Integrating Water Efficiency into Land Use Planning: A Guidebook for Local Planners

Published: September 3, 2019

This Guidebook provides hundreds of techniques, sample codes/policies, and community examples that explain how to reduce the water footprint of new development. Each chapter in the guidebook provides water efficiency policy options in a different planning stage: comprehensive plans, zoning code, subdivision regulations, site-plan regulations, development agreements, non-zoning incentives, and more. The Guidebook is targeted to land use planning professionals but written in an accessible manner for water professionals and other interested parties as well.

Topics: Water and Land Use Planning | Geographical Focus: Urban, National | Author: Western Resource Advocates | Published Date: November 2, 2018

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The Drainline Transport of Solid Waste in Buildings

Published: July 18, 2019

The Plumbing Efficiency Research Coalition (PERC) released The Drainline Transport of Solid Waste in Buildings report in November 2012.  The study provided important insights into the performance of long buildings building drains that can be found in commercial buildings, and highlighted needs for future research.  This page provides an overview and links to download the final report and associated materials.

PERC was formed in January 2009 through a Memorandum of Understanding (MOU) to develop research projects that support the development of water efficiency and sustainable plumbing products, systems and practices.  Projects are financed through government grants, foundations and private financing.  The Coalition is comprised of industry organizations seeking to conduct much-needed research in a number of areas.  PERC identified drainline transport as its first research project.

In January 2011, PERC signed a MOU with the Australasian Scientific Review of Reduction of Flows on Plumbing and Drainage Systems Committee (ASFlow) at the offices of the U.S. Environmental Protection Agency (EPA).  The MOU details several areas of collaboration between the groups to ensure that research efforts are not duplicated and that information and results are shared.  ASFlow has also studied the impact of reduced water flow in sanitary drainage systems.

After the parameters of the project were defined, the coalition began seeking funding.  Many funders stepped up to the plate and are listed at the bottom of the page.  American Standard generously provided space and a drainline testing apparatus at its Product Development Design Center in Piscataway, New Jersey.  The test procedure consisted of 40 test runs with each run consisting of 100 flushes from a surge injector.  The surge injector was used to provide the required flush volume 0.8, 1.28, or 1.6 gallons (3.0, 4.8, or 6.0 liters ), flush rate, and percent trailing water. 

Project Outcomes

The results of the study demonstrate how changes in variables such as flush volume, toilet paper, and pipe slope impact drainline function.   Due to the uncertainty surrounding the use of high-efficiency toilets (HETs) in nonresidential buildings, many municipalities were hesitant to move forward with programs that would replace inefficient toilets with HETs for the commercial sector.  Organizations like AWE could not recommend the use of HETs in commercial buildings with confidence, and WaterSense® did not pursue a specification for commercial HETs.  Based on the findings of the study, the PERC Technical Committee recommended that WaterSense® should, “expand their specification on toilets to include commercial flushometer-valve operated HETs.”

Key findings:

  • Percent trailing water and flush rate were found to be non-significant variables.
  • The 5 gallon clearing flush failed to clear drainlines in 7 of 39 test runs and is not a recommended low cost solution at the frequency levels used in the study.
  • Pipe slope was identified as a significant variable impacting drainline carry.
  • Toilet paper was identified as an important variable, specifically the wet tensile strength.
  • Flush volume was identified as a significant variable.
  • 0.8gpf (3.0 Lpf) flush volumes  were evaluated and the results indicate that  they may be, “problematic in commercial installations that have long horizontal drains and little or no additional long duration flows available to assist the toilet in providing drainline transport of solids.”
  • The results identified a possible inverse effect of the slope test variable at the 0.8 gallon (3.0 L) test run level.

 

WaterSmart Guidebook for New Businesses

Published: July 1, 2019

The East Bay Municipal Utility District (EBMUD) has developed the WaterSmart Guidebook: A Water Use Efficiency Plan and Review Guide for New Businesses to provide information on water saving technologies applicable in the commercial, industrial, and institutional sectors. This guidebook is intended for use as a resource by:

  • existing and new businesses
  • developers, consultants, and designers
  • planning agencies; and
  • water providers (for plan review and/or for reviewing and estimating water use at existing businesses, respectively)

Sincere Thanks to EBMUD

The Alliance for Water Efficiency wishes to thank the East Bay Municipal Utility District for granting permission to post this tremendous guidebook on our website.

 

Drainline Transport of Solid Waste in Buildings

Published: March 26, 2016

The Plumbing Efficiency Research Coalition (PERC)  announced the publication of the Phase 2.1 supplemental report on the drainline transport of solid waste in building drains. The Phase 2.1 report details the findings from additional work the Coalition was able to conduct using remaining funds carried over from the PERC 2.0 research study. The Drainline Transport of Solid Waste in Buildings – Phase 2.0 was originally released in September of 2015. The PERC 2.1 findings appear as a new appendix to the PERC 2.0 report.

The Phase 2.1 supplemental report focuses on two previously unaddressed areas of study — the implications surrounding dual flush toilet discharge patterns, comparing results to single volume flush toilets of comparable flush volume, and on the impact of drainline slope deviations on the transport of solid waste.

 

Increasing Water Efficiency in California’s Commercial, Industrial, and Institutional Sector

Published: May 1, 2009

This May 2009 issue paper examines the range of potential water savings measures and practices, as well as their application in specific industries. In addition, we present case studies of water agencies and businesses across California to offer insights into how some of these programs have been implemented, the costs and benefits of the programs, and some of the barriers and challenges that water agencies and businesses face. Lastly, we offer recommendations for what water agencies, businesses and government can do to promote smart water efficiency practices and save water in the CII sector.