Tag Archives: water conservation

Toilet Efficiency Case Study – Part 3 – Options and Payback

Posted on April 9, 2009 by Dave Sanders| Leave a comment

Toilet Tank BankIn Part 2 of this series, we verified that all four toilets at our two-bathroom rental properties are efficient 1.6 gpf / 6.0 lpf models.  We also determined that we have two 3.5 gpf toilets in need of mitigation – one at our personal residence and one at our one-bathroom rental home.  So we’ve built a spreadsheet model to help us evaluate our water conservation options.

Before we get into the details of the model, let’s look at the two general options we will be evaluating with it – displacement and replacement.

Displacement

Displacing water in your toilet’s tank is an easy, low-cost way to start saving water immediately.  You can accomplish this by using a product specifically manufactured for this purpose, like the “Toilet Tank Bank” depicted above, which saves 0.8 gallons per flush.  You can also employ a used plastic beverage bottle filled with sand or gravel to keep it submerged in the tank.  Or, as a friend said in a comment about my Facebook feed of Part 1 of this series…”I remember an ecology module in the 6th grade suggested putting a brick in the tank for water displacement”.   Yup, that can work too.

 

Upcycling plastic bottles or bricks is definitely a green, no-cost way to go.  However, we think the Toilet Tank Bank is the better approach.  Practically speaking, it will take a challenging combination of bottles or bricks to equal or exceed the tank bank’s 0.8 gpf of displacement.  This could interfere with the toilet’s flapper function, causing leaking that far offsets any savings achieved. 

The Toilet Tank Bank will cost you about $2.  It is readily available from a wide range of e-tailers.  Watch the shipping charges…maybe you can add a low-flow showerhead or other water-conserving item to your order to reach the minimum purchase amount for free shipping and achieve goodness all the way around.

Replacement

From a water conservation perspective, toilets can be classified as good, better and best.  Efficient toilets labeled 1.6 gpf / 6.0 lpf are good compared to their 3.5 to 7.0 gpf predecessors.  High Efficiency Toilets, or HET’s, offer 20% better conservation at 1.28 gpf.  And Dual Flush HET’s offer the best water conservation with a 1.28 gpf flush option for solids, and a 0.8 gpf option for liquids. 

The Model

We’ve modeled some mitigation scenarios for the two 3.5 gpf toilets at our Sunset Avenue and Buckeye Street properties (see the figure below for scenarios and results).  If you have a Google account and would like to access this tool for your own scenario testing, just click on the figure to access it in Google Docs spreadsheet format.  Please be sure to follow the instructions in red that tell you how to save a copy before modifying the spreadsheet.  If you don’t have a Google account, you’ll need to set one up (self explanatory at www.google.com). 

Any difficulties? Contact us and we’ll get the spreadsheet to you by email.

Applying the Tool to Our Inefficient Toilets

If you are motivated to save as much water as possible, and you can afford to spend $300 or more per toilet, you should give serious consideration to a dual flush model.  As the spreadsheet shows, installing a dual flush high efficiency toilet will reduce the annual water consumption at our Buckeye Street residence by over 9,500 gallons.  This is almost 28% of our household’s total water consumption of 34,500 gallons per year! 

If cost and payback period considerations trump maximizing water conservation in your mind, and your inefficient toilet looks and works fine, a Toilet Tank Bank is a good mitigation option.  We installed one in the toilet in our home immediately after measuring its 3.5 gpf water consumption.  This simple, low-cost effort will reduce our average monthly household water consumption by 8% from approximately 3,000 gallons per month to 2,760 until we can research, decide upon and install a high efficiency toilet.

If you are planning to replace your toilet anyway and are pondering toilets of differing efficiency, you can use this model to do a comparative analysis.  Input the less efficient of the two toilets to be compared as “existing toilet data”, input the more efficient as “modified or new toilet data”, and input the difference in cost as “cost to modify or buy new toilet”.  The resulting calculations will tell you the comparative savings and payback period for choosing the more efficient toilet.

OK, enough toilet talk for this installment.  We hope you will tune in to Part 4 where we’ll summarize our research into specific models of high efficiency toilets, and tell you what the plan is for replacing our 3.5 gpf toilets.

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Toilet Efficiency Case Study – Part 2 – How to Measure Flush Volume and Leak Test

Posted on April 4, 2009 by Dave Sanders| 1 Comment

Women's toiletAs promised in our previous post on toilet efficiency, we’ve inventoried the six toilets at our home and three investment properties.  Now, we’ll show you how to leak test your toilet and determine its flush volume in gallons per flush, and we’ll summarize the data for our toilets. 

Determining Flush Volume

If you live in a home that was built before The Energy Policy Act of 1992 (United States) took effect in 1994, and have not replaced your toilet, it probably has a wasteful flush volume ranging anywhere from 3.5 to 7.0 gallons per flush (gpf). 

