AME 3363 Information Sheet
Ideal Gases pv = RT, pV = mRT, Rair = 0.287 kJ/kgK k = cp/cv, cp = cv + R Steady-Flow Processes
�m˙i m ˙ e (Conservation of Mass) V2 V2 Q˙ - W˙ =� m˙ (h +e - gz ) � + m ˙ (hi gz ) (Conservation of Energy) CV CV e e2 e i i 2 i Work p V- p V w= 2 pdv = 2 2 1 1 (polytropic processes, n ≠ 1) 1 1- n
骣V2 骣 V 2 =p2 V 2 ln琪 = p 1 V 1 ln 琪 (polytropic processes, n = 1) 桫V1 桫 V 1 n(p V- p V ) w= - 2 v dp = 2 2 1 1 (polytropic processes, n ≠ 1) 1 n- 1
骣p1 骣 p 1 =p2 V 2 ln琪 = p 1 V 1 ln 琪 (polytropic processes, n = 1) 桫p2 桫 p 2
Entropy Changes
骣T2 骣 v 2 骣T2 骣 p 2 s2- s 1 = c v ln琪 + Rln 琪 s2- s 1 = c p ln琪 - Rln 琪 (constant specific heats) 桫T1 桫 v 1 桫T1 桫 p 1 p 2 dT骣 v2 2 s- s = c + Rln琪 s s s( T ) s( T ) R ln (variable specific heats) 2 11 v T v 2 1 2 1 p 桫 1 1
Isentropic Processes k- 1 k- 1 T骣 pk 骣 v 2=琪 2 = 琪 1 (constant specific heats) T1桫 p 1 桫 v 2 p骣 p v骣 v 2= 琪 r2 , 2= 琪 r2 (variable specific heats) p1桫 p r1 v1桫 v r1
Isentropic Efficiency
wa h 1- h 2a ht = = (Turbines) ws h 1- h 2s
ws h 2s- h 1 hp = = (Compressors, pumps) wa h 2a- h 1
W n e t Mean Effective Pressure M E P V m a x V m i n
Ideal Otto Cycle V 1 V 4 1-2 isentropic compression Compression ratio r V V 2-3 constant-volume heat addition 2 3 3-4 isentropic expansion 4-1 constant-volume heat rejection
Ideal Diesel Cycle V 3 Cut-off ratio r c 1-2 isentropic compression V 2 2-3 constant-pressure heat addition 3-4 isentropic expansion 4-1 constant-volume heat rejection
Ideal Brayton Cycle 1-2 isentropic compression p 2 p 3 Pressure ratio r p 2-3 constant-pressure heat addition p 1 p 4 3-4 isentropic expansion 4-1 constant-pressure heat rejection
Ideal Brayton Cycle with Regeneration q ε r e g e n , a c t q r e g e n , m a x