucet accessories (e.g., aerators) in all bathroom
sinks at the time of construction.
VERIFY
Faucets that flow at a rate of 0.5 gpm or less are
intended for public restrooms within commercial
buildings; they generally do not provide enough
flow to be suitable for residential bathrooms,
where activities such as shaving and face washing
require more water and demand hot water to get
to the tap quickly. Therefore, WaterSense
established a minimum flow rate for WaterSense
labeled lavatory faucets (i.e., 0.8 gpm at 20 psi).
Faucets below this flow rate do not meet EPA's
criteria for lavatory faucets and should not be
installed in WaterSense labeled homes.
As an exception, 0.5 gpm faucets may be
appropriate for shared bathrooms within
multifamily buildings, such as in the lobby, pool
house, or other common areas.
Learn More
Visit WaterSense's Bathroom Faucets
web page to learn more
(www.epa.gov/watersense/bathroom-faucets).
OBTAIN the makes and model numbers for all
bathroom sink faucets in a home. Use the
WaterSense Product Search Tool to confirm that all bathroom sink faucets are WaterSense labeled.
CHECK the gpm marking on the faucet or faucet aerator.
VERIFY that no more than 0,25 gallons (32 ounces) of water are collected over 10 seconds of
operation.
*NOTE: Consult with the Home Certification Organization for specific verification protocols.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-016
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

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0
Mandatory Checklist Requirement: All showerheads must be WaterSense® labeled.
UNDERSTAND
WaterSense labeled showerheads have a maximum flow
rate of 2.0 gallons per minute (gpm), which is 20 percent
less than the current federal standard.
The WaterSense Specification for Showerheads also
establishes criteria for showerhead performance and
marking.
WaterSense labeled showerheads are independently
certified for water efficiency and performance criteria
including minimum flow rate, spray force, and spray
coverage.
Showerheads, rain showers, and hand-held showers are all
eligible to earn the WaterSense label.
BUILD
•	USE the WaterSense Product Search Tool at
www.epa.gov/watersense/product-search to identify
showerhead models that have earned the WaterSense
label.
•	SPECIFY WaterSense labeled showerheads to be installed
in every shower at the time of construction.
•	LIMIT the number of showering devices that can be turned
on at the same time within a shower compartment. Check
with the Home Certification Organization (HCO) for
guidance if you plan to install multiple showerheads.
=] VERIFY
•	OBTAIN the makes and model numbers for all showerheads
in a home. Use the WaterSense Product Search Tool to
confirm that the showerheads are WaterSense labeled.
•	VERIFY the gpm marking on the showerhead. Confirm that
no more than 0.5 gallons (64 ounces) of water are
collected over 15 seconds of operation.
•	DETERMINE the maximum flow rate when all devices are
operating for shower compartments with multiple
showering devices.
*NOTE: Consult with the Home Certification Organization for
specific verification protocols.
Performance Criteria
WaterSense collaborated with
stakeholders to conduct consumer
testing to determine the performance
metrics that are important for meeting
users' expectations for showerheads.
Based on the results, WaterSense
established performance criteria.for
showerheads to earn the WaterSense
label. Labeled products must be tested
across a range of permissible service
pressures to:
Maintain minimum spray force (what
most users refer to as "shower
pressure")
Maintain a consistent flow rate
Learn more at WaterSense's
Showerheads web page at
www.epa.gov/watersense/showerheads.
Thermostatic Shutoff Valves
While waiting for water to heat up,
bathers may waste a lot of water before
they enter the shower. Thermostatic
shutoff valves (TSVs) slow water flow
down to a trickle after hot water arrives
until the user is ready. TSVs can be
installed on a showerhead or tub spout
diverterto reduce water waste before
showering.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-016
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

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I
*
Optional Water Efficiency Measure: May contribute to the 30
depending on the chosen WaterSense® Approved Certification
$
UNDERSTAND
Federal efficiency standards require kitchen faucets to
have a maximum flow rate of 2,2 gallons per minute (gpm)
or less at 60 pounds per square inch (psi) of water
pressure.
WaterSense does not have a specification that applies to
kitchen faucets. Instead, builders should look for models
certified to the national standard for faucets, ASME
A112.18.1 /CSA B125.1 Plumbing Supply Fittings.
Kitchen faucets are available in a wide variety of price
points and styles. For greater efficiency or to meet local
requirements, many models are available with maximum
flow rates of 1.5 to 1,8 gpm.
Some states have adopted kitchen faucet efficiency
standards, which can help guide kitchen faucet selection.
Some models of kitchen faucets can have a variety of
features that are useful to homeowners, such as different
spray functions and sensor or touch technology. See
Faucet Types at right for more information.
BUILD
SPECIFY and INSTALL kitchen faucets that have a flow
rate between 1.5 gpm and 1,8 gpm to save water
compared to the federal standard,
CHECK state efficiency standards to ensure kitchen
faucets meet local requirements. See Learn Local
Requirements at right for more information.
= | VERIFY
OBTAIN the makes and model numbers for all kitchen
faucets in a home and look up the rated flow rate.
VERIFY the maximum flow rate from each kitchen sink
faucet. Use a small bucket or attach a flow-measuring bag
to the faucet spout, turn on the water completely while
starting a stopwatch and, after 10 seconds, turn off the
water and check the volume of water collected.
*NOTE: Consult with the Home Certification Organization for
specific verification protocols.
percent water efficiency requirement,
Method (WACM).
Faucet Types
Spray Modes: Some faucets allow the
user to switch between a traditional
faucet flow and a spray stream to assist
with rinsing.
Pull-Down and Pull-Out: Some faucets
allow the flow direction to be manipulated
by pulling the faucet spout away from the
rest of the fixture using a flexible hose.
Both "pull-down" and "pull-out" designs
are common in the marketplace.
Sensor Technology: Some kitchen faucet
products are equipped with touch or no-
touch (sensor) technology that allows
activation without having to pull the
handle.
Learn Local Requirements
Some states and municipalities have set
more stringent efficiency standards,
requiring kitchen faucets to have a flow
rate below the federal 2.2 gpm standard.
However, in some cases, faucets are
allowed to be equipped with a temporary
"boost" mode to override the typical
operating flow and assist with quicker pot
filling or other volumetric needs. The
faucet is required to revert back to its
typical flow rate once it is turned off.
States that have adopted kitchen faucet
efficiency standards can be found on the
Appliance Standards Awareness Project
web page at https://appliance-
sta nd a rd s. org/p rod u ct/f a u cets.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-016
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

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Optional Water Efficiency Measure: May contribute to the 30 percent water efficiency requirement,
depending on the chosen WaterSense® Approved Certification Method (WACM),

UNDERSTAND
WaterSense recommends that dishwashers, including
those in common areas of multifamily buildings, be
ENERGY STAR® certified. These models use 3.2 gallons
of water per cycle (gpc) or less, which is at least 30
percent less than dishwashers meeting the federal
standard of 5.0 gpc.
ENERGY STAR certified models include several
innovations that reduce energy and water consumption
and improve performance. For example, dishwashers
with an auto-sensing cycle have a soil sensor that tests
how dirty dishes are throughout the wash and adjusts
the cycle to achieve optimum cleaning with minimum
water and energy use.
The ENERGY STAR criteria are based on specific energy
and water consumption levels. The maximum energy
consumption is measured in kilowatt hours per year
(kWh/year) and the maximum water consumption is
measured in gpc.
ENERGY STAR criteria vary based on standard or
compact-sized dishwashers.
BUILD
SPECIFY ENERGY STAR certified dishwashers and
confirm that they have been labeled by using the
ENERGY STAR Product Finder at
www.energystar.gov/productfinder/.
VERIFY
VERIFY the appliance's make, model, and water
consumption in gpc through either of the following:
o Refer to the product specification sheet,
o Search the ENERGY STAR Product Finder.
Advantages of ENERGY STAR
Dishwasher technology has improved
dramatically over the last decade, and new
ENERGY STAR certified models include
several innovations such as soil sensors,
improved water filtration, more efficient jets,
and dish rack designs that reduce energy and
water consumption and improve
performance.
A standard-sized ENERGY STAR certified
dishwasher can save homeowners about
3,800 gallons of water over its lifetime.
Using an ENERGY STAR certified dishwasher
can also result in notable water savings
compared to washing dishes by hand.

