A power plant generates 10 kg/s of waste steam at 100°C. This steam is condensed and...

Our power plant generates electricity using a steam turbine. At the exit from our power generation...

Our power plant generates electricity using a steam turbine. At the exit from our power generation process, we end up with  978.0 kg/s of liquid water at  323.0 K. We cannot release this water directly into a nearby river if the temperature is over  305.00 K, without causing significant thermal pollution that would damage fish populations. Our plan is to mix this warm water with another cooler water stream at  282.00 K. What is the mass flow rate of this cool water stream needed...

A nuclear power plant generates 3000 MW of heat energy from nuclear reactions in the reactor's...

A nuclear power plant generates 3000 MW of heat energy from nuclear reactions in the reactor's core. This energy is used to boil water and produce high-pressure steam at 300?C . The steam spins a turbine, which produces 900MW of electric power, then the steam is condensed and the water is cooled to 25?C before starting the cycle again. A) What is the maximum possible thermal efficiency of the power plant? Express your answer using two significant figures. B) Cooling...

Steam leaves the boiler of a 100 MW Rankine cycle power plant at 400°C and 3.5MPa....

Steam leaves the boiler of a 100 MW Rankine cycle power plant at 400°C and 3.5MPa. The Turbine has an isentropic efficiency of 85% and exhausts at 15 kPa. In the condenser, the water is subcooled to 38°C by lake water at 13°C. The pump isentropic efficiency is 75%. a) Draw and label the T-s diagram for this cycle b) Determine the cycle’s thermal efficiency c) Determine the mass flow rate of the steam in the boiler (kg/h) d) Determine...

An electric power generating plant has an output of 100 MW. The boiler of the plant...

An electric power generating plant has an output of 100 MW. The boiler of the plant operates at 300 degrees celsius. The condenser operates at 40 degrees celsius. a. At what rate (joules per hour) must heat be supplied to the boiler? b. The condenser is cooled by water, which may undergo a temperature rise of no more than 10 degrees celsius. What volume of cooling water in cubic meters per hour is required to operate the plant? c. The...

The condenser of a large steam power plant is a heat exchanger in which steam is...

The condenser of a large steam power plant is a heat exchanger in which steam is condensed to liquid water. Assume the condenser to be a parallel flow shell-and-tube heat exchanger consisting of a single shell and 10,000 tubes, each executing two passes. The tubes are of thin wall construction with D = 30 mm and the steam condenses on their outer surface. The heat transfer rate that must be effected by the exchanger is Q = 2 × 10^9...

Steam at 100°C is condensed into a 38.0 g copper calorimeter cup containing 260 g of...

Steam at 100°C is condensed into a 38.0 g copper calorimeter cup containing 260 g of water at 27.0°C. Determine the amount of steam (in g) needed for the system to reach a final temperature of 56.0°C. The specific heat of copper is 387 J/(kg · °C).

A waste stream has a dissolved oxygen concentration of 1.5 mg/L, a flow of 0.5 m3...

A waste stream has a dissolved oxygen concentration of 1.5 mg/L, a flow of 0.5 m3 /s, a temperature of 26°C, and an ultimate BOD (or BODu) of 48 mg/L. The waste stream is discharged into a river that is running at 2.2 m3 /s at a saturated DO, a temperature of 12°C, and an ultimate BOD of 1.6 mg/L. A) Calculate the mixing (a) temperature and (b) ultimate BOD for the river water immediately after discharge of the waste...

Please find the correct option.(A-B-C-D) In a steam power plant with a net power of 30...

Please find the correct option.(A-B-C-D) In a steam power plant with a net power of 30 MW and operating according to the ideal Rankine cycle, the steam enters the turbine at 10MPa and 500 ° C and is condensed in a condenser at a pressure of 10 kPa. Find the thermal efficiency of the cycle. A-) 15 % B-) 34 % C-) 20 % D-) 40 %

2. Steam heating simplifications [3 marks] A flow of 1 kg/s of superheated steam at 5...

2. Steam heating simplifications [3 marks] A flow of 1 kg/s of superheated steam at 5 barg (6 bar absolute) is cooled and condensed at constant pressure from an initial temperature of 180°C to a final temperature of 140°C. What are the rates of energy removal (W) corresponding to: (i) Cooling the superheated vapour to its condensation point? (ii) Condensing the vapour? (iii) Subcooling the liquid? What are the percentage contributions to the total energy change? Data: Tsat = 159°C...

At a steam power plant, steam engines work in pairs, the heat output of the first...

At a steam power plant, steam engines work in pairs, the heat output of the first one being the approximate heat input of the second. The operating temperatures of the first are 770 ∘C and 430 ∘C, and of the second 405 ∘C and 290 ∘C. A) If the heat of combustion of coal is 2.8×107J/kg2.8×107J/kg, at what rate must coal be burned if the plant is to put out 950 MWMW of power? Assume the efficiency of the engines...