If you don’t know the flush volume of your toilet, and you don’t see “1.6 GPF” printed right behind the seat on the bowl (along with the equivalent “6.0 LPF” for litres per flush), there is an easy way to determine it. 

You’ll need a gallon jug or bucket.  With that in hand, just follow the five easy steps at this link from the Marin Municipal Water District to determine your toilet’s gallons per flush (gpf).  Or, follow our step by step video below.

Checking for Leaks

Leak testing is as easy as coloring the water in your toilet’s tank with something safe like food coloring, waiting for a half hour, and then checking to make sure that none of the coloring has shown up in the toilet bowl.  See Toiletology 101 for more details on testing, significance of leaks, and how to fix them if you find them.  

Data for Our Toilets

  • Phoenix Street Property – two 1.6 gpf toilets manufactured by VitrA, neither leak.
  • Maple Street Property – two 1.6 gpf toilets, one manufactured by Fremont and one by VitrA, neither leak.
  • Sunset Avenue Property – one very old toilet, brand obscure, measured flow = 3.5 gpf, does not leak.
  • Buckeye Street Property (our residence) – one Crane toilet, 3.5 gpf, does not leak.

So now we’ve got the data we need to build a tool that will allow us to determine our current toilet water consumption, estimate water conservation associated with various modification/replacement scenarios, and calculate payback times. 

In Part 3, we’ll present and discuss this tool, and make it available for you to use for your own assessment.

Until then, it is worth reading and thinking about this piece on Peak Water from Twilight Earth.  It may increase your sense of urgency (pun intended) to tackle toilet efficiency and other water conservation measures, regardless of what we learn about projected payback times in Part 3.

Thanks gromgull for the cool toilet image.

 

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Installing a low flow showerhead = water, energy and environmental conservation

Posted on February 4, 2009 by Dave Sanders| 2 Comments

There are lots of good reasons to conserve water at home.  At the household level, doing so saves you money on your water, sewer and electric bill.  On a broader level, conservation measures also reduce the significant amount of energy needed to treat and deliver water – public water and wastewater treatment facilities consume enough power each year to provide electricity to 5 million homes!  Then there are the environmental conservation benefits - reducing water consumption decreases the greenhouse gas emissions related to treatment and supply, and helps preserve freshwater sources as viable aquatic habitat.

There are also lots of ways to go about conserving water at home.  The U.S. Environmental Protection Agency has an excellent list ranging from simple changes in current habits to upgrading fixtures and appliances.

Replacing a standard showerhead with a low flow showerhead is a simple, low-cost project that can yield big water consumption savings, given that showers typically account for 17% of indoor household water use.  If your current showerhead is marked “2.5 GPM Max” (GPM means gallons per minute), it is already considered low flow.  If not, you will probably benefit from installing a new one.  There is an easy way to make sure the switch is worth the time and money you will spend.  Simply find a one gallon container, hold it beneath the existing showerhead turned on to full force (let it run for 2 minutes first), use a watch to determine how many seconds it takes to fill the container to the one gallon mark, and then determine the flow of your existing showerhead in GPM as follows:

Flow = 60 divided by number of seconds to fill to one gallon

If you don’t have a one gallon container, find a 1- or 2- quart pitcher, use your watch to determine the number of seconds to fill it, and then determine flow in GPM using this formula…

Flow = (60 divided by number of seconds to fill to 1- or 2- quart mark) divided by 4 for 1-qt or divided by 2 for 2-quart

The video below documents the replacement of a showerhead, step-by-step, at a rental property we own.  Our tenants are three Colorado State University graduate students.  The existing showerhead was quite old, and measured a wasteful 4.5 GPM flow.  We replaced it with an Oxygenics Elite Shower 700 Series low flow showerhead, with a resulting 1.25 GPM measured flow rate.  Let’s do the math on the water saved, assuming that the students each take a five-minute shower daily.

Savings = (4.25 GPM – 1.25 GPM) x 5 minutes/shower x 3 people x 365 days/year = 17,790 gallons/year!

Our tenants are very pleased with the change because it eliminates their problem of running out of hot water when they shower one right after another, which is the case most mornings, and because they can now easily adjust the pressure of the shower to their liking.

We also replaced the showerhead at our home with another brand of low flow showerhead – the Evolve Roadrunner eco-optimized showerhead - improving our measured flow rate from 2.5 GPM to 1.0 GPM.

You can find plenty of low flow showerhead options on-line, or at your favorite hardware or home improvement store.  We  sourced both showerheads from Green Irene to take advantage of their expertise researching and identifying best-value products.  We found their pricing of $34.95 for the Oxygenics head and $40.00 for the Evolve head to be competitive with e-tailer pricing.

So whether you start with a simple project like this, or simply change some habits, start conserving water soon.  Your wallet and the environment will thank you.

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