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Excerpts from
Create an Oasis with Greywater: Integrated Design for Water Conservation, Reuse, Rainwater Harvesting & Sustainable Landscaping

Revised and Expanded 6th Edition by  


Create an Oasis describes how to choose, build, and use everything from a simple greywater system that can be made in an afternoon for under $50 to how to integrate greywater with efficient fixtures, user habits, plant selection and location, rainwater,and freshwater irrigation optimally for your site.

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$22.95 The New Create an Oasis only 978-0-9643433-3-7

Greywater Book and Video Set: Create an Oasis with Greywater, Builder's Greywater Guide, Principles of Ecological Design, Laundry to Landscape instructional DVD $51.80 ($13 savings)

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Excerpts—

 

What This Book Is About (excerpt)

gray water in water cycle
Humans enjoying their role as responsible stewards of the water cycle.

Create an Oasis with Greywater describes how to choose, build, and use 17 types of residential greywater reuse systems in just about any context: urban, rural, or village. It explains how you can put together a simple greywater system in an afternoon for under $50. It also includes information for taking your greywater reuse to the next level: integrating it with water efficiency, rainwater use, and food production. This book includes:

This book offers underlying design principles as well as design specifics. If you run into a situation not specifically covered, you'll likely be able to use these general principles to figure it out yourself.

Most of the world’s aquifers are being pumped faster than replenished, and all reservoirs are slowly diminishing in capacity as they fill with sediment. At the same time, natural surface waters and groundwaters are being degraded by the wastewater continually dumped into them. Greywater reuse enables you personally to do more with the same amount of water and to increase your water security. At the same time, your greywater reuse reduces the problems of supply and pollution for everyone.

Any greywater system will realize some benefits. Obtaining all the potential benefits is trickier than it seems. Many pitfalls await the unwary. In the average installation, this book will pay for itself many times over in savings on construction, maintenance, and errors avoided.

Most of the information otherwise available on greywater comes from vendors. Oasis Design doesn’t sell greywater systems, so you don’t have to worry that we’re steering you toward stuff you don’t need. Rather, we make our living by providing information to help people have a higher quality of life with lower environmental impact.

Wishing you the best of luck with your projects,

Art Ludwig

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“Ludwig is a water visionary... The most practical and complete presentation of the subject I have seen.”
—Michael MacCaskey, Editor-in-Chief, National Gardening

Chapter 1: Greywater Basics (excerpt)

First, let’s get your feet wet (so to speak)—what is greywater, what can you do with it, why, how, and some greywater lingo.

What Is Greywater?

Any wastewater generated in the home, except water from toilets, is called greywater. Dish, shower, sink, and laundry greywater comprise 50–80% of residential “wastewater.” Greywater may be reused for other purposes, especially landscape irrigation.

Toilet-flush water is called blackwater. A few systems that can safely recycle toilet water are included in this book.

Contaminated or difficult-to-handle greywater, such as solids-laden kitchen sink water or water used to launder diapers, I call “dark greywater”; most regulators consider these blackwater. However, the level of pathogens in even the darkest greywater is a small fraction of that in blackwater.1

Wastewater without added solids, such as warm-up water from the hot water faucet, reverse-osmosis purifier drain water, or refrigerator compressor drip, is called clearwater.

Reclaimed water is highly treated mixed municipal greywater and blackwater, usually piped to large-volume users such as golf courses via a separate distribution system. It is outside the scope of this book.

What Can You Do with Greywater?

Swimming in naturally pure water
Greywater is treated by the same mechanism that makes wild rivers clean. Beneficial bacteria break down pathogens into water-soluble plant food, and the plants eat it, leaving pure water.

Conventional plumbing systems dispose of greywater via septic tanks or sewers. The many drawbacks of this practice include overloading treatment systems, contaminating natural waters with poorly treated effluent, and high ecological/economic cost.

Instead, you can reuse this water. The most common reuse of greywater is for irrigation—the focus of this book. It can also be cascaded to toilet flushing or laundry. Even a greywater-only dispersal system has less negative impact than septic/sewer dispersal, because the beneficial bacteria and roots in the topsoil are better than anything else at treating water.

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Why Use Greywater?

