Please show how the efficiency of: 1. Otto cycle 2. Carnot cycle 3. Sterling cycle Are...

Carnot Thermodynamic cycle: Design a your own carnot for 1 mole on an ideal gas. A)...

Carnot Thermodynamic cycle: Design a your own carnot for 1 mole on an ideal gas. A) Describe what happens in each step. Specify a numeral value for P, V and T for each step. Step 1 Step 2 Step 3 Step 4 B) Draw a indicator (p vs V) diagram for your carnot cycle? C) Complete the following table Give starting equations final answers. Show your work? q (in kJ) w (in kJ) ∆U (in kJ) ∆H (in kJ) Step...

An ideal Otto cycle engine, an ideal Diesel cycle engine, and a Stirling engine all have...

An ideal Otto cycle engine, an ideal Diesel cycle engine, and a Stirling engine all have a maximum volume of 1 liter. The volume at the end of combustion for the Otto and Diesel engines is 0.1 liter. The minimum volume for the Stirling engine is 0.1 liter. All three engines operate with air initially at 100 kPa, and have a minimum temperature of 300 K and a maximum temperature of 1200 K. Determine how much work is done for...

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...

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.

Consider n moles of an ideal monatomic gas being taken once through the Carnot cycle of...

Consider n moles of an ideal monatomic gas being taken once through the Carnot cycle of a thermal engine (motor), consisting of two isothermal processes 1-2, 3-4 at temperatures T1 = 400K and T2 = 300K and two adiabatic processes 2-3 and 4-1. Suppose that all processes are reversible. a) Sketch the graph of the cycle in P-V diagram. b) Calculate the heats of the processes 1-2, 3-4. c) Prove that the efficiency of the engine depends only on the...

A diesel cycle operates with a compression ratio of 16:1. The conditions at the beginning of...

A diesel cycle operates with a compression ratio of 16:1. The conditions at the beginning of compression are T= 90 F , p= 14.6 psia. The maximum volume in the cylinder is 85 in^3. The maximum temperature in the cycle is 1740 degrees R. The cycle can be considered ideal, except, that the compression stroke is only polytropic with n = 1.31. A) what is the mass of (air + fuel) in the cylinder? B) what is the maximum pressure...

A Carnot engine whose low-temperature reservoir is at 14.9°C has an efficiency of 20.8%. By how...

A Carnot engine whose low-temperature reservoir is at 14.9°C has an efficiency of 20.8%. By how much should the Celsius temperature of the high-temperature reservoir be increased to increase the efficiency to 68.1%? (3 sig figs)

5 kg of air in a piston cylinder assembly undergoes a Carnot power cycle. Heat is...

5 kg of air in a piston cylinder assembly undergoes a Carnot power cycle. Heat is received at temperature?1=727°C and rejected at ?3=27°C.During the heat input process, the pressure changes from ?1=1200kPa to ?2=900kPa, respectively. Assume the air behaves as an ideal gas with constant specific heats. Determine: a.pressures [kPa] at beginning and end of the isothermal heat rejection process (?3,?4) b.heat transfer from high temperature source [kJ] c.thermal efficiency d.net work output for cycle [kJ]

Construct a Carnot PV-cycle for an ideal gas with high temperature Thigh and low temperature Tlow....

Construct a Carnot PV-cycle for an ideal gas with high temperature Thigh and low temperature Tlow. Remember that the top and bottom legs are isotherms (constant temperature), so PV=NkT for the start and endpoints of those legs. The side legs must satisfy the condition that Delta(Q)=0. For your cycle, estimate 1) the work done for each step (it will be helpful to have a piece of graph paper), 2) the change in internal (heat) energy, 3) the total sum of...

TCA cycle 1. Describe some key regulatory factors for TCA 2. How do TCA and ETC...

TCA cycle 1. Describe some key regulatory factors for TCA 2. How do TCA and ETC interact? 3. What would cyanide poisoning due to TCA and how? Please help!