Introduction to CCAT's Rainwater Catchment System

Fig 1: This is CCAT's yurt before we started on our project.

Short History

The long history of rainwater collection, can be traced (in recorded history) as far back as ancient times some 3,000 years ago (850 BC) if not even farther. The need for water is a basic human essential for maintaining life, without it, no civilization could have prospered. Rainwater collection in ancient Constanople is one of the last megalithic structures of its kind. Taken From: http://www.rain-barrel.net/rainwater-collection.html

Group Project

The CCAT Rainwater Catchment Group consists of: Sean Colley, Matt de Young, Jessica Radtkey, Sarah Shimizu, and Tiesha Whittaker. Our project for ENGR 114 we decided was to build a rainwater catchment system around the yurt at CCAT on Campus. The purpose of the rainwater catchment system is to capture and store rainwater in a large storage drum for use to water plants on the CCAT grounds. Water is a resource that is always present around us but not always in an immediately useful form. Therefore, it is necessary that we use innovative and appropriate techniques to capture and transform the water that we have into a useful form of water for our needs.

Our Rainwater Catchment System is located around the Yurt at: The Campus Center for Appropriate Technology (CCAT) on the HSU Campus

Construction of The Rainwater Catchment System

Materials

Here's what we needed for supplies:

  • 80 feet of black landscaping drainage (pieces in 10 foot sections)--3 inch diameter
  • a box of screws, washers, bolts
  • plumber's tape (galvanized metal, rust proof)
  • 55 gallon storage tank
  • 70 foot cable
  • wire mesh (for keeping debris out of the drainage system)
  • 2 black, plastic t-junction (connecting pieces for the drainage system)--3 inch diameter
  • 1 25-foot gardening hose
  • plastic mesh (recycled from ccat)
  • 3 end caps (2 for drainage system by yurt door, 1 for capping the 10 min water -diversion)--3 inch diameter
  • 2 eye hooks
  • duct tape
  • 100 12-inch zip ties

Budget

Fig 2: This is the receipt that we turned into CCAT to be reimbursed for our purchases.
Fig 3: This is an itemized list and the cost of the material we used.
Fig 4: This is the second part of the receipt.

Our budget for this project was revised many times before we had our final design approved so we could go out and shop of supplies. Here are our receipts for the project; Fig 2 is an example of how one of our group members was reimbursed by CCAT for purchases of material from the project.










How we did it: (The process)

Fig 5: This is a picture of the t connection that we used in the gutter system.

Construction Instructions: We started by draped the cable around the edge of the yurt roof and fastened the cable to 2 eye hooks next to the yurt door. We left some slack in the cable so that it could be adjusted as we built. We then began cutting a 2 inch section out of the landscape drainage with a box cutter so the water could get in. Once the drainage sections were cut, we began to piece them together. Fitting the cut sections into one another and place them around the edge of the roof. We attached the drainage to the cable with plumber's tape. We wrapped plumber's tape around the drainage tubing and over the cable and fastened each point with a bolt to a washer and screw. To accomplish this, we took a drill and drilled holes half an inch from where we cut the drainage tubing on either side and pushed the bolt through each side and secured it with the washer and screw. We adjusted the slope of the drainage tubing as we went by using shorter pieces of plumber's tape closer to the door and longer pieces of plumber's tape closer to the storage tank to provide the water with a down slope to move along. We used tin snips to cut the plumber's tape to the desired length. The final step in installing the drainage system was to cover the opening of the drainage with wire mesh to prevent debris from falling into the gutter. We cut appropriate sized sections of wire mesh and attached it to the drainage system with black zip ties. We had to put 2 zip ties together for each connection point because the zip ties purchased were not long enough individually. We connected the drainage system to 2 t-junctions. The first t-junction pieced together the 2 ends of the drainage tubing that ran around the circumference of the roof; the second t-junction was attached to the first t-junction; one of the open ends (the one that was facing the ground) was attached to an extra piece of drainage tubing and was capped off at the end with an end cap. This closed off drainage tubing acts as the first 10 minute water diversion system. We felt it was necessary to install this system to divert the dirty runoff from the roof. We cut two small holes at the bottom of the capped drainage tube to ensure that the dirty water would leak out slowly enough and allow the rest of the rainwater to be stored in the tank. The second opening on the t-junction came off to the side and acted as a spout for the water to flow into the storage tank. As the water pours out of the gutter system in to the storage drum it first passes through a wire mesh that lays over the drum and is secured with the open cap crewed over it. A hose was connected into the nozzle at the bottom of the tank, which will be utilized as needed for watering the plants at CCAT.

  • Note: The storage tank was set directly across from the yurt door before construction; we had to level out the ground so the storage tank would sit flat.

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Timeline of Project

Future Tips/Things to do differently next time

Throughout the process we were faced with the challenge of having to use appropriate materials and technology to the fullest extent possible. When we initially thought to hammer into the yurt itself we were informed that we needed to design a catchment system that was free from the yurt itself, ensuring easy removal and reinstallment. This request prompted our design technique of having a circular cable around the bottom portion of the canvas that our catchment system could hang off from. This design worked alot better than a different technique that could have caused damage to the yurt structure or the canvas top. Another challenge we dealt with was the request to use as little plastic as possible and to stick with natural materials whenever possible. The plastic gutter was used because of time limitations and difficultly contacting a person who might be able to create wooden holders and/or gutter tubing. If there were more time and money we might have chosen a different way to hang the gutter other than the metal pieces and tape which won't withstand the rain over a long period of time. Finally, we tried to include as many materials already available at CCAT like the drum and pvc piping but it would have been better to find more second hand materials for use in the construction.

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