ENERGY STAR
Learn More
Check out the ENERGY STAR
Dishwashers web page at
www.energystar.gov/product
s/dishwashers for more
information.
*NOTE: Consult with the Home Certification Organization for specific verification protocols.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-016
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

-------
«
Optional Water Efficiency Measure: May contribute to the 30 percent water efficiency requirement,
depending on the chosen WaterSense® Approved Certification Method (WACM),

UNDERSTAND
WaterSense recommends that clothes washers,
including those in common-use laundry rooms of
multifamily buildings, be ENERGY STAR® certified.
These models have an integrated water factor (!WF) of
less than or equal to 4.3 gallons of water per cycle per
cubic foot capacity.
Different criteria can apply to residential clothes
washers depending on their capacity and whether they
are front-loading or top-loading washers.
ENERGY STAR uses thresholds for integrated modified
energy factor (IMEF) and IWF as criteria,
o IMEF is the energy performance metric. A higher
IMEF is indicative of a more energy-efficient
clothes washer,
o IWF is the water performance metric. It allows the
comparison of clothes washer water consumption
independent of clothes washer capacity. A lower
IWF is indicative of a more water-efficient model.
Front-load washers generally offer greater opportunity
to reduce water consumption.
Common-use areas in multifamily buildings might
have commercial clothes washers, which have
different criteria for earning the ENERGY STAR
certification, but still improve water efficiency.
BUILD
• SPECIFY ENERGY STAR certified clothes washers and
dryers and confirm that they have been labeled by
using ENERGY STAR Product Finder at
www.energystar.gov/productfinder/.
VERIFY
Front-Load or Top-Load: What's the
Difference?
Both types of clothes washers can be
effective and save water.
•	Front-loaders tumble clothes through a
small amount of water instead of rubbing
clothes against an agitator in a full tub.
•	Modern top-loader impeller washers have
a low-profile cone or disc, rather than an
agitator. Impeller washers are more
energy- and water-efficient compared to
agitator washers.
ENERGY STAR certified front-load washers
are about 25 percent more energy- and water-
efficient than top-load impeller washers.
However, both designs dramatically reduce
the amount of hot water used in the wash
cycle and the energy needed to heat that
water. ENERGY STAR certified clothes
washers also leave less moisture in the
clothes, which means less time and energy
required for drying.

ENERGY STAR
Learn More
Check out the ENERGY STAR
Clothes Washers web page at
www, e n e rgvsta r. gov/ p rod u ct
s/clothes washers for more
information.
• VERIFY the appliance's make, model, capacity, and IWF through either of the following:
o Refer to the product specification sheet,
o Search the ENERGY STAR Product Finder.
*NOTE: Consult with the Home Certification Organization for specific verification protocol.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-016
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

-------
Optional Water Efficiency Measure: May contribute to the 30 percent water efficiency requirement,
depending on the chosen WaterSense® Approved Certification Method (WACM).

UNDERSTAND
Efficient hot water delivery (HWD) systems provide hot water to fixtures faster, wasting less time, water,
energy, and money.
To design efficient HWD systems, minimize pipe run lengths and right-size pipe diameters.
Residential HWD systems come in a variety of design installation methods and materials. Some of the
most common are summarized in the table below.
HWD System Description
Trunk-and-branch systems have one or more
long, large diameter common flow main lines
(trunks) that run from the water heater to the
farthest fixture. "Branches" from the main trunk
supply hot water to different parts of the house,
and "twigs" provide hot water to individual
fixtures.
HWD System Schematic
Fixture Fixture
Fixture
Hot Water Heater
E
E
S Fixture
Fixture
Fixture
Core systems rely on a centrally located water
heater that can supply fixtures with individual
small-diameter pipes.
Fixture
Fixture
Hot Water Heater
Fixture
Fixture
Fixture
Whole-house manifold systems supply a
central manifold with a single, short, large-
diameter pipe and have small-diameter piping
running from the manifold to reach individual
fixtures.
Fixture	Fixture
Fixture Fixture
Manifold —
Fixture Fixture
— Hot Water Heater
Recirculation systems have a continuous loop
of hot water recirculating through the home by
means of a circulating pump. Ensuring the
recirculation is demand-activated (for example
by a push button or motion sensor) ensures
that recirculation does not unnecessarily
increase the energy used to heat water.
Fixture Fixture Fixture Fixture
Hot Water
Heater
Check Circulating
Valve Pump

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BUILD
•	DESIGN a hot water distribution system that meets the needs
of the homeowner and achieves performance by considering
the layout of the home and the most appropriate type of
piping for the system.
•	AIM to design and install a system that has the lowest volume
of water between the water heater and each end use
possible. A good target is 0.5 gallons or less between each
end use (e.g., shower, faucet).
•	COORDINATE verification of the HWD system by a
WaterSense home verifier, if possible, prior to installation of
drywall.
VERIFY
•	VERIFY the volume and time needed to detect a 10°F
temperature change by identifying the fixture farthest from
the hot water source. Place a bucket under the hot water
fixture, turn the hot water completely on, and use a
thermometer to record the starting temperature. Once the
water temperature has increased by 10°F, turn off the water.
Measure and record the volume of water collected.
•	CONFIRM that a demand-initiated recirculation pump has
been installed, if applicable.
*NOTE: Consult with the Home Certification Organization (HCO) for
specific verification protocols.
Energy-Saving Heat Pumps
Water heaters use about 20
percent of a home's energy.
Builders can install an
ENERGY STAR0 certified
heat pump water heater to
help reduce energy use
associated with heating
water. Visit the ENERGY
STAR Super-Efficient Water
Heater web page at
www.energystar.gov/produc
ts/energy star home upgra
de/super efficient water he
aterto learn more and find
eligible models.
Piping Materials
There are several choices for pipe
materials, although their selection may
be influenced by the type of system
being installed:
•	Trunk-and-branch and core
systems traditionally use copper
pipes but can use any type of
piping.
•	Whole-house manifold systems
use flexible piping, such as types
of cross-lined polyethylene (PEX).
•	Demand-initiated recirculation
systems can use any type of
piping.
Consider the effect of pipe diameter on
efficiency and performance of the
system. For example, smaller diameter
piping may be acceptable to deliver
water from the main supply line to
individual fixtures, whereas the main
line requires larger diameter piping to
ensure adequate flow.
Pipe insulation can further improve
HWD efficiency, as it reduces the
overall rate of heat loss from water
stored in the piping. Pipe insulation
with a minimum R value of R-3 should
be used.
Learn More
Check out WaterSense's Guide for
Efficient Hot Water Delivery Systems at
www.epa.gov/watersense/watersense-
labeled-homes-hot-waterto learn
about designing hot water delivery
systems to reduce wait times and
maximize water efficiency.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-016
resources for homes, visit www.epa.gov/waterserise/tools-and-resources.	July 2023

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«
Optional Water Efficiency Measure: May contribute to the 30 percent water efficiency requirement,
depending on the chosen WaterSense® Approved Certification Method (WACM),

UNDERSTAND
Water softeners are common household
appliances found in regions where hard water (or
water that contains higher amounts of dissolved
calcium or magnesium) is prevalent. Hard water
can cause scale to form on the inside of pipes,
water heaters, and other appliances and
equipment. Scale does not conduct heat well and
can reduce the flow of water through pipes and
fixtures. Hard water also reacts with soap to form a
sticky coating on skin and reduces soap's ability to
lather, which can make a bath, shower, or clothes
washer cycle less productive.
Cation exchange water softeners remove the
calcium and magnesium ions found in hard water
by exchanging them with sodium (or potassium)
ions in salts that include chloride. Once all the
ions are fully exchanged, the water softener
undergoes a regeneration process to flush the
system of excess ions so that the system is again
ready to soften incoming hard water.
Water softeners are not necessary in all homes.
They should only be considered in areas of
substantial hardness or where recommended by
appliance manufacturers, local health and safety
codes, and/or water utilities. Some jurisdictions
may limit the use of water softeners or have
requirements that must be met to minimize water
waste or preserve water quality.
The NSF/ANSI 44 Residential Cation Exchange
Water Softeners standard includes a voluntary
efficiency rating that requires softeners to use 5.0
gallons of water or less per 1,000 grains of
hardness removed.
Water softeners that use demand-initiated
regeneration are more efficient than water
softeners that function based on a fixed schedule.
Not Just Water Efficiency
When selecting a water softener to install in a
home, it's best to consider not just water
efficiency, but salt efficiency too. Salt efficiency
defines the hardness removal capacity of a water
softener and is measured in grains of hardness
removed per pound of salt.
Salt efficiency is important for two reasons. First,
greater salt efficiency reduces the amount of salt
that needs to be purchased and supplied to the
unit by the homeowner. Second, it decreases the
amount of sodium and chloride ions that are
discharged into the home's wastewater. Too
great a concentration of these ions can negatively
impact septic systems or affect the ability for the
community to meet water quality discharge limits
for sodium and chloride or reuse municipally
treated wastewater.

