Solar power is the source of free electricity from sunlight. This is being harnessed with the aid of a host of ever-changing technologies including solar thermal power, photovoltaic, solar energy, solar heat energy, solar architecture and artificial photosynthesis. Solar technologies are complex and involve an array of materials which are sometimes complex in their own right. However they are also extremely simple and need no fossil fuel or uranium to generate energy. Solar power has a host of environmental advantages: it does not harm the environment, it does not emit carbon dioxide or other greenhouse gases, it does not deplete the oceans of oxygen and it heats up water to a vapor so that it can be used as fuel.
The technology involved in harnessing solar energy is surprisingly straightforward. Photovoltaic panels or PV panels (Photographyovoltaic panels) are constructed from a number of semiconductor wafers, which are then connected in series in order to create an electric current. In layman's terms: light is captured by these solar panels and sent to a DC generator. From there it is up to the generator to generate electricity. PV panels are also known as solar cells or solar panels. PV panels can be used for powering cars and homes, as well as electricity-generating desalination units and on remote outposts.
A solar power station is simply a collection of PV solar panels linked together in series. The blue raven solar power station can run itself for days on end and provide all the electricity required to operate a town or village. For people living in remote areas where electricity is either unavailable or expensive it is a godsend. Remote communities rely almost entirely on solar thermal or photovoltaic (PV) panels to supply them with electricity.
A solar power station can generate electricity by the sun or by photoelectric effect. In either case, the PV cells are exposed to the sun's rays and converted into electrons which flow through wires or cables to a DC generator. Once there the electricity generated is routed to an outlet where it is stored. The advantage to using solar cells is that once the PV cells have been converted they can be used again repeatedly, even when there is no sun.
Another renewable source of electricity is solar cookers. Solar cookers can be used to generate electricity by the sun or by photoelectric effect. In both cases, the PV cells or solar cell panels are exposed to the sun and converted into DC current. The stored electricity is routed to an outlet where it is used to heat water. The heat generated is recovered in the form of steam when the cooking process is complete. The blue raven solar power company will be able to generate electricity direct using this solar power techniques, see page here: blueravensolar.com/utah/orem/.
To use solar cookers, a solar panel array is needed. Some solar cookers require one to two solar panels connected in series. More solar cookers however will use up more solar cells or panels, and as a result may require more solar cells or panels to be connected. For instance, in the case of a two-panel system, two to four solar cells would be required in order to generate the electricity needed to heat the water and then to keep the heat in the solar cooker. Since solar energy is free, there is no way that solar cookers could create negative emissions and could therefore only operate on solar energy. Here is an alternative post for more info on the topic: https://en.wikipedia.org/wiki/Solar_energy.
