Continuing my post from yesterday, we put together a very agressive exterior water collection and conservation plan in an effort to conserve what we consider a very precious and diminishing resource.
6. Landscape Irrigation: Our irrigation was designed from the ground up according to the specifications of the LEED-H program. From determining how much grass we would have in relation to our overall permeability to specifying a custom local URI blended grass that is both drought and disease tolerant to designing beds that have grouped native, drought tolerant plants, trees and bushes, we have been working on this landscaping plan for nearly a year. The irrigation system is critical in the overall success of the design because we still want use as little water as possible. Right now, we think we have absolutely maximized what we can do here. From measuring our evapotranspiration rate to measuring how much water we are using in our control system, we left nothing out. With measure nozzles and heads for accurate spray, rain sensors, and even humidity sensors, our irrigation system is a complex tool deigned to work with our land. Our system is not even connected to the municipal water supply. We achieved such as high GPM water flow from our geothermal well, that our system is designed to call to the well for water when we haven’t collected enough water in our rainwater harvesting system. All our water is our own, that which we take out, filter and put back just keeps circulating from our well for the ultimate in blue…I mean green building.
7. Rainwater Harvesting: As mentioned, our rainwater harvesting system collects the rain from more than 80% of our roof and disperses it through an interconnected gutter system that directs all of the water to our 5000 gallon underground storage tank. We collect more than 3500 gallons from a 1 inch rainfall and here the water sits until we need to irrigate our grass, plantings or even our garden. Fitted with two floats that measure how much water is in the tank and one communication device that calls to the well when water is needed, the system, works in
8. Outdoor shower: We live by the beach and I love the days we spend sitting in the sun, riding the waves and building sandcastle-like structures. But I’m a sand-a-phobic. After living the past five years without an outdoor shower, it’s like the dark ages for me. Sand belongs outside, not tracked in to multiply on the floor, clog our indoor showers and then ultimately find its way into our beds. My plan? A hot/cold outdoor shower for everyone to get clean before coming in. Brilliant! Using a 1.75 gpm Kohler showerhead attached to removable outdoor shower system that is filtered and sent to our collection well for distribution into our grass and beds, it’s just another way for our family to conserved and reuse the water we use.
I realize that our approach to water conservation was aggressive. I would not expect most families to unilaterally attack each section in order to conserve water. But, everyone can do something. You can easily add an aerator to existing faucets at a cost of about $1.59 each. You can upgrade an old 2.2 gpf toilet that is leaking and past its day to a 1.28 or even 1.1 gpf toilet for a cost of approximately $550 – $750 per toilet. Rainwater harvesting system installation? All told based on size, you’re looking at about $12k for the gutters, tank, excavation, piping, communicating devices and landscaping. The irrigation system for an acre of land will run you another $10k.
posted by KDL | follow me on Twitter : newscaster
Filed under: Green, Water | Tagged: best green practices, evapotranspiration rate, green landscaping, irrigation system in LEED, LEED for Homes, LEED points, Narragansett LEED Home, rainwater harvesting system, RI LEED home, water conservation | 1 Comment »