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ITI BUILD
•	AVOID installing water softeners when
water hardness levels do not indicate a
need for softening.
•	SPECIFY demand-initiated regeneration
systems that meet the voluntary
efficiency rating requirements of
NSF/ANSI 44. Select models with a
lower water consumption (i.e., gallons
per 1,000 grains of hardness removed)
and higher salt efficiency (i.e., grains of
hardness exchanged per pound of salt).
•	CONSIDER supplying softened water
only to a subset of fixtures or household
uses. For example, consider plumbing
the system to only soften hot water.
Likewise, outdoor water use, for
example, may not require softened
water. Reducing the demand on a water
softener will result in lower water
consumption and operating costs.
^=| VERIFY
•	OBTAIN the make and model number
for all water softeners.
•	REVIEW the manufacturer's product
specification sheet or product literature
to determine water efficiency and salt
efficiency.
Alternatives to Water Softeners
Technologies have been developed that provide alternatives
to traditional cation exchange treatment. Evidence suggests
that some of these devices can provide anti-scaling
treatment without the use of salt and reduce water
consumption from flushing the system. The links below
provide information on some of the alternatives.
•	University of Nebraska Extension Fact Sheet:
https://water.unl.edu/article/drinking-water-
wells/salt-free-water-softener-alternatives
•	City of Waterloo, Ontario, Information on Softener
Alternatives: https://watersoftenerfacts.ca/how-
softeners-work/#alternate
IAPMO/ANSI Z601 Standards for Scale Reduction Devices
was developed to evaluate whether softening devices or
other treatment devices effectively reduce scale. More
information about the standard can be found at
www.wqpmag.com/services/product-testing-
certification/article/10958980/testing-for-scale.
Learn More
Visit WaterSense's Cation Exchange Water Softeners web
page at www.epa.gov/watersense/cation-exchange-water-
softeners for more information.
*NOTE: Consult with the Home Certification Organization for specific verification protocols.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and
resources for homes, visit www.epa.gov/watersense/tools-and-resource;
EPA-832-F-23-016

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*
s
Optional Water Efficiency Measure: May contribute to the 30 percent water efficiency requirement,
depending on the chosen WaterSense® Approved Certification Method (WACM).
UNDERSTAND
Single-family residences typically have a single meter that is required by
the water utility or authority having jurisdiction (AHJ) for billing purposes.
However, this is not always the case. It is common for homes supplied
with onsite well water to not have a meter installed.
WaterSense encourages installation of water meters, even when not
required by the local water utility or AHJ, to help homeowners and
multifamily building managers understand and manage their water use.
Multifamily properties typically have a master meter for a
whole building or property, unless submetering of individual
units is required by the water utility or AHJ, or unless the
property plans to submeter each unit for billing purposes.
Individual metering or submetering for each unit in
multifamily buildings helps residents track their usage and
allows property managers to identify and manage issues
such as leaks in a specific unit.
Utility water meters are typically owned by the water utility
and are used to track water use from whole properties or
significant pieces of a property. To be separately metered,
each unit must represent a wholly separate plumbing system
attached to the main line. Submetering typically involves
using downstream meters to monitor distinct uses of water
or systems.
Work with the water utility or AHJ to identify the meter type
and size appropriate for the home or unit. Pursue reducing
the meter size to the extent possible, which often reduces
initial and ongoing charges from the utility. If a multifamily
building is pursuing submetering independent of a water
utility, it is important to select the correct type and size of
meter.
For multifamily buildings, meters and submeters can be
integrated into a centralized building management or billing
system, making it easy to track water usage and accurately
bill residents.
A dedicated irrigation meter might be appropriate for some
types of residential properties, such as single-family
residences with large landscapes, multifamily buildings,
homeowners associations with outdoor common space, or
Understand Local
Submetering Rules
Owners and operators of multifamily
properties should be sure to
understand the rules and regulations
related to submetering and resident
utility billing, as these can vary by
location. For example, some states or
local utilities may require the use of
submeters for individual units, whereas
other states require prior approval from
the responsible state agency or public
utilities commission before installing
submeters.
While WaterSense recommends water
metering and submetering wherever
feasible, another common strategy to
recoup water costs is through a Ratio
Utility Billing System (RUBS). Through a
RUBS program, a property owner is
able to allocate costs from a master
meter serving a multifamily property to
individual units, typically based on
square footage, occupancy, and/or
other factors.
To find out more regulations pertaining
to submetering or RUBS, contact your
state government, public utility
commission, or water utility.

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properties with access to reclaimed water for irrigation
purposes. These meters exclusively measure outdoor water
use and can be particularly helpful for evaluating outdoor
water efficiency.
BUILD
•	INVESTIGATE submetering during the early stages of
designing the plumbing system for multifamily properties.
Consider supplying each unit with a single pipe source for the
water to facilitate individual unit submetering, which is less
expensive than metering each source of water entering the
unit.
•	SELECT equipment that is best suited for the property. For
example, positive displacement meters may be well-suited
for residential applications, because they have high accuracy
at low flows and can precisely measure peak flows.
•	COMMUNICATE with the water utility or meter manufacturer
to select an appropriately sized meter, which depends on the
home's or unit's size, function, fixture types, anticipated
occupancy, and peak population. These statistics affect
minimum and maximum flow rates, which guide meter sizing.
•	FOLLOW the meter manufacturer's instructions for
installation.
•	INSTALL meters in an accessible location that is protected
from weather and potential damage (work with water utility as
appropriate).
•	AVOID installing the meter near pipe bends. Place the meter
where there is a length of straight pipe equivalent to at least
10 times the pipe diameter downstream of the meter and five
times the pipe diameter upstream of the meter.
•	INCLUDE a strainer on all meters and submeters to prevent
debris and sediment from damaging the device. An inline
strainer on the meter's inlet will prevent debris and sediment
from entering the meter body.
_EJ VERIFY
•	REVIEW building plans to identify water meter location(s).
•	CONFIRM that a meter or alternative for tracking water use is
installed for each unit in a multifamily building.
•	ENSURE that residents can easily access information from
the submeters.
*NOTE: Consult with the Home Certification Organization for
specific verification protocols.
Savings Potential
One national study on submetering of
multifamily buildings showed that
residents in submetered units used
approximately 15 percent less water
than residents in unmetered units.
Learn More
•	EPA's WaterSense at Work: Best
Management Practices at
www.epa.gov/watersense/best-
management-practices guide has
information on implementing
metering in commercial and
institutional properties, but much
of the information is also relevant
to multifamily buildings. Builders
and property managers may find
the document useful, especially
for tips on meter installation and
maintenance.
•	Pacific Northwest National
Laboratory's Water Metering Best
Practices guide at
www.pnnl.gov/publications/water
-metering-best-practices has
useful recommendations for
selecting a meter.
•	lAPMO's Water Demand
Calculator at
www, iapmo. o rg/wa te r-d e m a n d -
calculator/ can help right-size
plumbing systems based on
anticipated maximum flow rates.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-Q16
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

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4
Optional Water Efficiency Measure: May contribute to the 30 percent water efficiency requirement,
depending on the chosen WaterSense® Approved Certification Method (WACM).
UNDERSTAND
Leaks can be associated with toilet flappers, dripping faucets, irrigation lines, or many other sources.
Leak detection and flow monitoring systems are devices used to identify potential leaks in water
systems. If a leak is detected, these devices sound an alarm or send a notification to the homeowner,
helping to limit water waste and potential water damage.
Some insurance companies may provide premium discounts or credits for leak detection or flow
monitoring systems, particularly those connected to automatic shutoff devices.
These devices use a variety of technologies, have unique installation requirements, and offer different
features and benefits. It's important to consider priorities for a particular house/project in selecting the
appropriate leak detection device(s). See Potential Features of Leak Detection and Flow Monitoring
Devices on the next page.
BUILD
UNDERSTAND product limitations from the
manufacturer. Some products do not work under
certain conditions (e.g., under higher water pressure)
or with certain models of meters.
SELECT a device capable of monitoring for all water
use in the home. For example, if a home has an
irrigation system, select a device that can monitor for
indoor and outdoor water use or leaks.
FOLLOW the manufacturer's installation instructions.
If installing an in-line device, ensure the plumbing
design has enough pipe length to accommodate the
device and that the leak detection system is installed
in an area that is easily accessible.
ENSURE the device is installed such that it will not
interfere with fire sprinkler systems.
COMMUNICATE sign-up or subscription requirements,
if applicable, to the homeowner upon turnover of the home.
Make the Home System Ready
Not sure if the future homeowner will want a
leak detection device installed? Some
manufacturers of in-line systems offer pipe
spacers to ensure the plumbing system is ready
for easy installation of the device at a later time.
=A VERIFY
• CONFIRM the location and installation of leak detection devices.
*NOTE: Consult with the Home Certification Organization for specific verification protocols.

