In this article we are going to talk about solar hydrogen generator. This type of system is quite unique because it creates it’s own electricity without burning the fossil fuels. There are two types of systems. One creates HHO gas from water and another uses an electrolyzer to break the HHO molecules into their simple acid forming liquid form. The last is the best solution as it not only burns clean, it is also the most efficient energy producing system available.
Most people think that solar hydrogen generator is just another solar energy system. But that is not true. The solar systems tips and guides will show you how to integrate the HHO system with your existing solar energy system. First we have to understand the conversion of the solar energy to a usable gas. To do this you need to use a fuel cell. You can get these cells from a solar supplier or even a hardware store.
Depending on the size of solar cells you can get between six to eight cells. Now the task before you is to connect them and make a flow. You can start by connecting the first cell in series. The next cell in series will then follow and so on until you reach the end of the line. This will make a flow and it will get the desired solar hydrogen generator level.
Solar water splitting systems can use the energy from the sun. They do not require sunlight. In this case the HHO generator is going to be working in the same manner as other solar energy systems. In fact they are going to be much simpler than solar photovoltaic systems. This is due to the fact that they do not need the expensive photovoltaic panels.
However solar systems require the use of the solar panels. There are two types of these systems. One system uses the combined method. This means it combines both electrolysis and solar cells into one unit. The second type is known as the direct electrolysis system. In this system the electrolysis process is done directly with the solar cells.
The direct method works best with larger solar cells. When this is the case then you will need to place the solar cells over a metal plate. The photoelectrochemical water-splitting system works best when the solar cells are placed on the top of a container filled with sand. This container will allow the electrolysis to take place. This method is a little bit more expensive but has a much greater potential for energy production.
A photoelectrochemical water-splitting system is a good solution for a rural location. For a large rural area the power produced using solar hydrogen production can be very high. But in most of the United States and Canada the electricity produced will be less than 1% which is still very efficient and a very good renewable hydrogen source.
One of the biggest problems with solar hydrogen production is that there are not many places where this system could be implemented. Until technology advances to the point that it can be mass produced on a large scale this type of renewable hydrogen fuel cell will not be available. But even if this technology does become available the cost of installing this system will be far greater than that of conventional fuel cells.
The first company that developed a solar energy generator based on hydrogen fuel said that it would be able to generate six.8 percent of the electrical power the world uses each year. This is about enough to run about one hundred houses. However, they said that this type of system will not be available for homes until at least 2021.
The United States government also has a program called the Hope for the Future Program that aims to develop solar fuels that can replace gasoline. Hydrogen fueled systems are also being developed for military vehicles. Many of these will be powered by solar fuels but there is still a long way to go before solar fuels can supply all the electrical power a home needs. In the meantime solar fuels are a great way to lower your electrical bill. Just make sure you do not use any hydrogen fuel that is obtained from the tap because this could be very dangerous to humans.
The Hope for the Future Program is currently funding the development of five photoelectrochemical technologies that will replace the gas engine in many future cars. These five technologies are the photoelectric effect, the photoelectric split, the bacterioidal effect, and the bacteriated effects. None of these technologies is too complicated for anyone to understand and manufacture. They will be much cheaper to produce than gasoline which means that your electric car will save you even more money. Although solar hydrogen is not available yet it is fast becoming a very promising new alternative energy source.