It is said that there is no such thing as “waste,” just misplaced resources. Greywater systems turn “wastewater” and its nutrients into useful resources. Why irrigate with drinking water when most plants thrive on used water containing small bits of compost?

Unlike many ecological stopgap measures, greywater use is part of the fundamental solution to many ecological problems. It will probably remain an essentially unchanged feature of ecological houses in the distant future. The benefits of greywater recycling include:

Does Greywater Matter? (excerpt)

Viewed from any single, narrow perspective, greywater systems don’t look that important. A low-flow showerhead can save water with less effort. A septic system can treat greywater almost as well.
But when you look at the whole picture—how everything connects—the keystone importance of greywater is revealed.
Ecological systems design is about context, and integration between systems. The entirety of integrated, ecological design can be reduced to one sentence: do what's appropriate for the context.
Ecological systems—rainwater harvesting, runoff management, passive solar, composting toilets, edible landscaping—all of these are more context sensitive than their counterparts in conventional practice; that's most of what makes them more ecological.
And greywater systems are more context sensitive than any other man-made ecological system, and more connected to more other systems.
Get the greywater just right, and you’ve got most of the whole package right, and that’s what matters.

“It is amazing that human civilization has learned how to reach the moon and how to explode a nuclear bomb, but not how to use water properly. But now we have no excuse to remain ignorant. Art Ludwig’s books inform and inspire us to get in touch with the basic, precious, and sacred element of water. They are survival guides in the age of global warming.”
—Satish Kumar, Editor, Resurgence magazine

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Drain to Mulch Basin/Drain Out Back Figure (excerpt)

 

Standard Mulch Basin For New Planting Figure (excerpt)

Branched Drain (excerpt)

cut away view of a greywater flow splitter in action
Cutaway view of a double ell, a flow-splitting fitting that is largely self-cleaning with no filtration. This one is part of the first known Branched Drain network. I tested it for half a year: valiantly tried to clog it with pure kitchen sink water--took the sink strainer out and pushed bowls of soggy granola and pot scrapings down the pipe. The P-trap clogged every other day, but the Branched Drain network never did.

For sites with continuous downhill slope from greywater source to
irrigated areas, Branched Drain systems provide inexpensive, reliable,
automated distribution with almost no maintenance. Branched Drains have
no filter, pump, surge tank, or openings smaller than 1" (2.5 cm).


All variations of this system meet legal requirements in Arizona and other
states that regulate greywater rationally. A friendly inspector can issue a permit for this system under the CPC/UPC. Chapters 9 and 10 explore every aspect of Branched Drain systems in detail.

 

Laundry to Landscape (excerpt)

The Laundry to Landscape (L2L) system is the simplest, least expensive, lowest-effort way to get the most greywater onto the home landscape. It is the greywater system most suited for professional installation by landscapers, yet it is also DIY and renter-friendly. Odds are it makes sense for you…and even if not, like the Branched Drain chapters, this section intersects some important
greywater design principles from a new angle and is worth reading. (The L2L is an Art Ludwig
original design, developed to address the need for a more prime-time-ready laundry greywater
system when California agreed to our request to make laundry-only systems permit-exempt.)

Laundry to landscape (web-updated)

Laundry to Landscape (PDF 1mb)

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“The Oasis greywater book is a powerful tool for the professional and homeowner alike. As water becomes the commodity this century that oil was in the past, this book will be required reading for those who want to control their own destinies and responsibly steward an increasingly dwindling resource: clean water.”
—Jonathan Todd, President, John Todd Ecological Design

Health Considerations (excerpt)

In practice, the health risk of greywater use has proven minimal to nonexistent. It is, after all, the water you just bathed in, or the residue from clothes you wore not long ago. Despite all sorts of grievous misuse (brought on in part by lack of useful regulatory guidance), there has not been a single documented case of greywater-transmitted illness in the US. Nonetheless, greywater may contain infectious organisms. It's poor form to construct pathways for infecting people, and totally unnecessary. Keep this in mind when designing and using a system.
All greywater safety guidelines stem from these two principles:

  1. Greywater must pass slowly through healthy topsoil for natural purification to occur.
  2. Design your greywater system so no greywater-to-human contact occurs before purification.