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Potential Features of Leak Detection and Flow Monitoring Devices
Monitoring Technology
•	Moisture-sensing devices use electrodes to detect water as it
appears in a designated area and sound an alarm or activate a
shut-off valve to notify homeowners when water is in a location
that is not intended, such as on the floor near a water-using
appliance or fixture.
•	Flow monitoring devices record water flow or water pressure in
pipes to detect irregularities. If irregular water use or pressure
changes are detected, the device notifies the homeowner and/or
activates an associated shut-off valve to prevent water waste or
damage.
Installation Requirements
•	In-line devices, which typically come with shutoff capabilities, are
more invasive and likely require a plumber to install within water
piping.
•	Moisture-detection or external flow monitoring devices are less
complicated to install.
•	Some systems integrate multiple technologies (e.g., separate
devices for moisture detection and flow monitoring) in a mesh
network to offer enhanced protection.
Area and Uses Being
Monitored
•	Some moisture detection and flow monitoring devices are focused
on a specific point of use, such as a toilet or water heater, while
others are installed at the point of entry to a home or unit to
monitor whole-house water consumption.
•	Some devices are specifically intended for indoor or outdoor water
use, while others can monitor water use in both areas.
Intervention Abilities
•	Some devices offer integrated shutoff capabilities or otherwise
activate a water shutoff valve.
•	Devices without shutoff abilities typically sound an alarm or send
a notification.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-016
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

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*
Optional Water Efficiency Measure: May contribute to the 30 percent water efficiency requirement,
depending on the chosen WaterSense® Approved Certification Method (WACM),

ITI
UNDERSTAND
Water pressure in supply main lines can reach 100 pounds per square inch (psi) or more. High water
pressure can damage plumbing piping, fixtures, and appliances, and can lead to increased water
consumption, premature equipment failure, and risk of leaks.
Most U.S. plumbing codes require pressure-regulating valves (PRVs, also called pressure regulators) on
domestic systems where the pressure of the supplied water exceeds 80 psi.
Single-family residences supplied by groundwater wells should use a pressure tank set at 60 psi. This
not only ensures optimal performance of the home and protects it from leaks, but conserves energy.
WaterSense recommends incoming service pressure to be between 45 and 60 psi to ensure efficient
use of water and proper system function. This water pressure is within the optimal pressure range for
water-using fixtures and appliances, while still reducing the amount of water used and risk to the
system compared to higher pressures.
BUILD
CONFIRM that service pressure does not exceed 80 psi
by consulting with the public water supplier.
INSTALL a PRV downstream of the point of connection to
the water source and set the PRV to limit pressure to
between 45 and 60 psi.
CONSULT local plumbing codes to see if thermal
expansion, which can occur from installing a PRV since it
creates a closed system, needs to be addressed.
MAINTAIN fire sprinkler systems in accordance with
state and local codes and regulations.
=1 VERIFY
• VERIFY the water pressure to the home or unit to
determine if the PRV, if installed, is set and working
correctly.
o Attach a pressure gauge to a hose bibb, the cold-
water faucet for the washing machine hookup, or a
cold-water faucet on the first floor. Turn on the water
to the fully open position,
o If the home has multiple water supplies (e.g., an
independent source for irrigation), verify the water
pressure from each supply.
Direct-Acting Valves
The most common type of water pressure-
reducing valve is a direct-acting valve,
which consists of a globe-type body with a
spring-loaded, heat-resistant diaphragm
connected to the outlet of the valve that
acts upon a spring. Water entering the valve
is constricted within the valve body and
directed through the inner chamber, which
is controlled by an adjustable spring-
loaded diaphragm and disc. The minimum
flow through a PRV should be between 10
and 15 percent of the maximum desired
flow rate. Select a regulator for which
operating pressures fall within the middle
of its rated range, not based on the size of
the pipe to which it will be attached.
Learn More
Visit the Building America Solution Center
at https://basc.pnnl.gov/resource-
guides/service-water-pressure to learn
more.
*NOTE: Consult with the Home Certification Organization for specific verification protocols.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-Q16
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

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This page is intentionally left blank.

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6
Optional Water Efficiency Measure: May contribute to the 30 percent water efficiency requirement,
depending on the chosen WaterSense® Approved Certification Method (WACM).
UNDERSTAND
When designing a landscape, consider factors such as
local climate, sun and shade, soil conditions, required
maintenance, and intended use to select appropriate
plants. Each area of a landscape may have a different
ability to support various plant species without the need
for supplemental water and fertilizers.
Once established, many drought-tolerant plants require
little water beyond normal rainfall. Because native
plants are adapted to local soils and climate, they are
more resistant to pests and diseases than other species.
See WaterSense's Landscaping Tips web page at
www.epa.gov/watersense/landscaDing-tiDS for more
information.
BUILD
SELECT plants that are defined as low water use or
drought-tolerant for your region. Use regionally
appropriate, low-water-using, and/or native plants.
These plant species are more likely to be able to survive
in the regional climate with minimal, if any, need for
supplemental watering. See WaterSense's What to Plant
web page at www.epa.gov/watersense/what-plant for
more information.
PLANT based on site conditions, such as soil type and
exposure to sun and wind. Grouping vegetation with
similar watering needs (i.e., hydrozoning) reduces water
use by providing plants with their ideal water
requirement.
Benefits of Water-Smart Landscaping
The benefits of designing a water-smart
landscape include:
•	Lower water bills from reduced water
use.
•	Conservation of natural resources and
preservation of habitats for plants,
pollinators, and other wildlife, such as
fish, birds, and waterfowl.
•	Reduced home heating and cooling
costs through the careful placement of
shade trees and shrubs.
•	Reduced runoff of stormwater and
irrigation water that carries topsoils,
fertilizers, and pesticides into lakes,
rivers, and streams.
•	Fewer yard trimmings to be managed or
landfilled.
•	Reduced landscaping labor and
maintenance costs.
•	Extended life for water resource
infrastructure (e.g., reservoirs,
treatment plants, groundwater
aquifers), which reduces taxpayer
costs.

