Then injecting the coolant on a heat plate between the cylinder head and The coolant system of the engine and connecting this line to the fuel injection This engine uses steam on demand technology. Instead of having a boiler and storing water in a tank and heating all Storage as heat with an electric cycle, mechanical cycle, coolant Using this system free energy can be acheived read on to learn more Release of energy is done in the system form turning water in to steam Then the three system just work in a loop so that the 1500 to 1 once opeerating temp of 152 to 190 degree is The three cycles in this system are closed loop systemsĪfter start up energy is applyed. Youtube user TheDamHeroes, inspired by the designed shown in this article, posted a working hydroelectric generator. If the turbine is properly connected to the generator this stream should produce enough hydroelectric power to provide juice to our utilities or charging batteries. All we need now is a stream of water so that the turbine to spin continuously as long as there is water to drive it. It seems that our small hydroelectric generator is almost ready to use. Then, attach on the same shaft the turbine and rotor (the spoons have to face the neck of the bottle and the magnets should be close to the coils (3mm between the coils and magnets)). After you find the center of the tank, make a hole in that place (6mm) and fix the stator with its coils just above the hole. Make a 6mm hole through the cork (make sure the hole is centered), fix again the geometrical position of the spoons and add some hot glue to each spoon to secure it.įind a plastic tank or a bottle to attach the rotor, the stator and the small turbine. Look at the rotor template and insert the spoons into the cork (1cm depth). You have to shorten the spoons so that the handle will not measure more than 1cm. Then you need a cork and 8 plastic spoons. The magnets should be arranged on the template so that their polarity alternates (N-S-N-S). Check the magnets, mark the south pole on two of them and the north pole of the remaining two. Attaching the RotorĪt this stage you need 4 strong magnets to be attached on the stator template. If the wires are properly connected the meter should produce a reading of about 10 ohms. Use a multi-meter to cehck electrical resistance (ohms). You must be sure that an electron would follow the path shown by the arrows in the template, begining from the left counterclockwise coil.Ĭonnect the ends of coils and use insulation tape to prevent any errors. Remove carefully the coil from the oval section and then, repeat this procedure to make three more coils.Īrrange the coils on the cardboard according to the template scheme (their windings have to alternate between clockwise and counter clockwise). Then, start winding the wires on this cardboard to form a tight coil (200 turns). This requires you to use a cardboard with an oval section. Now, you have to make 4 coils that will be attached on the cardboard. After these templates are well glued to cardboard make a hole (1 cm) at the center of the stator disk. The two templates that contain the rotor and stator scheme must be cut and attached to the front and back of the cardboard. The rotor (the rotor is the part that moves and has some powerful magnets that will induce electricity in the coils)įirst you need some templates and a cardboard. The stator (this part is not moving and it is equipped with coils of wire to collect electricity) Our hydroelectric generator will consist of two main parts: Also read: This Device Extends Your Phone's Battery Lifespan Like Nothing Else.
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