ABSTRACT
The development of streamlined processes for manufacturing crystalline silicon at low cost, processing a high temperature gradient with a relatively low temperature at the die, is important to the plans of developing solar bulk power system for effective utilization. Effective feasibility of solar power systems is based on indirect means, such as the production of hydrogen and oxygen, which can be utilized as basic fuel to feed the operation of electrochemical power systems comprised of fuel cell generating units and storage batteries. In the dynamic area, modeling of a solar electrochemical generating bus comprised of a solar and/or chemical fuel reformer, fuel cells module, solid-state inverter, and a suitable transformer is progressing smoothly. Solar energy can contribute effectively toward relieving the energy shortage by providing the primary fuel necessary to a number of systems used to heat and cool buildings.