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VERIFY
DETERMINE whether there is a landscape design for
the property. Use the design to confirm that the correct
species were planted in the intended locations.
CONFIRM that plants are suitable options given the
landscape and region, if the plants selected for the
design were not available at the time of installation.
*NOTE: Consult with the Home Certification Organization for
specific verification protocols.
Water-Smart Landscaping Tips for Turf
How and where turf is placed in the landscape can significantly reduce the amount of irrigation water needed
to support the landscape. Lawns require a large amount of supplemental water and generally greater
maintenance than other vegetation. Use turf where it has a practical function, such as in play or recreation
areas.
Grouping turf areas can increase watering efficiency and significantly reduce evaporative and runoff losses.
Select a type of grass that can withstand drought periods and become dormant during hot, dry seasons.
Reducing or eliminating turf areas altogether further reduces water use. See WaterSense's Landscaping Tips
web page at www.epa.gov/watersense/landscaping-tips for more strategies.
Xeriscaping for Arid Regions
A xeric environment is one that is very dry
and has little moisture. Xeriscaping is a
form of water-smart landscaping intended
for arid and semi-arid regions. It involves
selecting xeric plants that thrive in dry
conditions and require very little
supplemental watering. Incorporating
xeriscaping does not mean that the home
must be devoid of turf or other water-
intensive plants. Different areas can be
zoned for different plant types (and
irrigation requirements). For example,
xeriscaping can be incorporated at the
outer edge of the property, while a smaller
"oasis" zone intended for play and
recreation can be maintain closer to the
house. Locating the oasis on the north and
east sides of the house will ensure it
receives more shade, which reduces
irrigation requirements. To learn more,
check out New Mexico's Enchanted
Xeriscape Guide at
www.ose.state.nm .us/WUC/LearningXerisc
ape/XeriscapeGuide ScreenResolution.pdf.
Additional Resources
The following resources may help with addressing water
efficiency during landscape design and plant selection:
•	The WaterSense Water Budget Tool can help users plan
their landscapes and determine whether it will use an
appropriate amount of water for the climate
(www.epa.gov/watersense/landscape-water-budget-tool).
•	The Lady Bird Johnson Wildflower Center allows users to
search for native plants based on their state and other
parameters, such as light requirement
(www.wildflower.org/plants/).
•	The North American Native Plant Society has compiled
links for native plant societies in each state
(https://nanps.org/native-plant-societies/).
•	WaterSense's Water-Smart Landscapes guide includes
daily maintenance tips and step-by-step instructions for
achieving a water-efficient landscape
(www.epa.gov/system/files/documents/2Q21-12/ws-
outdoor-water-smart-landscapes.pdf).
•	WaterSense's Additional Outdoor Resources web page
offers more resources to reduce outdoor water use
(www.epa.gov/watersense/additional-outdoor-
resources).
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-016
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

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OUTDOOR FEATURES
Soil Manage
Mulching
*
Optional Water Efficiency Measure: May contribute to the 30 percent water efficiency requirement,
depending on the chosen WaterSense® Approved Certification Method (WACM).
ilk
ITI
UNDERSTAND
Healthy soil helps cycle nutrients, minimize runoff,
retain water, and absorb excess nutrients,
sediments, and pollutants.
Local jurisdictions may have post-construction soil
management requirements as part of their
storrnwater management programs.
Soil characteristics such as pH and composition
can help determine appropriate plant choice for a
water-efficient ya rd.
Slopes can be challenging because of the potential
for erosion and runoff, if slopes cannot be avoided,
consider installing plants with deeper root zones,
such as native groundcovers and shrubs, to
provide stabilization and prevent erosion. Ensure
that appropriate plantings are used, and that only
irrigation methods suitable for slopes are applied.
Soil amendments can be organic or inorganic. They
are mixed into the soil and help the soil retain
moisture so that less irrigation is needed. As a
result, soil amendments can result in short- and
long-term water savings and improve plant health.
Mulch can also be organic or inorganic. Organic
mulches include wood-based materials such as
wood chips, while inorganic mulches include rock-
based materials such as pea gravel or lava rock.
Mulching prevents water from evaporating from the
soil and, in the case of organic mulch, decays and
improves soil health over time.
BUILD
RETAIN and protect native topsoil and vegetation where practical. If soil needs to be removed,
stockpile and reuse it to restore disturbed soils.
MINIMIZE soil compaction during the construction phase. Soil can become compacted during
construction from equipment and foot traffic. Aerate soil with a lawn aerator to increase the infiltration
Benefits of Mulching
The benefits of mulching for maintaining healthy
soil include:
•	Preventing loss of water from the soil by
evaporation. Moisture moves to the surface
and evaporates if the soil is not covered by
mulch.
•	Maintaining a more uniform soil
temperature. The mulch acts as an insulator
that keeps the soil cool under intense
sunlight and warm during cold weather.
•	Preventing crusting of the soil surface.
Mulch improves absorption and percolation
of water into the soil and reduces erosion.
•	Improving soil structure. If using organic
material for mulch, as it decays, the material
becomes topsoil and can also add nutrients
to the soil.

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of water into the ground, thus improving water flow
to the plants' root zones and reducing water
runoff. See the Sustainable Development Code
web page at
https://sustainablecitycode.org/brief/reduce-soil-
compaction-during-construction-2/ for more
information on reducing soil compaction during
construction.
COLLABORATE with the landscape professional to
ensure that any steep slopes are planted correctly.
Choose plant types that will hold onto the soil, and
be mindful of irrigation system design, if
applicable. Work with the landscape professional to ensure that any material placed on the slope will
not move over time. This guidance primarily applies to slopes greater than four feet of horizontal run per
one foot of vertical rise (4:1, 25 percent or 14 degrees).
APPLY two to three inches of mulch to non-turf landscaped areas, such as those with shrubs, trees,
annuals, perennials, and/or groundcover. Avoid piling mulch against the stems of plants or the trunks
of trees to prevent rot.
AVOID using rock mulches in sunny areas or around non-arid climate plants, as they radiate large
amounts of heat and promote water loss that can lead to scorching.
Soil Test Kit
To determine soil health, the builder or
homeowners can have their soil tested for
nutrient content, pH, soil composition, and
organic matter content. Contact a local
Cooperative Extension Office at
www.nifa.usda.gov/land-grant-colleges-and-
universities-partner-website-
directory?state=All&type=Extension or state
university for a soil test kit or soil testing services.
= | VERIFY
CONFIRM that the soil has not been compacted
from construction activities by ensuring that the
soil is soft enough to push a shovel in and that
there are no signs of pooling or puddling of water in
low areas.
VERIFY that steep slopes are covered or planted
appropriately to ensure stability. This primarily
applies to slopes greater than four feet of
horizontal run per one foot vertical rise (4:1, 25
percent or 14 degrees). Verifiers can measure the
grade of slopes with tools such as a laser level or
clinometer.
MEASURE the depth of mulch in landscape beds
using a ruler or tape measure.
Learn More
Go to WaterSense's Landscaping Tips web page
at www.epa.gov/watersense/landscaping-tips to
learn more about strategies to improve and
maintain soil health.
The Sustainable Technologies Evaluation
Program also maintains a guide for preserving
and restoring healthy soils during construction at
https://sustainabletechnologies.ca/home/urban-
runoff-green-infrastructure/healthy-
soils/preserving-and-restoring-healthy-soil-best-
practices-for-urban-construction/.
*NOTE: Consult with the Home Certification Organization for specific verification protocols.

This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and
resources for homes, visit www.epa.gov/watersense/tools-and-resources
EPA-832-F-23-016
July 2023

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a
Optional Water Efficiency Measure: May contribute to the 30 percent water efficiency requirement,
depending on the chosen WaterSense® Approved Certification Method (WACM).
jIl
III
UNDERSTAND
Different landscape types can be watered most
efficiently with various types of irrigation
equipment. Spray irrigation is best suited for
turfgrass, as it can be designed to distribute water
evenly over uniform turfgrass areas. It is not
optimal for planted beds, since the varied heights
of shrubs and trees can obstruct the spray from
sprinklers. Spray sprinklers consist of a body and a
nozzle.
Spray sprinklers with excessive incoming pressure
can waste water due to misting, overspray, and
uneven coverage. This could also result in product
failure.
Pressure can be regulated by WaterSense labeled
spray sprinkler bodies, which have integral
pressure regulation, or with a pressure-regulating
valve on the irrigation system. These solutions
provide for consistent flow of water and ensure a
more uniform distribution of water on the
landscape.
WaterSense labeled spray sprinkler bodies are
certified to provide pressure regulation, resulting in
a consistent flow rate, in accordance with the
WaterSense Specification for Spray Sprinkler
Bodies.
To maximize water efficiency, ensure the irrigation system has matched precipitation nozzles. A spray
sprinkler nozzle's precipitation rate is the speed at which water is applied to a specific area of the
surrounding landscape.
BUILD
SPECIFY models of spray sprinkler bodies that have earned the WaterSense label, using the
WaterSense Product Search Tool at www.epa.gov/watersense/product-search for reference.
WORK with an irrigation professional certified by a WaterSense labeled program (found at
www.epa.gov/watersense/findapro) to design and install the irrigation system.
INSTALL either WaterSense labeled spray sprinkler bodies or a pressure-regulating valve to maintain
recommended operating pressure.
What Is Matched Precipitation?
When all spray sprinkler nozzles within the
zone/system have the same precipitation rates,
they are said to have "matched precipitation."
Designing a system with matched precipitation
rate heads/nozzles can save water by ensuring
that all areas of the landscape are watered at the
same rate. This limits brown spots and prevents
the homeowner from applying extra water to
alleviate those brown spots.
Other Water-Saving Features
In addition to integral pressure regulation,
sprinkler bodies may have optional features such
as flow reduction capabilities, integral check
valves, and attributes to indicate reclaimed water
use. Flow reduction prevents water from flowing
when a sprinkler is broken or damaged. An
integral check valve prevents water from flowing
out of the system at lower elevations. Both are
beneficial for operating an efficient irrigation
system.

