Internal Combustion Engines. Allan T. Kirkpatrick
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Table 2.2 Input Parameters for Four‐Stroke Gas Cycle
Parameter | Description |
|
inlet air or mixture temperature |
|
compression ratio |
|
exhaust pressure |
|
inlet pressure |
|
ideal gas specific heat ratio |
|
energy addition per unit mass of gas induced |
6, i ‐1: Intake stroke
1‐2: Isentropic compression stroke
2‐3: Constant volume heat addition
3‐4: Isentropic expansion stroke
4‐5: Isentropic blowdown
5‐6: Constant pressure adiabatic exhaust stroke
Appendix F contains a listing of the program FourStrokeOtto.m
, which iterates through the above four‐stroke Otto gas cycle equations to determine the cycle pressures, temperatures, and the overall thermal parameters.
Example 2.3 Four‐Stroke Otto Cycle
Compute the volumetric efficiency, net thermal efficiency, residual fraction, intake stroke temperature rise
Solution
The program input portion of FourStrokeOtto.m
is shown below.
four-stroke Otto cycle model Input parameters: Ti = 300; inlet temperature (K) Pi = 50; inlet pressure (kPa) Pe = 100; exhaust pressure (kPa r = 10; compression ratio qin = 2500; energy addition, kJ/kg (gas) R = 0.287; gas constant (kJ/kg K) f = 0.05; guess value of residual fraction f Tr = 1000; guess value of exhaust temp (K) tol = 0.001; convergence tolerance ....
For the above conditions, as shown in Tables 2.3 and 2.4, the computation indicates that the intake stroke temperature rise,
Table 2.3 State Variables for Four‐Stroke Example 2.3
State | 1 | 2 | 3 | 4 |
Pressure (kPa): | 50.0 | 997.6 | 4582.6 | 229.7 |
Temperature (K): |
|