3. Electricity generated by renewab

3. Electricity generated by renewable energy
According to the statistics from the International Energy Agency, electricity consumption for industrial, transportation, agricultural, commercial, public and residential services increased from 439 to 1536 Mtoe (million tonnes of oil equivalent) since 1973 to 2010 in worldwide [47]. In industries a considerable portion of the generated electricity is used for wastewater treatment. Application of the electrochemical methods for wastewater treatment leads to increase electricity consumption and subsequent treatment cost, since current density is one of the important parameters in those processes. This in turn induced a vigorous ongoing search for new treatment approaches and alternative power sources by the industrial and research communities. According to the World Energy Forum, the fossil fuel resources will be exhausted in less than another 10 decades [48]. This fact adds pressure on the economy planners, policy makers and researchers to find efficient and renewable energy sources to replace the conventional ones to reduce human dependency on the oil and gas. Moreover, electricity generated by coal, oil, natural gas and nuclear power will increase the carbon dioxide emissions which is a cause for global warming.

The general renewable energy resources are geothermal, solar, wind, biomass and hydro. It is reported that electricity generation by using renewable energy has increased from 1321 to 4222 TWh (terawatt hour) since 1973 to 2010 in worldwide [47]. This proved that the renewable energy has a great potential to reduce the use of non-renewable sources for the generation of electricity in the near future. Out of these, solar energy is an attractive renewable energy source for the countries having tropical and subtropical climate where the annual average of solar irradiance is between 1000 kWh/m2 and 2500 kWh/m2[49]. Solar energy is abundant, freely available, sustainable, free from greenhouse and toxic gases, and it allows immediate transmission electricity as well as storage [50]. Generation of electricity by using solar photovoltaic (PV) system has gained popularity in the recent years because of the capability to convert the sunlight into direct electric current without implying any threat to environmental. This source is well used in water pump, lamp, batteries chargers and supply electric utility grids. Earlier it was proved that PV system can produce power in all types of weather. In partly cloudy days, it is capable to produce up to 80% of their potential energy; on hazy or humid days it has approximate capacity of 50%; and extremely overcast days it is still capable to generate up to 30% of their potential energy [51]. The number of PV modules has significantly increased worldwide in the last decade which indicates the great potential of PV systems for present and future [52].

Generally, a PV system can be categorized into two types: stand-alone and grid-connected systems. A battery is required in the operational setup for stand-alone PV system and it is suitable for installation in rural areas. On the other hand, grid-connected PV system is linked to the local grid and generated solar electricity which is distributed through a local power provider [53] and [54]. Several financial incentives are offered to the public sector for the installation of the PV system in their premises with objectives to encourage people to use renewable energy sources and improve environmental awareness.