1. An engine operating at a hot-air standard (k=1.35) Dual Combustion Cycle handles air at 100kPa,...

1) An air-standard Otto cycle has a compression ratio of 9. At the beginning of the...

1) An air-standard Otto cycle has a compression ratio of 9. At the beginning of the compression process, the temperature is 20°C, and the pressure is 100 kPa. The heat added is 500 kJ/kg. Determine the cycle efficiency, work output, and the heat rejected 2) An air-standard Otto cycle operates with a minimum temperature of 300 K and a maximum temperature of 1700 K. The compression ratio of the cycle is 7. At the beginning of the compression process, the...

An air-standard dual cycle has the following elements: compression ratio = 8.0 1600 kJ/kg heat addition...

An air-standard dual cycle has the following elements: compression ratio = 8.0 1600 kJ/kg heat addition so that 30% occurs at constant volume and 70% occurs at constant pressure The state is 300K and 1 bar at the beginning of the compression process Find:   (a) the temperatures at the end of each heat addition process (b) the cycle efficiency (c) the MEP

10) An air-standard Otto cycle has a compression ratio of 9. At the beginning of the...

10) An air-standard Otto cycle has a compression ratio of 9. At the beginning of the compression process, the temperature is 20°C, and the pressure is 100 kPa. The heat added is 500 kJ/kg. Determine the cycle efficiency, work output, and the heat rejected. 11)An air-standard Otto cycle operates with a minimum temperature of 300 K and a maximum temperature of 1700 K. The compression ratio of the cycle is 7. At the beginning of the compression process, the pressure...

Air expands in a polytropic process (n = 1.35) from 2 MPa and 1200 K to...

Air expands in a polytropic process (n = 1.35) from 2 MPa and 1200 K to 150 kPa in a piston/cylinder.   Determine per unit mass of air the work produced and the heat transferred during the expansion process in kJ/kg.

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...

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...

the ideal air standard Brayton cycle consists of the following processes: 1-2 isentropic compression through a...

the ideal air standard Brayton cycle consists of the following processes: 1-2 isentropic compression through a pressur ratio rp =p2/p1 2-3 heat addition at constant pressure untill the pressure is p3 3-4 isentropic expansion to the initial pressure 4-1 heat rejection at constnt pressure A- show that the cycle efficiency for this cycle is B-Air enters compressor of a gas turbine at 100kpa and 250c.for a pressure ratio of 5 and a maximum temp of 8500c , determine the thermal...

It runs under standard air assumptions with variable specific heat, runs in a closed system, and...

It runs under standard air assumptions with variable specific heat, runs in a closed system, and consists of the following 4 processes: 4-1: Isentropic compression of 100kPa and 22ºC up to 600kPa 1-2: Adding heat up to 1500K (at constant volume) 2-3: Isentropic expansion down to 100kPa 3-4: Heat rejection (at constant pressure) a) Calculate the net output work (in kJ / kg) b) Determine the thermal efficiency of the system (Expressed in%) c) Plot the cycle on your "P-v"...

At the beginning of the compression process of an air-standard Otto cycle, p1 = 1 bar...

At the beginning of the compression process of an air-standard Otto cycle, p1 = 1 bar and T1 = 300 K. The compression ratio is 6 and the heat addition per unit mass of air is 1500 kJ/kg. Determine: (a) the maximum temperature of the cycle, in K. (b) the net work, in kJ/kg. (c) the percent thermal efficiency of the cycle. (d) the mean effective pressure, in kPa.

In case your selection was a gasoline engine, evaluate the performance of a four-cylinder four-stroke engine...

In case your selection was a gasoline engine, evaluate the performance of a four-cylinder four-stroke engine that operates on the ideal Otto cycle and has a compression ratio of 11. At the beginning of the compression process, the air is at 90 kPa and 27°C, and 500 kJ/kg of heat is transferred to air during the constant-volume heat-addition process. Accounting for the variation of specific heats of air with temperature, determine the required power the engine will deliver at 3000...