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SPECIFY and INSTALL spray sprinkler nozzles with
matched precipitation to deliver enough water to
cover the entire area of the landscape. This is
especially important when a landscape has
sprinklers with varying coverage (e.g., half- and
quarter-arc sprinklers).
o Ensure matched precipitation throughout each
spray irrigation zone by installing nozzles from
the same model family produced by the same
manufacturer. For matched precipitation,
sprinkler spacing must be consistent, flow rates
must be based on coverage, and the pipes need
to deliver water at a uniform pressure to each
sprinkler.
o See "What Is Matched Precipitation?" on the previous page for more details.
ENSURE that spray sprinkler bodies have a four-inch or greater pop-up height, as they need a certain
amount of clearance over the turfgrass surface to operate correctly.
AVOID using turfgrass and spray irrigation on strips less than four feet wide, because it is difficult to
irrigate narrow strips efficiently without creating overspray.
RESTRICT installation of spray irrigation on slopes in excess of four feet of horizontal run per one foot
vertical rise (4:1 or 25 percent), because the flow rates associated with sprinklers are often a source of
runoff on steep slopes.
VERIFY
CONFIRM that spray sprinkler bodies are WaterSense labeled. Use the WaterSense Product Search
Tool at www.epa.gov/watersense/product-search to search for the makes and model numbers for all
spray sprinkler bodies installed in the landscape.
VERIFY that pressure-regulating valves are regulating to the appropriate operating pressure
recommended for the spray sprinkler nozzles, if applicable.
IDENTIFY whether spray sprinkler nozzles have matched precipitation using manufacturer
specification sheets or other literature. Verifiers can suggest changes that can help achieve matched
precipitation.
CHECK that the station or zone pressure is within
plus or minus 10 percent of manufacturer-
recommended operating pressure for the installed
product (e.g., spray sprinkler body and nozzle).
Verifiers can test a representative zone of the
irrigation system.
Learn More
Visit WaterSense's Spray Sprinkler Bodies
web page at www.epa.gov/watersense/spray-
sprinkler-bodies to learn more.
*NOTE: Consult with the Home Certification Organization for specific verification protocols.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-016
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

-------
Optional Water Efficiency Measure: May contribute to the 30 percent water efficiency requirement,
depending on the chosen WaterSense Approved Certification Method (WACM),
£
UNDERSTAND
The term "microirrigation" describes a type of irrigation that applies water to the root zone of plants at a
lower flow rate. Some examples of microirrigation devices include drip line emitters, point-source
emitters, multiple outlet emitters, and microsprays.
Microirrigation systems use 20 to 50 percent less water than conventional sprinkler systems.
Microirrigation requires additional components to ensure the system operates efficiently. At a
minimum, microirrigation systems should be equipped with the following components:
o Pressure regulators to maintain the lower pressure required for microirrigation;
o Filters to keep emission devices free from debris; and
o Flush end assemblies to flush the laterals after the end of an irrigation cycle.
BUILD
•	WORK with a certified irrigation professional to ensure
that a microirrigation system is designed and installed
properly. Certified irrigation professionals are
experienced in the design and installation of
microirrigation, as it takes expertise to ensure an
efficient system. Find out more about professionals
certified by a WaterSense labeled program at
www.epa.gov/watersense/irrigation-pro.
•	INSTALL microirrigation on separate zones from the
rest of the irrigation system if standard spray sprinklers
are used in other parts of the landscape.
•	INCLUDE pressure-compensating drip if using drip
irrigation. These products help deliver a constant flow
rate over a range of pressures and are intended for
landscapes with wide fluctuations in elevation,
topography, and pressures.
•	ENSURE that the microirrigation system is properly
equipped with the additional system components (i.e.,
pressure regulators, filters, and flush end assemblies).
VERIFY
WaterSense Resources
WaterSense has developed two guides to
help irrigation professionals and
homeowners understand the benefits of
microirrigation.
•	Adding Microirrigation to Your Services: A
Mini-Guide for Irrigation Professionals
explains how designing, installing, or
retrofitting an existing system with
microirrigation can help customers save
water and enhance plant health.
•	Saving Water With Microirrigation: A
Homeowner Guide describes the types
of landscapes where microirrigation
works best and suggests how to work
with an irrigation professional to design
and install a system.
To find these guides and learn more visit
WaterSense's Microirrigation web page at
www.epa.gov/watersense/microirrigation.
• CONFIRM that the station or zone pressure is within ±10 percent of manufacturer-recommended
operating pressure for the emission device or product being used. Verifiers can test this on a
representative zone of the microirrigation system.
*NOTE: Consult with the Home Certification Organization for specific verification protocols.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-016
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

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Handoff Tips for the Homeowner
Maintenance is essential for a rain
sensor to function properly. This may
include replacing batteries at specified
intervals, removing debris from the rain
sensor, and ensuring that the connection
(wired or wireless) is working correctly.
Builders should communicate the
manufacturer's recommended
maintenance procedures.
•	MOUNT the rain sensor in an open area where it is exposed
to rainfall, such as on top of a fence or on the eaves of an
existing structure, not impeded by overhangs, foliage,
gutters, or other obstructions.
•	INSTALL the rain sensor outside all irrigation zones, as
water from the sprinklers could trigger the sensor.
•	WORK with an irrigation professional who can help ensure
that a rain sensor is included within the irrigation system
design and installed properly.
•	REFERENCE the WaterSense Labeled Controllers web
page at www.epa.gov/watersense/watersense-labeled-
controllers for information on WaterSense labeled irrigation
controllers to pair with the rain sensor. All labeled
controllers are required to be able to wirelessly connect to
the rain sensor.
VERIFY
•	CONFIRM that a rain sensor is installed in an open area with access to open sky and rain, and that the
device is properly connected to the irrigation controller.
•	TEST the device by using a hose to spray at the rain sensor while one of the nearby irrigation zones is
running to confirm that the sensor will interrupt irrigation. Some controllers require a particular mode to
properly test the sensor. Check the controller model user manual for details. If the sensor doesn't shut
the irrigation system off after a few minutes, let the builder or system installer know to fix the problem.
*NOTE: Consult with the Home Certification Organization for specific verification protocols.
Learn More
Learn more about reducing outdoor
water use at WaterSense's Watering Tips
web page at
www.epa.gov/watersense/watering-tips.
Optional Water Efficiency Measure: May contribute to the 30 percent water efficiency requirement,
depending on the chosen WaterSense® Approved Certification Method (WACM).
UNDERSTAND
•	Rain sensors, or rainfall shutoff devices, are products
designed to interrupt a scheduled irrigation event when a
certain amount of rain has fallen. They prevent an
automatic sprinkler system from turning on until the water
has evaporated from the sensor, or for a predetermined
amount of time, depending on the technology.
•	Rain sensors operate by measuring rainwater by weight or
electrical conductivity or measuring the proportional
expansion of water-sensitive materials like cork disks.
•	Some states, such as Florida, Georgia, and New Jersey,
require these devices by law.
ik
BUILD
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-016
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

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a
Optional Water Efficiency Measure: May contribute to the 30 percent water efficiency requirement,
depending on the chosen WaterSense® Approved Certification Method (WACM).
ilk
III
UNDERSTAND
WaterSense labels two types of irrigation
controllers:
o Weather-based irrigation
controllers (WBICs) use local
weather and landscape conditions to
tailor watering schedules. WBICs can
obtain weather data from onsite
weather sensors and/or signals from
local weather stations,
o Soil moisture-based irrigation
controllers (also known as soil
moisture sensors or SMSs) monitor
moisture levels in the soil to prevent
irrigation when water is not needed.
An SMS is comprised of a sensor
mechanism (which stays in contact
with the soil and measures the
amount of moisture) and an interface
device (which communicates the
reading from the sensor mechanism
to the controller).
Both types of WaterSense labeled
controllers can be purchased as stand-
alone controllers. They can also be
purchased as an "add-on" or "plug-in"
device that can upgrade a clock-based
controller.
The diagram at right illustrates the
difference between the two irrigation
controllers.
BUILD
SPECIFY and INSTALL a WaterSense
labeled WBIC or SMS. Use the
WaterSense Product Search Tool at
www.epa.gov/watersense/product-
search for reference.
Real-World Results
Read WaterSense's reports on weather-based irrigation
controllers (www.epa.gov/sites/default/files/202Q-
05/documents/ws-products-irrigation-outdoor-wbic-mini-
report.pdf) and soil moisture-based irrigation controllers
(www.epa.gov/sites/default/files/2021-04/documents/ws-
outdoor-products-sms mini-report.pdf) to learn more
about how the products function, guidelines for
programming, and how to help homeowners maintain
long-term water savings. They can also help a builder,
irrigation professional, or homeowner decide which type
of WaterSense labeled irrigation controller is best for the
landscape.

