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Gas Power Systems Nick DiFilippo. Spark Ignition Compression Ignition Compression Ratio.

Published byDwayne Dorsey Modified over 9 years ago

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Presentation on theme: "Gas Power Systems Nick DiFilippo. Spark Ignition Compression Ignition Compression Ratio."— Presentation transcript:

1 Gas Power Systems Nick DiFilippo

2 Spark Ignition Compression Ignition Compression Ratio

3 Air Standard Otto Cycle Q Q Q Q

4

5 Air Standard Diesel Cycle Q Q Q Q Cold air standard Air standard

6 Comparison of Otto and Diesel Cycle

7

8 Air Standard Dual Cycle Q Q Q Q Q Q

9

10 Gas Turbine Power Plants

11 Air Standard Brayton Cycle

12

13 Actual Gas Turbine

14 T1 = 300K h1 = 300.19 kJ/kg Pr1 = 1.3860 State 1 T2s = 540K h2s = 544.24 kJ/kg State 2s State 3 T3 = 1300K h3 = 1395.97kJ/kg Pr3 = 330.9 T4s = 720.2K h4s = 789.37 kJ/kg State 4s

15 Brayton With Regeneration T4>T2

16 T1 = 300K h1 = 300.19 kJ/kg Pr1 = 1.3860 State 1 T2s = 540K h2s = 544.24 kJ/kg State 2s State 3 T3 = 1300K h3 = 1395.97kJ/kg Pr3 = 330.9 T4s = 720.2K h4s = 789.37 kJ/kg State 4s State 2State 4 T4 = 853K h4 = 880.36 kJ/kg T2 = 598K h2 = 605.39 kJ/kg

17 Brayton with Intercooling, Reheating and Regeneration Reheat

18

19

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