Generation of Electrical Energy Pelton turbine is suitable for high head and None of these Low discharge Both low and high discharge High discharge None of these Low discharge Both low and high discharge High discharge ANSWER DOWNLOAD EXAMIANS APP
Generation of Electrical Energy In interconnected grid system, more efficient plants are used as Both peak & base load plant Peak load plant Base load plants None of these Both peak & base load plant Peak load plant Base load plants None of these ANSWER DOWNLOAD EXAMIANS APP
Generation of Electrical Energy Pipe carrying steam are generally made up of Aluminum Cast iron Steel Copper Aluminum Cast iron Steel Copper ANSWER DOWNLOAD EXAMIANS APP
Generation of Electrical Energy Carnot cycle comprises of None of these two isothermal processes and three constant pressure processes two isentropic processes and two constant volume processes two isentropic processes and two constant pressure processes None of these two isothermal processes and three constant pressure processes two isentropic processes and two constant volume processes two isentropic processes and two constant pressure processes ANSWER DOWNLOAD EXAMIANS APP
Generation of Electrical Energy Rankine cycle operating on low pressure limit of p1 and high pressure limit of p2 May be more or less depending upon the magnitude of p1 and p2 Has same thermal efficiency as Carnot cycle operating between same pressure limits Has lower thermal efficiency than Carnot cycle operating between same pressure limit Has higher thermal efficiency than the Carnot cycle operating between same pressure limits May be more or less depending upon the magnitude of p1 and p2 Has same thermal efficiency as Carnot cycle operating between same pressure limits Has lower thermal efficiency than Carnot cycle operating between same pressure limit Has higher thermal efficiency than the Carnot cycle operating between same pressure limits ANSWER DOWNLOAD EXAMIANS APP
Generation of Electrical Energy In power station Reverse capacity= Plant capacity - Max. demand Reverse capacity= Plant capacity + Average demand Reverse capacity= Plant capacity + Max. demand Reverse capacity= Plant capacity - Average demand Reverse capacity= Plant capacity - Max. demand Reverse capacity= Plant capacity + Average demand Reverse capacity= Plant capacity + Max. demand Reverse capacity= Plant capacity - Average demand ANSWER DOWNLOAD EXAMIANS APP