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WORK with an irrigation professional certified by a WaterSense labeled program to install the irrigation
controller. These individuals are trained to install these devices and program them to work properly.
Use WaterSense's Find a Pro tool at www.epa.gov/watersense/find-pro to find a certified professional
in your area.
If installing an irrigation controller yourself, use the following guidelines:
o FOLLOW the manufacturer's installation
instructions found in product packaging or
online. Manufacturers may also provide training
on installation and operation through irrigation
distributors or retailers,
o PROGRAM the controller as described in the
instructions. Note that that the initial period of
landscape establishment may require more
water, but the device should be reprogrammed
for water efficiency once plants are established,
o MONITOR the landscape after initial installation
fo r seve ra I wee ks to loo k fo r d ry o r ove rly wet
areas. Adjust the controller accordingly,
o ENSURE that the sprinklers are working properly and there is no overspray onto adjacent areas. The
irrigation controller will not provide expected savings if sprinklers are malfunctioning,
o PROVIDE information to the resident on properly programming the irrigation controller from the
manufacturer or from WaterSense's Watering Tips web page atwww.epa.gov/watersense/watering-
tips.
There are additional installation considerations for soil moisture sensors:
o INSTALL the sensor in the area of the landscape that requires the most frequent irrigation (e.g., turf
with minimal shade). Place the sensor mechanism in the root zone of the plants,
o USE more than one sensor mechanism for large landscapes. Place each sensor in a separate
irrigation zone,
o CALIBRATE the sensor mechanism according to the manufacturer's recommendations,
o ENSURE that the SMS and rain sensor are wired in series (as opposed to in parallel), if a rain-
sensing device is also installed. See the WaterSense report on SMSs at
www.epa.gov/sites/default/files/2021-04/documents/ws-outdoor-products-sms mini-report.pdf
for more details on installation.
VERIFY
CONFIRM that the irrigation controller is WaterSense
labeled. Use the WaterSense Product Search Tool at
www.epa.gov/watersense/product-search to confirm
that the irrigation controller installed has earned the
WaterSense label.
CHECK for signs the landscape is being over- or
under-watered by looking for soggy areas, brown
spots, or wilted plants. Work with the builder or irrigation professional to adjust the irrigation controller.
*NOTE: Consult with the Home Certification Organization for specific verification protocols.
Image courtesy of Rachio
Learn More
Go to the WaterSense Labeled
Controllers web page at
www.epa.gov/watersense/watersense-
labeled-controllers to learn more.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-016
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

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»
Optional Water Efficiency Measure: May contribute to the 30 percent water efficiency requirement,
depending on the chosen WaterSense® Approved Certification Method (WACM).
UNDERSTAND
It is essential to properly design and install a
landscape irrigation system for optimal water
efficiency.
WaterSense has labeled certification programs for
irrigation professionals in three categories: system
designers; installation and maintenance
professionals; and auditors. These individuals
have passed a comprehensive exam covering
general irrigation subjects, as well as specialized
areas related to water efficiency.
Certified irrigation professionals can address the
following topics:
o Design: Customize the irrigation system to suit
the landscape and local climate conditions,
o installation, maintenance, and repair: Select
and service the appropriate equipment and site
layout. Schedule the irrigation system to
optimize performance,
o Audit: Examine the irrigation system to ensure
that it performs efficiently.
BUILD
Benefits and Real-World Results
irrigation professionals certified by WaterSense
labeled programs help save water and maintain
healthy and beautiful landscapes across the
country by maximizing the efficiency of an
irrigation system. WaterSense's Certified
Professionals in Action web page at
www.epa.gov/watersense/certified-
professionals-action showcases these
professionals and describes the benefits of their
expertise. Check out the stories to learn how a
certified professional can help your property save
water.
CONTRACT with an irrigation professional certified
by a WaterSense labeled program to design and
install the irrigation system. Identify certified professionals using WaterSense's Find a Pro tool at
www.epa.gov/watersense/find-pro or. if one is not available in your area, look for a professional who
has other training or professional certifications that address water efficiency or sustainable
landscaping,
ASK potential irrigation professionals Questions to evaluate their knowledge of water-efficient
www.epa.gov/sites/default/files/2017-01/documents/ws-outdoor-questions-for-landscape-
contractors.pdf when engaging in these conversations. For example, ask contractors about minimizing
water waste in the landscape and listen for some of the following suggestions:

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o CHECK sprinklers for breaks or leaks. Ensure that
water is being delivered to its intended destination,
o TEST the irrigation system to ensure the zones are
programmed correctly,
o CREATE an irrigation schedule that can be easily
adjusted by season.
SCHEDULE an irrigation audit by a certified irrigation
professional after an irrigation system has been
installed.
VERIFY
CONFIRM whether an irrigation professional certified
by a WaterSense labeled program was used for
irrigation system:
o Design
o Installation and controller scheduling/programming
o Auditing
USE the Find a Pro tool at
www.epa.gov/watersense/find-pro to verify
credentials.
*NOTE: Consult with the Home Certification Organization for
specific verification protocols.
Learn More
Visit WaterSense's Irrigation with Pro web page
at www.epa.gov/watersense/irrigation-pro to
learn more about irrigation professionals certified
through WaterSense labeled programs.
Bnl
Multifamily Makeovers
Certified irrigation professionals can provide
tailored advice to property managers at
multifamily complexes, which have different
considerations than single-family
residences:
•	Homeowners association: The
residential community of Harvest Gold
Village in Loveland, Colorado
implemented the recommendations of a
certified professional to save more than
$22,500 in water bills in the first year of
the project. To learn more, read the case
study at
www.epa.gov/sites/default/files/2021-
06/documents/ws-commercial-
outdoor-casestudy-harvest-gold-case-
study.pdf.
•	Apartment complex: The La Paloma
Apartments in Albuquerque, New
Mexico, used the results of a landscape
audit conducted by certified
professionals to update its irrigation
system and, along with other water
efficiency upgrades, saved over five
million gallons of water in the first year.
To learn more, read the case study at
www.epa.gov/sites/default/files/2021-
03/documents/ws-outdoor-la-paloma-
case-study.pdf.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and
resources for homes, visit www.epa.gov/watersense/tools-and-resources.
EPA-832-F-23-016
July 2023

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«
#
Optional Water Efficiency Measure: May contribute to the 30 percent water efficiency requirement,
depending on the chosen WaterSense® Approved Certification Method (WACM).
UNDERSTAND
Thoughtful residential swimming pool design can
help save pool owners water, energy, and money.
To increase water efficiency, consider addressing
issues related to evaporation, water quality, leaks,
or pool usage.
Providing a pool cover and installing a more water-
efficient pool filter are the two most effective ways
to reduce swimming pool water usage.
BUILD
Design and Maintenance Guide for Pools
WaterSense's Jump Into Pool Water Efficiency
guide at
www.epa.gov/system/files/docurnents/2022-
09/ws-outdoor-pool-guide.pdf for residential pool
owners and maintenance professionals explains
how to achieve water efficiency in residential
swimming pools. It includes details on using a
pool cover, selecting the most appropriate filter
type, and improving energy efficiency. The guide is
a great resource for anyone responsible for
installing, designing, or maintaining a pool.
Learn more about water efficiency for pools at
WaterSense's Pool Water Efficiency web page at
www.epa.gov/watersense/pool-water-efficiency.
SELECT a high-performance filter that minimizes
or eliminates water consumption from
backwashing. Filter backwash, in which water is
sent backwards through a filter to remove debris,
can account for up to a quarter of pool water
consumption. Filters with less frequent backwash
will help reduce water waste. Cartridge filters are
the most water-efficient because they do not
require backwashing. Diatomaceous earth (DE) or
glass filters also reduce water usage compared to
commonly used sand filters. Install a pressure
gauge with the filter to help indicate when
backwashing is necessary.
INSTALL a separate water meter to help
homeowners and multifamily property owners
actively monitor pool water consumption and
identify potential leaks.
DESIGN the pool to easily accommodate a pool cover and associated equipment for employing the
pool cover (e.g., reels, motors). Covering a pool during periods of inactivity will reduce water loss due to
normal evaporation.
PLAN landscaping surrounding the pool to reduce evaporation. Landscaping or other physical barriers,
such as stone walls or fencing, can increase wind protection. Increasing shade through landscaping
can also keep the pool cooler. Be sure to select plants that do not contribute more debris to the pool.
INSTALL a gutter or grate system to catch water from splashing or drag-outs and return it to the pool.
t ' ¦

