Calculate the effectiveness of a regenerator using cold-air-standard assumptions. Use T5=200K, T4=250K, and T2=100K.

A Student cycle engine is analyzed using the cold air-standard method. Given the definition of each...

A Student cycle engine is analyzed using the cold air-standard method. Given the definition of each process in the cycle, determine the thermal efficiency of the engine for each set of defined ratios listed below. All ratios are given as the larger value over the smaller one. --Given Values-- Process 1-2 = Isentropic compression & volume ratio=rv12 Process 2-3 = Isothermal compression & volume ratio=rv23 Process 3-4 = Isobaric heat addition & temperature ratio=rT34 Process 4-5 = Isometric heat addition...

1. The compression ratio of an air powered diesel cycle is A = 18 and the...

1. The compression ratio of an air powered diesel cycle is A = 18 and the cutting ratio is B = 2.2. The pressure of the air at the beginning of the compression process is C = 94 kPa and the temperature is D = 32 ° C. Considering that the specific temperatures change with temperature (using the air standard, not the cold air standard only, that is, using the relative specific volumes from the table) and accepting the gas...

Use cold-air-standard analysis with the fluid modeled as an ideal gas with R=0.287 kJ/kg-K and constant...

Use cold-air-standard analysis with the fluid modeled as an ideal gas with R=0.287 kJ/kg-K and constant k=1.4. Neglect changes in kinetic and potential energy. Consider a SSSF of air at 300 K and 100 kPa entering the compressor of a Simple Brayton Cycle Gas Turbine powerplant. The cycle pressure ratio is 40 and maximum cycle temperature is 1800 K. For compressor isentropic efficiency of 82% the compressor work input per unit mass = __ kJ/kg (enter the nearest positive integer...

A Diesel cycle engine is analyzed using the cold air standard method. Given the conditions at...

A Diesel cycle engine is analyzed using the cold air standard method. Given the conditions at state 1, compression ratio (r), and cutoff ratio (rc) determine the efficiency and other values listed below. Note: The specific heat ratio and gas constant for air are given as k=1.4 and R=0.287 kJ/kg-K respectively. Given Values T1 (K) = 326 P1 (kPa) = 105 r = 16.5 rc = 1.8 a) Determine the specific internal energy (kJ/kg) at state 1. b) Determine the...

Your new engine design consists of a piston cylinder arrangement. The engine operates with mostly air...

Your new engine design consists of a piston cylinder arrangement. The engine operates with mostly air and a small amount of fuel. The system undergoes a cycle. The initial Pressure and temperature are p1= 1bar and T1= 27°C. The system undergoes a power cycle consisting of the following process: Process 1-2                         constant volume to a pressure, P2 of 4 bars Process 2-3                         expansion of pv=constant Process 3-1                         constant-pressure compression Draw the system and pv diagrams If P2 is 4...

Using standard electrode potentials calculate ΔG∘rxn and use its value to estimate the equilibrium constant for...

Using standard electrode potentials calculate ΔG∘rxn and use its value to estimate the equilibrium constant for each of the reactions at 25 ∘C. Pb2+(aq)+Mg(s)→Pb(s)+Mg2+(aq).

1. Calculate the thermoeconomic cost of the produced electricity using the internal combustion device described in...

1. Calculate the thermoeconomic cost of the produced electricity using the internal combustion device described in homework 7. with and without the heat exchanger. Use the results you calculated to answer this question. This question is focusing on the thermoeconomic costs. The electricity is produced for 10 hours a day, five days per week during a one year cycle. The following cost information is given for the internal combustion device. The cost of the device is $125,000 and it has...