Here are examples of possible health-related greywater problems and their solutions:

“In my youth we pumped every cup of water we used by hand, from a well 80 feet deep. Our water from washing clothes and dishes my grandmother threw over her dahlias with a fine, scything action. I recommend this book, which describes many equally beneficial and cheap systems as well as more automated ones.”
—Bill Mollison, The Permaculture Institute

Excerpt ~ Graphs for Home Water Budget, Water and Climate Commons Effects

Home water budget before/ after water makeover, impacts on water and climate commons.

 

More excerpts

See also:

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Table of Contents

What This Book Is About
Introduction

Chapter 1: Greywater Basics

What Is Greywater? • What Can You Do with Greywater? • Why Use Greywater? • When Not to Use Greywater • Elements of a Greywater System

Chapter 2: Goals and Context

Get Clear on Your Goals
Assess Your Context
Greywater Systems Are Very Context Dependent • Site Assessment Example • Does Greywater Matter? • Side Trips and Shortcuts That May Apply to You
Assess Your Site
Assess Your Water Resources • Evaluate Conservation Options • Assess Existing Wastewater Treatment Facilities • Assess Your Greywater Sources • Check the Slopes and Elevations •Units: gpd, gpw, gpy, or gpdc? • Help! Too Many
Numbers! • Check the Soil Perk • How to Measure Perk v Assess Your Treatment/Dispersal Area • Assess Your Irrigation
Need • Assess the Climate and Forces of Nature • Assess the Regulatory and Social Climate • Appraise the People Part of
the System • Cost-Benefit Analysis • A Note on Lawns • Lawn Statistics
Revisit Your Goals

Chapter 3: Design for Your Context

Integrate Greywater with Other Systems
Health Considerations • Six Factors for Good Natural Purification of Water or Wastewater • Coordinate with Others • General Landscape Design Points • General Landscape Design Points
Connect Greywater Sources with Irrigation or Dispersal Area
Lump or Separate the Greywater Flow? • Multiple Greywater Zones • Provide for Maintenance and Troubleshooting
Practice Optimal, Integrated Design

Relate Well with the Natural Water Cycle

Chapter 4: Greywater Collection Plumbing

General Greywater Plumbing Principles
When to Get Professional Help • Squander No Fall • Collection Plumbing and Inspections • Build for Future Flexibility • Divert Greywater Downstream from Traps and Vents • Note on Surge Tank Collection Plumbing • Provide Cleanouts and Inspection Access • Design for Easy Maintenance and Troubleshooting
Collecting Laundry (Pressurized) Greywater
Collecting Gravity-Flow Greywater
Surge Capacity
Pre-Filter Surge Capacity in Collection Plumbing • Surge Tanks • Surge Capacity in Irrigation Piping• Surge Capacity in the Receiving Landscape • Dosing Siphon
Choosing and Finding Parts
Minimize Plastic Impact • Proper Fittings and Optimal-Size Pipe • Valves
Tools for Collection Plumbing
Radical Plumbing: A Fraction of the Resource Use

Chapter 5: Greywater in the Landscape

How Much Area Do You Need for Treatment/Dispersal? • Coordinate with Freshwater Irrigation, Actualize Water Savings • Irrigation Efficiency • Get Your Freshwater Irrigation Under Control • Choose the Proportion of Irrigation to Meet with Greywater • How Much Area Should You Irrigate? • Effect of Soil Type on Irrigation Design • Effect of Rainwater Harvesting and Runoff Management • What to Do with Greywater When Plants Don’t Need It
Preserving Soil Quality
Garden-Friendly Cleaners • Urine and Salt Balance • The Key Role of Rainwater • Monitoring and Repairing Soil • Toxic Waste Disposal
Plants
Plants for Greywater Reuse • Plants for Greywater Treatment/Dispersal
Mulch Basin Design
Mulch • Basins • Infiltration Capacity of Greywater Mulch Basins • Swales • Post Holes and Auger Holes

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Chapter 6: System Selection Chart

Chapter 7: Simple, Easy Greywater Systems

C: Collection Plumbing; I: Irrigation Plumbing; R: Receiving Landscape

Landscape Direct (CIR) • Drain to Mulch Basin/Drain Out Back (CIR) • Movable Drain (IR) • Branched Drain (IR) • Laundry Drum (CIR) • Laundry to Landscape (CIR) • Ecological Laundry • Tools for Transition to Outdoors • Getting Even Distribution • Experimental Adaptations for High-Efficiency Washers • Garden Hose through the Bathroom (CIR) • Dishpan Dump/Bucketing (CIR) • Mulch Basins (R) • Greywater Furrow Irrigation (CIR)

