Can You Run Car by Water Energy Power

Jun

Archived in the category: wind power home

Save money on gas using hydrogen gas from water in your engine. The system is so easy that most people can do it at home with the help of an easy illustrated manual. Motorists have had great results with this system with some registering as much as 70% more Miles Per Gallon MPG.

The top water and gas hybrid car system enables you to use less gas per mile as it burns more of the hydrogen and oxygen gases in the engine. With so much money being spent on gas fees, the best thing that anyone can show you is how to spend less money on gas per year.

The hydrogen and water gas kit also increases the efficiency of your car and also makes your engine run much more smoothly. Some folks say that they could not believe their car was running on installing the kit.

The engine gets so quiet such that you can’t believe its running. Another important benefit of fitting the water for gas system is that it reduces almost entirely, the harmful emissions and smoke from your exhaust.

The DIY water and gas hybrid kit also reduces the wear and tear of your car by removing engine vibrations. Vibrations in any engine results in tear and wear of the engine itself and the mainframe.

More importantly the easy to fit water for gas system can be fitted with equipment bought from your local car mart. You will only require an illustrated manual that gives you a step by step instruction on how to setup the system.

Water powered DIY kit is the easiest to mount in your engine. It consists of a small glass container with 2 leads inserted in the lid. These leads are the positive and negative terminals from your car’s ignition which break down water into hydrogen and Oxygen. They are connected directly to the ignition to allow hydrogen to be produced only when in demand.

Baking soda is added as a catalyst to help in faster production of hydroxyl gas. A rubber tube is connected to a hole on the lid and is inserted to fit into the engines air intake vent. The produced H and O gas is drawn by the incoming wind going into the engine.

Hydrogen expand far larger than gas and produces much more energy than gas. You will have more hydrogen burning in your engine at any one time than gas. And this is what saves you money eventually. The mixing of gas with hydrogen and oxygen results to better combustion of gasoline since the two gases is highly flammable.

The effect of this water hydrogen + Oxygen gases results to a more efficient burning of even the little gas that goes into your engine’s combustion chamber.

You can fit the water gas system yourself at home by following the step by step instructions manual offered by many websites online.

Robert Kamau
http://www.articlesbase.com/cars-articles/can-you-run-car-by-water-energy-power-527716.html

Posted by: admin - 4 Comments

4 comments for “Can You Run Car by Water Energy Power”

cdiddy1988

What would create more power from wind or water energy? Multiple small generators or one large one?
What would create more power from wind or water energy? Multiple small generators or one large one?
Also, what determines the output of an electrical generator? Would size or speed of revolutions change the output?

June 23rd, 2009 at 2:48 pm

Robbie S

Just think of which system will enable the most outside forces to impede on the overall output.

In a theoretical world w/o wind drag, friction, etc, the two solutions should behave equally. However, with many generators, there is the rotational friction (as the motional part spins around and around), air resistance as the moving parts move, etc. These forces take away some of the overall output, so minimizing these forces will maximize output. Having one big generator is more efficient because a smaller percentage of it's energy is lost to the world.

Do you know what kinetic energy is? it is the equation used to describe the amount of energy a moving object has. it is:
kinetic energy = 1/2mv^2
where m = mass and v = velocity.

It is difficult to do anything useful w/ generators w/o calculus but just know that the kinetic energy of the moving water (or wind) get's directly converted into electrical energy when it cycles through the generator.

By looking at that equation you can see that if the water (wind) moves faster, the kinetic energy increases, which means the generator output increases.

It takes more energy to move bigger sized revolutions, so by increasing the size of a revolution it would only slow down.

If you sped up or slowed down the revolutions (which would happen with greater velocity of water or wind), the kinetic energy would increase so the output would increase.
References :
bioengineer

June 23rd, 2009 at 7:50 pm

monophoto

Its probably possible to produce the same amount of energy from water and wind. However, the individual unit sizes might be quite different.

In the hydroelectric world, the two factors that determine the potential amount of power to be generated are the design of the turbine and head/flow of the water. The greater the head/flow, the more power that can be produced. It is not unusual to see individual units that are several hundred megawatts in rating in hydroelectric plants.

Fundamentally, the same factors are present in the case of wind. However, wind tends to be limited in its availablity. Therefore, the issue becomes that the diameter of the turbine becomes the limiting factor in determining the rating that is possible. The largest wind turbines today are around 5-6MW, and it is unlikely that we will see anything much larger than perhaps 8-10MW in our lifetime.
References :

June 23rd, 2009 at 7:52 pm

Ryan Z

I think the easiest way to explain this is to start at the beginning. Think of the flowing water (or air) as a momentum-carrying body that has kinetic energy that can be captured by your generators. The larger the area covered by your rotor (the blades of your wind or hydro generator), the more energy that can theoretically be produced. The swept area of the rotor is a circle – as you know from math, the area of a circle is pi multiplied by the radius squared. Therefore, the energy you can extract from generator increases proportionally to the square of the blade length (the radius). Therefore, it is generally much more efficient to have one large generator than it is to have multiple small ones. This is playing out in the wind industry today – 20 years ago the most cost-effective wind turbines were around 10-50 kW each, 10 years ago they were around 100-500 kW each, and today they are 1000-3000 kW each!

The output of a generator is dependent on the amount of torque that is applied to it and the speed at which it rotates. The generator needs to be sized appropriately according to the size of the rotor – you could but a 3000 kW generator onto a 50 m rotor diameter but it wouldn't be very efficient. a 500 kW generator would be better sized to a 50 m rotor, just as a 3000 kW generator is appropriate for a much larger 100 m rotor diameter.
References :
Here is a great site that covers most everything you'd need to know about wind energy.
http://www.windpower.org/en/tour.htm

Hydro power (e.g. underwater turbines) follows the same concept as wind energy, only the medium (water) is much more dense and there are a lot more complications with relation to the environment, fish, corrosion, and maintenance to the turbine.

Good luck!

June 23rd, 2009 at 7:54 pm

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