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VERIFY
Ornamental Water Features
•	CONFIRM that there are no wet spots around the
pool or air bubbles in the water return pipeline or
in the pump strainer. Wet spots or bubbles are a
sign of leakage from the pool liner, the pump seal,
pool piping, the pool-to-pipe connection, pool
edges, or pipe joints.
•	VERIFY that a pool cover is installed.
•	IDENTIFY the type of pool filter that is used.
*NOTE: Consult with the Home Certification
Organization for specific verification protocols.
Ornamental water features can be more water-
efficient by following some basic guidelines.
Water features should recirculate water from the
feature itself and serve a beneficial use such as
wildlife habitat, stormwater management, and/or
noise reduction. The water consumption of an
ornamental water feature can be reduced if
smaller pumps, lower pumping rates, and/or
pressure-reducing valves are used to reduce
water flow. The higher the water flow, the more
water wasted due to evaporation. If the water
feature includes cascading water, select one that
falls down, rather than shoots up, to minimize
evaporation. Placing the water feature in a shady
area further reduces evaporation.
Recirculating the water reduces the amount of
potable water used in an ornamental feature and
helps to prevent algae growth in the feature. Two
types of pumps are available for recirculating
water—submersible pumps and surface (or line)
pumps, which are more expensive and require
extra plumbing.
Pool Covers
WaterSense estimates that, depending on climate, an uncovered 500-square-foot swimming pool could lose
between 12,000 and 31,000 gallons of water per year due to evaporation, with this number being even higher
for heated pools. Pool covers are the most effective method of reducing water loss from evaporation. When in
use, solid pool covers can reduce evaporation by more than 90 percent and, in the case of heated pools, save
between 50 and 70 percent of pool heating costs.
Type
Effectiveness at
Reducing Evaporation
Can It Serve
as a Safety
Cover?
Additional Information and
Considerations
Solid/mesh/hybrid
Up to 95 percent
Yes
Mesh covers are lighter weight than
solid covers but allow more
evaporation to occur.
Solar (bubble cover,
solar rings, thermal)
50 to 95 percent (varies
based on shape and
coverage)
No
Solar covers are designed to use the
sun's energy to heat the pool.
Liquid evaporation
suppressant
15 percent
No
Non-toxic, chemical evaporation
suppressant is applied to the pool
surface on a regular basis.
This technical fact sheet is part of EPA's Technical Reference Manual for
WaterSense Labeled Homes. For the full document and other tools and	EPA-832-F-23-016
resources for homes, visit www.epa.gov/watersense/tools-and-resources.	July 2023

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WaterSense Labeled Homes
Technical Reference Manual
Section 5: Additional Resources
WaterSense provides additional resources to help interested parties understand and
pursue home water efficiency indoors and outdoors. Check out the following materials for
more information on different topics. Please refer to the technical fact sheets in Section 4:
Features of Water-Efficient Homes for more information about water-efficient products
and designs for WaterSense labeled homes.
WaterSense Labeled Homes Program
•	Tools and Resources (www.epa.gov/watersense/tools-and-resources)
o WaterSense Labeled Homes Introductory Guide
o WaterSense labeled homes across the United States regional fact sheets
•	Home Specification Fact Sheets (www.epa.gov/watersense/homes-specification)
o WaterSense Labeled Homes Program: Program Overview fact sheet
o WaterSense Labeled Homes Program: Ensuring Homes Deliver on Efficiency
fact sheet
•	Buying and Selling (www.epa.gov/watersense/buying-and-selling)
o A Smart Investment With WaterSense brochure
o WaterSense Labeled Homes Program: Provide Water Savings That Perform
fact sheet
•	Homes Certification (www.epa.gov/watersense/homes-certification)
Indoor Water Efficiency
•	WaterSense Labeled Toilets (www.epa.gov/watersense/residential-toilets)
•	WaterSense Labeled Showerheads (www.epa.gov/watersense/showerheads)
•	WaterSense Labeled Bathroom Faucets (www.epa.gov/watersense/bathroom-
faucets)
•	Hot Water Distribution Products and System Design Solutions
(www.epa.gov/watersense/watersense-labeled-homes-hot-water)
•	Cation Exchange Water Softeners (www.epa.gov/watersense/cation-exchange-
water-softeners)
•	Fix a Leak Week Resources (www.epa.gov/watersense/fix-leak-week)
o Detect and Chase Down Leaks checklist
•	ENERGY STAR Product Finder (www.energystar.gov/productfinder/)
Outdoor Water Efficiency
•	Landscaping Tips (www.epa.gov/watersense/landscaping-tips)
o Water-Smart Landscapes Start With WaterSense guide
July 2023
5-1

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WaterSense Labeled Homes
Technical Reference Manual
•	Irrigation with a Pro (www.epa.gov/watersense/irrigation-pro)
•	WaterSense Labeled Controllers (www.epa.gov/watersense/watersense-labeled-
controllers)
o Is Your Watering Under Control? brochure
•	WaterSense Labeled Spray Sprinkler Bodies (www.epa.gov/watersense/spray-
sprinkler-bodies)
•	Microirrigation (www.epa.gov/watersense/microirrigation)
o Adding Microirrigation to Your Services: A Mini-Guide for Irrigation
Professionals
o Saving Water With Microirrigation: A Homeowner Guide
•	Sprinkler Spruce Up (www.epa.gov/watersense/sprinkler-spruce-up)
o Find It, Flag It, Fix It: A Checklist for Your Landscape
•	Pool Water Efficiency (www.epa.gov/watersense/pool-water-efficiency)
o Jump Into Pool Water Efficiency
General Water Efficiency Topics
•	Multifamily Resource Guides (www.epa.gov/watersense/water-score-multifamily-
housing)
•	Best Management Practices for Commercial and Institutional Facilities
(www.epa.gov/watersense/best-management-practices)
o WaterSense at Work: Best Management Practices for Commercial and
Institutional Facilities
•	Case Studies (www.epa.gov/watersense/case-studies)
There are additional federal programs and resources that can help guide builders in
designing and constructing energy- and water-efficient homes.
•	U.S. Department of Energy's Building America Solutions Center
(https://basc.pnnl.gov/)
•	ENERGY STAR (www.energystar.gov/)
•	U.S. Department of Energy Zero Energy Ready Home Program
(www.energy.gov/eere/buildings/zero-energy-ready-home-program)
July 2023
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Disclaimer
This document was prepared as an account of work sponsored by the United States
Government. While this document is believed to contain correct information, neither the
United States Government nor any agency thereof, nor any of their employees, makes any
warranty, express or implied, or assumes any legal responsibility for the accuracy,
completeness, or usefulness of any information, apparatus, product, or process
disclosed, or represents that its use would not infringe privately owned rights. EPA hereby
disclaims any liability for damages arising from the use of the document, including,
without limitation, direct, indirect, or consequential damages including personal injury,
property loss, loss of revenue, loss of profit, loss of opportunity, or other loss. Reference
herein to any specific product, process, or service by its trade name, trademark,
manufacturer, or otherwise does not necessarily constitute nor imply its endorsement,
recommendation, or favoring by the United States Government nor any agency thereof.
The views and opinions of authors expressed herein do not necessarily state or reflect
those of the United States Government nor any agency thereof.
*>EPA
United States Environmental Protection Agency
(4204M)
EPA 832-F-23-016
July 2023
www.epa.gov/watersense
(866) WTR-SENS (987-7367)

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