DIY Video : How to build a Survival Water Distillation System for under $5 and turn Salt Water Into Fresh Water

    • How to build a Super Efficient Outdoor Wood Stove Heater from an Old Propane Bottle
      This project goes over the build of an efficient outdoor wood burning stove heater out of an old propane bottle and some scrap metal from the scrapyard. This stove has secondary burn system that helps in combustion of any unburned smoke or fume inside .Almost little to no smoke coming from the flue pipe. The first step is to make sure that the old propane tank is empty. We take the valve at the top by removing the valve protector cage. Fill the tank with water and let it sit for a few hours before we drain the tank and start cutting top and bottom. With the help of a hole saw cutter ,we cut 100mm four inch holes at the top and bottom of the tank . The top hole is for the flue pipe to sit in and the bottom hole is for cleaning the ashes out. We also remove the bottom stand too. Next, we cut a hole for the door for the stove. This is cut as high up to the top of the bottle . The door is made of chequered plate piece . We fit a rectangular pyrex dish glass piece in the middle of the chequered plate that can withstand high temperature with couple of steel bracket pieces. The glass on the door helps us to see how the secondary burn system is working inside the chamber. The door is attached to a frame through hinges. The flue outlet on the top the tank is attached through a flange piece with holes. The door handle is made of a socket wrench. The wrench is bolted to the plate and a small metal piece is welded onto to the frame to which the wrench is pulled to close the door A deflector plate made of small holes is installed inside the stove on the top . We drill 8mm holes around the top of tank and put dome bolts across them. The deflector pipe sits on these bolts. The deflector plate stop the unburned gases exiting out the flue outlet pipe. This encourages the flame that rises, pass through the deflector plate holes into the secondary burn chamber that helps in better combustion. The secondary burn system is made of stainless steel pipes .The air intake section is long enough to get the air coming in to get super heated and move into two sections filled with holes. Since not all gases from the wood combust from the primary air intake, the secondary burn pipe ensures that the air gets super heated before exiting the pre-drilled holes and helps burn the unburned gases rising from the fire before exiting the flue pipe. The secondary air intake pipe coming out of the firebox is welded on the top of the tank with a flange piece. The primary air intake pipe that goes under the door frame is made of a two inch coupler and threaded damper disc. A small metal piece is welded to the coupler with a hole in the middle. The damper disc screws in through the hole that allows us to close and open the intake .
    • How to build a Simple Backyard Bio Sand Water Filtration System from easily available materials .
      This project goes over the build of an emergency cheap bio sand water filtration system. This can filter out your polluted water from your stream or lake or gutter. Bio sand filters are good for filtering parasites, bacteria, protozoa virus and fine sediments from well water. These work by doing four stages of purification. First is the biological zone where bacteria eats your parasites and pathogens viruses. That happens on the surface of the bio zone. The second is mechanical trapping where sediment can be attracted to porous rock, and it will filter out sediment absorption, third one is absorption where the electrostatic charge which will attract small particles and viruses down to virus level and get attracted to this sand and last stage is natural death from nutrient depletion when there won't be anything for bacteria or virus to eat or thrive on when they start to go through the sand dairy of the filter. There is two five gallon buckets, one stacked on top of the other. These are black food storage buckets. These buckets don't tend to promote the growth of algae as much as the opaque buckets do. The top bucket is the water storage bucket, the top one is the filter. There is an eighth inch hole on the lid at the top bucket that allows water to flow freely without creating a vacuum. There is a 16th of an inch hole at the bottom of the bucket that slowly let the water drip out onto the top of the next bucket. The bottom bucket has 8 one quarter inch holes along the sides. This allows the water to disperse over the top ,they drip down to the these holes along the side of the bucket such that they dont disturb the biozone underneath. It'll take about three weeks to establish a bio zone. And during that three week period, you're going to have to continually feed some polluted water in there with bacteria in it to feed the bio zone to make it develop and grow. It would put a large circular ring in the center of your bio filter and distribute the bacteria off to the side. Now this filter relies upon bacteria that forms on the top of the sand to eat the other bacteria like Giardia and Cryptosporidium. A pipe at the center will prevent the sand from coming up into the faucet and getting into the drinking water. We here have two layers of sand. The bio zone is going to have a couple inches of fine sand on it to promote the growth of the bacteria. The course sand underneath will filter out sediment and other bacteria. Bottom layer is an inch of fine and pea gravel. The second stage of this filter starts with the build of a 4 way distribution pipe made of PVC pipes and a four way coupler. We cut holes in these pipe ,one towards the end and the other towards the center. This will distribute the water over the top of the bucket and so that the water isn't just going in in one spot and trickling down one side or down the center and not evenly distributing it over the top of the sand Drill a hole at the bottom of the 2nd bucket and put a quarter inch brass drain plug .This can be used to drain water out the barrels if I want to store them or to flush them out. We put put 3 levels of gravel and 3 levels of sand in the second stage. Put two to three inches of each layer of gravel. Add an inch of activated carbon on top of this fine gravel. Treat both the filter with chlorinated water and fresh water and let it sit for few minutes. Stack the second stage filter on top of the first stage. Make sure the whole setup is tightly sealed. Further purify the water by letting it sit under the sun. The ultraviolet ray purify the remaining bacteria that might be in there.
