Solar power generation by photovoltaic technology
The various forms of solar energy, solar heat, solar photovoltaic, solar thermal electricity, and solar fuels offer a clean, climate-friendly, very abundant and in-exhaustive energy resource to mankind. Solar power is the conversion of sunlight into electricity, either directly using photovoltaic (PV), or indirectly using concentrated solar power (CSP).
The research has been under way since the very beginning for the development of an affordable, in-exhaustive and clean solar energy technology for longer term benefits. This paper, therefore, reviews the progress made in solar power generation research and development since its inception. Attempts are also made to highlight the current and future issues involved in the generation of quality and reliable solar power technology for future applications.
The fast depleting conventional energy sources and today’s continuously increasing energy demand in the context of environmental issues, have encouraged intensive research for new, more efficient, and green power plants with advanced technology. Since environmental protection concerns are increasing in the whole world today, both new energy and clean fuel technologies are being intensively pursued and investigated. Most of the renewable energy from wind, micro-hydro, tidal, geothermal, biomass, and solar are converted into electrical energy to be delivered either to the utility grid directly or isolated loads. Human race has been harnessing solar energy, radiant light and heat from the sun since ancient times using a range of ever-evolving technologies. Solar energy technologies include solar heating, solar photovoltaic, solar thermal electricity and solar architecture, which can make significant contributions towards solving some of the most pressing energy problems now faced by the world .
For the generation of electricity in far flung area at reasonable price, sizing of the power supply system plays an important role. Photovoltaic systems and some other renewable energy systems are, therefore, excellent choices in remote areas for low to medium power levels, because of easy scaling of the input power source. The main attraction of the PV systems is that they produce electric power without harming the environment, by directly transforming a free in exhaust source of energy, the solar energy into electricity. Also, the continuing decrease in cost of PV arrays and the increase in their efficiency imply a promising role for PV generating systems in the near future. Unfortunately, the technologies associated with photovoltaic (PV) power systems are not yet fully established. Therefore, the price of an energy unit generated from a PV system is an order of magnitude higher than conventional energy supplied to city areas, by means of the grid supply.
The efficiency of energy conversion depends mainly on the PV panels that generate power. The practical systems have low overall efficiency. This is the result of the cascaded product of several efficiencies, as the energy is converted from the sun through the PV array, the regulators, the battery, cabling and through an inverter to supply the ac load. Weather conditions also influence the efficiency, which depends non-linearly on the irradiation level and temperature. For example, a cloud passing over a portion of solar cells or a sub-module will reduce the total output power of solar PV arrays. Under certain cloud conditions, the changes can be dramatic and fast. A method is required to assess the cost of such fluctuations and their effect on other systems to which a solar array may be connected e.g. utility. Several methods have been developed to predict the solar PV array output power. An estimation method proposes that the power output of a PV system is proportional to the insolation levels measured for the surface of a solar cell at any angular position. Since power supplied by the solar arrays also depends on temperature and array voltage, it is necessary to draw the maximum power of the solar array. Various techniques have been proposed and developed to maximize the output power. The wide acceptance of a PV power generation depends on the cost and on the energy conversion efficiency. Attempts have, however, been constantly made to improve sun tracking system to increase the efficiency to make solar energy attractive. In current technology condition, utilization of tracking PV system is an optimum selection of enhancing system efficiency and reducing cost.
Therefore, deals with a state of the art discussion on solar power generation, highlighting the analytical and technical considerations as well as various issues addressed in the literature towards the practical realization of this technology for utilization of solar energy for solar power generation at reduced cost and high efficiency.
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