A compressor has an isentropic efficiency of 0.5. It compresses 1.0 kg/s of steam from P=0.1...

An adiabatic air compressor compresses 0.1 kg/s of air at 120 kPa and 22 C to...

An adiabatic air compressor compresses 0.1 kg/s of air at 120 kPa and 22 C to 900 kPa and 227 C. Determine the power required to do the job. Express the power in kW and enter the absolute value (no signs).

- a vapour-compression air-conditioning cycle where the compressor has an isentropic efficiency of 75%. Refrigerant (R12)...

- a vapour-compression air-conditioning cycle where the compressor has an isentropic efficiency of 75%. Refrigerant (R12) is used as the working fluid with a mass now rate of 0.04kg/s. saturated vapour eaters the compressor at 0.5 MPa and leaves to the condenser at 1.2IMPa. The air-conditioner cools down the station to 26°C through an evaporator, and rejects heat to the 34°C ambient through a condenser. (a) Sketch and label the schematic of the air-conditioning cycle and its T-S and P-h...

Suppose the adiabatic compressor takes in nitrogen gas at 30 C and 1 atm and compresses...

Suppose the adiabatic compressor takes in nitrogen gas at 30 C and 1 atm and compresses it to 275 C and 5 atm. a) Find the compressor efficiency, nc. b) What is the specific entropy generation, Sgen? c) Assuming the mass flow rate 0.40925 kg/s, how much power would the compressor require?(d)Draw the P-v, T-v, and T-s diagrams for the compressor. Clearly label each point

A steam turbine receives steam from two boilers. One flow is 5 kg/s at 3 MPa,...

A steam turbine receives steam from two boilers. One flow is 5 kg/s at 3 MPa, 700°C and the other flow is 15 kg/s at 800 kPa, 500°C. The exit state is 10 kPa, with a quality of 96%. The actual power output is 22MW. A steam turbine receives steam from two boilers. One flow is 5 kg/s at 3 MPa, 700°C and the other flow is 15 kg/s at 800 kPa, 500°C. The exit state is 10 kPa, with...

Consider a combined gas-steam power cycle. The topping cycle is a simple Brayton cycle that has...

Consider a combined gas-steam power cycle. The topping cycle is a simple Brayton cycle that has a pressure ratio of 7. Air enters the compressor at 15 ºC at a rate of 10 kg/s and the gas turbine at 950 ºC. The bottoming cycle is a reheat Rankine cycle between the pressure limits of 6 MPa and 10 kPa. Steam is heated in a heat exchanger at a rate of 1.15 kg/s by the exhaust gases leaving the gas turbine,...

A steam turbine has inlet steam pressure p1 = 1.4 MPa absolute. Inlet steam temperature is...

A steam turbine has inlet steam pressure p1 = 1.4 MPa absolute. Inlet steam temperature is T1 = 400 oC. This corresponds to inlet enthalpy per unit mass of h1 = 3121 kJ/kg. Exit pressure of the steam is p2 = 101 kPa absolute. Exit steam temperature is T2 = 100 oC. This corresponds to exit enthalpy per unit mass of h2 = 2676 kJ/kg. Inlet speed of the steam is V1 = 15 m/s and exit speed is V2...

Portfolio Risk and Return. Suppose that the S&P 500, with a beta of 1.0, has an...

Portfolio Risk and Return. Suppose that the S&P 500, with a beta of 1.0, has an expected return of 13% and T-bills provide a risk-free return of 4%. (LO12-2) a. What would be the expected return and beta of portfolios constructed from these two assets with weights in the S&P 500 of (i) 0; (ii) .25; (iii) .5; (iv) .75; (v) 1.0? b. On the basis of your answer to (a), what is the trade-off between risk and return, that...

Suppose that the S&P 500, with a beta of 1.0, has an expected return of 14%...

Suppose that the S&P 500, with a beta of 1.0, has an expected return of 14% and T-bills provide a risk-free return of 5%. a. What would be the expected return and beta of portfolios constructed from these two assets with weights in the S&P 500 of (i) 0; (ii) 0.25; (iii) 0.50; (iv) 0.75; (v) 1.0? (Leave no cells blank - be certain to enter "0" wherever required. Do not round intermediate calculations. Enter the value of Expected return...

Suppose that the S&P 500, with a beta of 1.0, has an expected return of 11%...

Suppose that the S&P 500, with a beta of 1.0, has an expected return of 11% and T-bills provide a risk-free return of 4%. a. What would be the expected return and beta of portfolios constructed from these two assets with weights in the S&P 500 of (i) 0; (ii) 0.25; (iii) 0.50; (iv) 0.75; (v) 1.0? (Leave no cells blank - be certain to enter "0" wherever required. Do not round intermediate calculations. Enter the value of Expected return...

Carbon dioxide (CO2) gas is compressed at steady state from 0.8 bar and 17 °C to...

Carbon dioxide (CO2) gas is compressed at steady state from 0.8 bar and 17 °C to 3.5 bar with a compressor drawing 10 kW of power. The CO2 flows through the compressor at a rate of 0.1 m3/s through an inlet orifice that is 200 cm2. The gas leaves the compressor at a velocity of 12 m/s. Heat loss from the compressor to the surroundings is roughly 2% of the power fed to the compressor. In addition to the Give,...