    • How to build a Super Efficient Portable Rocket Mass Heater from reclaimed and repurposed items and save up to 80% on your heating bills
      This project goes over the build of a homemade efficient rocket mass heater which is portable ,uses less fuel and burns clean. This heater is made out of reclaimed and repurposed materials. The cool thing about a rocket mass heater is that it stays warm long long after the fire is out. The whole thing is powered by a rocket stove, which is a j shaped burn chamber. Fuel goes in the short side of the J, the fire burned sideways and the bottom of it. And then the draw is created by a tall vertical heat riser. The gases then come out of that chimney go all around the inside of the barrel, a lot of the heat is given off into the room right off of the barrel. That's your radiant heat source for the room. The barrel acts as that radiant heat source. The gases then go through a valve in the barrel down below and through a series of tubes that are encased in mass such as aircrete or cob .The gases are able to shed the heat into the cob. And the cob stores it as a thermal battery. The gases make its rounds through the tubes and goes out through the exhaust pipe. The rocket mass heater shown here is made of a burn chamber, heat riser, bench for containing the tubes , the exhaust pipe and an insulation refractory material like aircrete which is a high temperature cement mix. The burn chamber is made from an old sheet metal pressure tank and a stainless steel water heater tank. The pressure tank insulated with aerated concrete sits inside the water heater tank. The combustion or gasification chamber is connected to the heat riser chimney through a three inch pipe insulated inside a six inch pipe. This pipe is also insulated with a refractory mix. The vortex chamber is connected to this pipe. The vortex chamber is made from a saw blade and a left over piece of pressure tank material . It is insulated with the refractory material . Six glue stick 3/8th inch air holes are drilled at right angles around this refractory material that creates a vortex extra air suction effect .So as that heat comes up and creates a negative pressure up the riser, it swirls around the vortex chamber and enhances the burn. The initial combustion creates enough heat to release way more gases than it has oxygen to burn. By introducing a vortex air intake system, the burn output is amplified. For making the insulated heat riser, we are going to use an aerated concrete refractory material called aircrete . We make the mould for the four inch heater riser using a metal mesh fabric, sarnafil roofing material and a thin gauge wire. Then it is filled it clay sand up to to the top . We take this mould and put it inside the six inch stove pipe and pour aircete through the sides all the way up to the top and let them sit to cure. We pull the sand out of the center of the heat riser. And then eject the liner that went against the inner fabric webbing that acted as a mold for the aircrete. The Aircrete heat riser is installed on top of the vortex chamber .The heat riser is double insulated with a old water tank and an old 55 gal oil barrel. Also the water tank is insulated from the 55 gal barrel using some pea gravel .The insulated water tank has an outlet pipe at the bottom for extension into the mass bench . The exhaust pipe coming out the insulated heat riser has a two foot drop to a directional valve connecting two pipes ,one pipe acts as a flue chimney that goes out into the outdoors through the window, the other goes into the mass bench. The valve allows us to redirect the air to pass to the bench once the heat riser is all warm. The eight foot long wooden mass bench houses the six inch stove pipes coming out the exhaust of the heat riser. It has a mylar reflective insulation sheet on the floor. This helps prevent the heat escape through the floor .The mass bench is then insulated with pea gravel which absorbs the heat and holds it and slowly radiate out over a period of time. The pipe coming out of the bench goes out of the window through the valve. The flue chimney pipe that goes out through the window to the outdoors is made of double walled stove pipe. A five inch pipe is inserted inside a seven inch pipe. The space between them is insulated with a aerated concrete refractory material .All this insulated exhaust pipe is doing is taking and adding an element of acceleration up the chimney to negate the net negative you get from dropping two feet down into the bench from the heat riser.