32 POWER PLANT ENGINEERING
EXERCISES
1.A simple Rankine cycle works between pressure of 30 bar and 0.04 bar, the initial condition
of steam being dry saturated, calculate the cycle efficiency work ratio and specific steam
consumption. [Ans. 35%, 0.997, 3.84 kg/kWh]
2.A steam power plant works between 40 bar and 0.05 bar. If the steam supplied is dry saturated
and the cycle of operation is Rankine. Find (a) cycle efficiency, and (b) specific steam con-
sumption. [Ans. 35.5%, 3.8 kg/kWh]
3.An engine operating on ideal carnot cycle uses steam at 10 bar and 90% dryness at the end of
the isothermal expansion process. The pressure during isothermal compression is 1.5bar.
Find the thermal efficiency of the cycle. Also find the power developed by the engine if the
engine uses 0.5 kg of steam per cycle and makes 200 cycles/min. Assume that the liquid is
saturated at the beginning of isothermal expansion(evaporation). [Ans. 15.1%, 456 kW]
4.Steam at 28 bar and 50°C superheat is passed through a turbine and expanded to a pressure
where the steam is dry and saturated. It is then reheated at constant pressure to its original
temperature and then expanded to the condenser pressure of 0.2 bar. The expansion being
isentropic, find
(i) Work done per kg of steam
(ii) Thermal efficiency with and without reheats. [Ans. 880 kJ/kg, 30.3%]
5.The steam at a pressure of 100 bar and 500°C is supplied to a steam turbine. It comes out at
0.07 bar and 0.85 dry. One stage reheating is used and reheating is carried out upto its original
temperature. Determine the theoretical thermal efficiency of the plant. Also find out the pres-
sure at which reheating is carried out. Assume expansions at both stages are isentropic. Show
the processes on h-s chart. If the net output is 1400 kJ/kg of steam find out the actual effi-
ciency of the plant. [Ans. 42.6%, 39.3%]