ABSTRACT OUTLINE
Over 4000 years ago, rainwater harvesting technology was used by the Ancient Romans. Over time wells became more popular and in the process, rainwater harvesting lost appeal. Today, rainwater harvesting has been rejuvenated becoming one of the driving forces in green technology for buildings. This technology has grown in popularity throughout the world, especially in Australia its dry climate and limited access to water supply making water conservation a necessity. This report will evaluate what methods of rainwater harvesting can be applied to residential sites in Kamloops.
Kamloops experiences an average of only 270mm of precipitation per year (snow and rain combined). Kamloops is located in BC’s interior and east of the coastal mountain range; because of its geographical location near the mountains this produces a rain shadow effect where very little precipitation will fall in the city. This poses a problem especially in the summer months; there are often water restrictions because of low water reservoir concerns in Kamloops. In the fall or winter, heavy rainfall generally discharges through the stormwater drain system directly into rivers or streams, potentially carrying contaminants, increasing sediment levels, scouring banks and destroying habitat in the process. Through stormwater retention techniques and harvesting rainfall for future uses reduces the volumes produced by individual residences, easing the stress on stormwater services, as well as providing water for some domestic uses. About 40% of water usage in the summer is used for irrigating lawns and gardens, all, or most of which can be replaced by rainwater. This also reduces the volumes of treated potable water being used unnecessarily for irrigation. In heavy precipitation months, retaining water on site is very important to relieve volumes in storm sewers. The use of rain gardens or bioswales allows rainwater to infiltrate back into the ground as part of the rainwater cycle, in the process irrigating these gardens. A main point that must be addressed in order for Leadership in Energy and Environmental Design (LEED) certification points is the control of storm water and how it is treated on-site.
There are two methods of rainwater harvesting that will be examined; rain barrels (cisterns) and/or storage tanks, and rain gardens. Residential rain barrels are usually 60 or 90 gallon barrels that store the rain intercepted on the roof, conveyed to the gutters, and then transferred to the downspout where the pipe is directed into the barrel. The barrel supports a hose bib connection so gardens can be watered. Rain gardens are intentionally depressed areas that allow rainwater to collect, allowing infiltration and irrigation to the landscape. Storage tanks allow retention of water and recycling the water back into the house for non-potable usage. Submersible pumps in these tanks allow water supply to toilets, washing machines, dishwashers, and irrigation systems, which do not require potable water.
The technology of retaining rainwater and reusing it in the home is a great environmental initiative that should be implemented in homes that have difficulty controlling storm water, where there are a high percentage of impervious surfaces on the lot, or homes and yards that have restrictive water supplies. The Canadian government should encourage and reward developers and home owners that implement a rain capture and recycling system. This reports main focal point is to educate the construction industry on the value of onsite stormwater management, and methods available to control and retain stormwater for the benefit of the homeowners, local infrastructure (domestic water delivery and stormwater services), and the environment.
7 comments:
The abstract looks really great Derek, I like how you laid out your topic right at the start, and then carried on from there. It needs a little bit of proof-reading English wise, but I think the content is really good.
The last paragraph (top two sentences at least) definitely shows your opinions quite strongly (I'm not certain if this would be consider a bias, or just a recommendation?) but I think it's good to see some final recommendations put into the abstract.
Hey Derek,
I don't know if this will be any use to you but I thought it was a really cool idea. This site shows a design of a water harvesting system that produces water from the air and then stores it so it can be used as needed.
http://www.openarchitecturenetwork.org/node/926
Thanks for the look through Morgan. Ya I'm sort of on the edge of bias support for this, definitly need to be careful at the conclusion. Thanks for the site Cari, they use fog nets in Nepal to retrieve water and these upside down umbrellas are great. I'd like to keep it to just rainwater transfer, but I'm sure Gordon could use this site.
DEREK SICK PAGE YO!! REALLY LOVING THE GRAPHICS AND ALL THE SWEET VIDEOS OF OLD MEN. anyways to the matter at hand, I presume that you have a done a lot of research.
sorry for that. okay there is a PDF on residential downspout drainage systems.
http://www.corix.com/water_products/documents/5-Drainage_03_chamber_systems.pdf
This is a solid outline. I would recommend that you condense it some. Try not to repeat any ideas.
I agree that this is a worthy subject to pursue, but there are limitations. If the site does not get enough rain, then it is difficult to harvest. /i have also read about concerns regarding the spread of West Nile Virus because mosquitoes reproduce in standing water that can be found in swales. Green roofs are very expensive to install and may consume more water than can be supplied by rainwater, depending on what is planted. You may want to further restrict your topic as there is a lot to be covered here.
Hey Derek,
I was talking to our civil teacher and he mentioned a really cool idea that companies are starting to implement, and it is right up your ally. Its called the "milk crate" technology. During the initial site construction they dig big holes and fill them with stacked milk crates, and wrap those milk crates in plastic. What this does is it creates huge underground storage areas while keeping the necessary structure. Then they feed all the site run-off into these holes and store it there until they need it for irrigation or whatever else they need it for. Its really cool, i would imagine Dave would have alot more information than me.
Jared
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