Chapter 8: More Complex Greywater Systems

Drum with Effluent Pump (I) • Subsoil Infiltration Chambers (R) • Solar Greywater Greenhouse (R) • Doug and Sara Balcomb’s Solar Greenhouse in Santa Fe, NM • Green Septic: Tank, Flow Splitters, and Infiltrators (CIR) • Blackwater Reuse Health Warning • Constructed Wetlands (IR) • Automated Sand Filtration to Subsurface Emitters (IR) • Advanced Treatment System to Subsurface Drip (CIR)

Chapter 9: Branched Drain Design

Lessons Learned from the Drain Out Back
Branched Drains to the Rescue
Split the Flow • Contain and Cover the Flow
Advantages and Disadvantages of Branched Drain Systems
Limitations of the Branched Drain System
Branched Drain System Design
Ways to Split the Flow • Parts for Splitting the Flow • Branching Geometry Options • Reductions • Cleanouts, Inspection Access, and Rainwater Inlets • Branched Drain Outlet Design • Mulch Basin Surge Capacity • Branched Drain Mental System Check-Out

Chapter 10: Branched Drain Installation

Double-Check Your Design • Check for Buried Utilities • Dipper Installation • Connect Pipes and Fittings on the Surface without Glue • Dig Trenches • Laying Pipe with Plenty of Slope • Laying Pipe with Marginal Slope • Form Mulch Basins, Install Outlet Chambers, and Plant Trees • System Test • Map the System • Cover Up
Branched Drain Maintenance
Branched Drain Troubleshooting
Branched Drain Variations, Improvements, and Unknowns

Chapter 11: Common Greywater Errors

Error: Assuming It’s Simple • Error: Out of Context Design • Error: Overly Complex, Delicate, and/or Expensive System with Negative Net Benefit • Context Specific Design • Error: Mansion with a Greywater System • Error: Pump Zeal • Error: Storage of Greywater • Error: Paranoia about Negligible Health Concerns and/or Cavalier Disregard for Legitimate Public Health Concerns • Error: Treatment Before Irrigation • How Dangerous Is Greywater? • Error: Discharge of Greywater Directly to Natural Waters or Hardscapes • Error: Greywatering Lawns • Error: Irrigating Vegetables • Error: Irrigating Plants That Can’t Take It or Don't Need It • Error: Garden Hose Directly from the Washer • Error: Perforated Pipe or Other System Where You Can’t Tell or Control Where the Water Is Going • Error: Combined Wastewater Designs Used for Greywater • Error: Freshwater Designs and Hardware Used for Greywater • Error: Inexpensive Greywater-to-Drip Irrigation • Error: Low-Volume Automated Greywater Toilet-Flushing Systems • Error: Use of Government Agencies, Engineering Firms, or Salespeople for Greywater Design • Error: Guidance from Work-in-Progress Codes

Chapter 12: Real World Examples

Example #1: Town—City of Santa Barbara (Branched Drain) • Example #2: Suburbia—Southern California (Branched Drain) • Example #3: No Water—Highland Central Mexico (Various) • Example #4: Too Wet—Oregon (Mulch-Covered Bog) • Example #5: Big Family in New House (Automated Subsurface Emitters)
Where to Go for More Information
The Future of Greywater Use

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Appendix A: Site Assessment Form

Appendix B: Measuring Elevation and Slope

Appendix C: Cold Climate Adaptations

Appendix D: Greywater in the Non-industrialized World

Greywater Furrow Irrigation

Appendix E: Pumps, Filters, and Disinfection

Appendix F: Related Aspects of Sustainable Water Use

Natural Purification • The Household Water Cascade • Natural Purification by Soil Bacteria and Plant Roots • Rainwater Harvesting • Composting Toilets

Appendix G: Greywater Regulation Revolution

Arizona Greywater Law

Appendix H: Measurements and Conversions

Resources

Further Reading and Resources • Suppliers

Index

About the Author

House Features After Water Makeover

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