At the steam power plant, the superheated steam from boiler is expanded through turbine from initial pressure p₁ = 70 bar and temperature T₁ = 487 °C to pressure of condenser p₂ = 18 kPa. The isentropic efficiency of the turbine ns is 80.0%. The mass flow rate of the steam qm is 140 kg/s. Fuel power is 429 MW. After condenser, the working fluid is saturated water. Boiler efficiency is 90.0%, pump efficiency is 81.0 %, mechanical efficiency of the turbine is 96.0%, generator efficiency is 98.0% and auxiliary power efficiency is 97.0%. Boiler 1. Turbine Generator 2. Condenser 4. 3. Feed water pump Read from h,s-chart and calculate: 1. Enthalpy of the superheated steam h kJ/kg (with zero decimal accuracy) 2. Enthalpy of the steam after isentropic expansion s 3. Enthalpy of the steam at the turbine outlet h₂ 4. Turbine power without mechanical losses Pt 5. Steam content at the turbine outlet X2 kJ/kg (with zero decimal accuracy) kJ/kg (with zero decimal accuracy) MW (with one decimal accuracy) (with two decimal accuracy) 6. Enthalpy after condenser h3 7. Heat removed by the condenser Q 8. Specific volume of water after condenser v3 9. Enthalpy before boiler h4 kJ/kg (with zero decimal accuracy) MW (with one decimal accuracy) m³/ton (with three decimal accuracy) kJ/kg (with zero decimal accuracy) 10. Power of feed water pump Pp 11. Thermal efficiency of the plant t MW (with two decimal accuracy) % (with one decimal accuracy) 12. Efficiency of electricity production ne % (with zero decimal accuracy)

Please do not rely too much on chatgpt, because its answer may be wrong. Please consider it carefully and give your own answer. You can borrow ideas from gpt, but please do not believe its answer.Very very grateful!Please do not rely too much on chatgpt, because its answer may be wrong. Please consider it carefully and give your own answer. You can borrow ideas from gpt, but please do not believe its answer.

and and Very very grateful!

Transcribed Image Text:

At the steam power plant, the superheated steam from boiler is expanded through turbine from initial pressure p₁ = 70 bar and temperature T₁ = 487 °C to pressure of condenser p₂ = 18 kPa. The isentropic efficiency of the turbine ns is 80.0%. The mass flow rate of the steam qm is 140 kg/s. Fuel power is 429 MW. After condenser, the working fluid is saturated water. Boiler efficiency is 90.0%, pump efficiency is 81.0 %, mechanical efficiency of the turbine is 96.0%, generator efficiency is 98.0% and auxiliary power efficiency is 97.0%. Boiler 1. Turbine Generator 2. Condenser 4. 3. Feed water pump Read from h,s-chart and calculate: 1. Enthalpy of the superheated steam h kJ/kg (with zero decimal accuracy) 2. Enthalpy of the steam after isentropic expansion s 3. Enthalpy of the steam at the turbine outlet h₂ 4. Turbine power without mechanical losses Pt 5. Steam content at the turbine outlet X2 kJ/kg (with zero decimal accuracy) kJ/kg (with zero decimal accuracy) MW (with one decimal accuracy) (with two decimal accuracy)

Transcribed Image Text:

6. Enthalpy after condenser h3 7. Heat removed by the condenser Q 8. Specific volume of water after condenser v3 9. Enthalpy before boiler h4 kJ/kg (with zero decimal accuracy) MW (with one decimal accuracy) m³/ton (with three decimal accuracy) kJ/kg (with zero decimal accuracy) 10. Power of feed water pump Pp 11. Thermal efficiency of the plant t MW (with two decimal accuracy) % (with one decimal accuracy) 12. Efficiency of electricity production ne % (with zero decimal accuracy)