Integration of Renewable Energy Sources with Smart Grid. Группа авторов

Integration of Renewable Energy Sources with Smart Grid - Группа авторов


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of ECE, University College of Engineering, Ramanathapuram, India

       4Department of EEE, PSG College of Technology, Coimbatore, India

       Abstract

      The major chunk of power generation in India is done by thermal power plants spread across the nation. These plants are situated near to the coal reserves and near major ports. The working of thermal power plant along with major thermal plants of India is discussed. Indian motherland is blessed with huge potential of hydropower which stands second in producing the highest amount of electric power after coal-based plants. Renewable energy is the fastest-growing in this sector. Solar and wind energy–based power plants are discussed. The promising source for future energy is nuclear power plants. Hence, due importance has been paid to these plants. Specific challenges and opportunities in operating the various power plants are also discussed. India, as a vast land, necessitates bulk power transmission corridors to connect generating stations that are located in close proximity with the sources to the load centres and it is one of the world leaders in this field. This necessitates a discussion of various bulk power transmission lines.

      Keywords: Power sector scenario in India, thermal power, gas turbine power plant, hydropower, solar power, wind power

      Electrical power is the fulcrum for leveraging the economies, as most activities of the present civilization like agriculture and manufacturing revolve with it and change the living standard of people.

Schematic illustration of Installed capacity in India.

      The heat energy from the combustion of fossil fuels is utilized by the boilers to produce steam at high pressure and temperature. The steam produced is used to drive the steam turbines or steam engines coupled to generators, and thus, electrical energy is generated in the thermal power plant. Steam turbines act not only as prime movers but also as drivers for auxiliary equipment such as pumps and stokers fans [4].

      The thermal power plant can be classified into two types:

      1 (i) Condensing type: In this type, the exhaust steam is discharged into a condenser, which creates suction at very low pressure and allows the expansion of steam in the turbine to very low pressure and thus increases the efficiency. During this process, steam is condensed into the water which can be re-circulated to the boiler with the help of pumps.

      2 (ii) Non-condensing type: In this type, the steam exhausted from the turbine is discharged either at atmospheric pressure or pressure greater than atmospheric. In this type of plant, a continuous supply of fresh feed water is required.

      2.2.1 Components of Thermal Power Plant

      1 (i) Boiler and Boiler Furnace: A boiler incorporates a furnace to burn the fossil fuel (coal, gas, waste, etc.) and generate heat/steam which is transferred to water to make steam. The types of boiler used in a thermal power plant are water tube and fire tube boiler.

      2 (ii) Superheater: It is used to convert the wet steam or saturated steam in to dry steam or superheated steam. Superheated steam contains more heat than the saturated steam at the same pressure. The more heat provides more energy to the turbine hence power output is more.

      3 (iii) Economizer: It is used to capture the waste heat from flue gas and transfer it to the boiler feedwater. Economizer alone can produce 10%–12% efficiency increase; thereby, it saves 5%–15% fuel consumption.

      4 (iv) Condenser: It is used to convert the steam exhausted from the turbine into the water so that it can be reused again in the boiler. There are two types of condensers are used and they are jet and surface condensers.

      5 (v) Feed Water Heaters: A feedwater heater is used in a conventional power plant to preheat boiler feedwater. The source of heat is steam bled from the turbines, and the objective is to improve the thermodynamic efficiency of the cycle.

      6 (vi) Air Preheaters: After leaving the economizer, further heat from the flue gas is used to heat the incoming air using air preheater. Flue gas should not be cooled below the dew point to avoid corrosion of the air preheater.

      7 (vii) Turbines: There are two types of turbines used:Impulse turbine: In this turbine, moving and fixed blades are used. The moving blades are mounted on the shaft and fixed blades are fixed to the casing of the turbine. Steam is passed through the fixed nozzles. The steam with high velocity comes out of the nozzle and impinges on the rotor blades.Reaction turbine: In this turbine, only fixed and moving blades are used. When high-pressure steam passes through fixed blades, then steam pressure drops down, and the velocity of steam increases.

      8 (viii) Cooling towers: The cooling tower transfers the heat from the water’s heat to the air by directly or by evaporation of the water. So that water coming out of the condenser is reused.

       Fuel cost is comparatively low.

       Installation requires less land compared to a hydropower plant.

       The thermal energy production mechanism is simple and easy.

       The initial cost is lesser compared to other power plants.

       Easy maintenance.

       Disadvantages

       The huge production of CO2 which causes pollution.

       Overall efficiency is less than 30%.

       A huge amount of water is required.

       Warm water comes out of the thermal power plant affects aquatic life.

       Thermal engines require a huge amount of lubricating oil.

      2.2.2 Major Thermal Power Plants in India

      1 Sasan Ultra Mega Power Plant, Madhya Pradesh: It holds an installed


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