Q = riiCpAT |
u 1 ł—« 'W LT. II Z |
Q = riiAh |
CR1(l-Kt.„1) = CR2(l-KclT2) |
Q = U A AT |
1/M = CRj/CR* |
Q a ^NatCirc |
A = Tir2 |
AT« riiNat arc |
F = PA |
Kcff=l/(1- P) |
< G. II •c |
P = (Keff - 1)/Keff |
Wpump = iiiAPu |
SUR = 26.06/t |
P = I2R |
3eff _ P |
P = IE |
X “ — *eff P |
PA = >/3IE |
p = r + 1 T l+XcffT |
PT = >/3IEpf |
r = 1.0 x 10-4 sec |
PR = VTlEsin0 |
Aeff = 0.1 sec-1 (for smali positive p) Thermal EfYiciency = Net Work Out/Energy In
DRW « (Pup / (Pavg P = P0et/T P = Po10SUR(l)
A = A0e-Xt
1 MW = 3.41 x 106 Btu/hr 1 hp = 2.54 xl03 Btu/hr 1 Btu = 778 ft-lbf
g(z2 ~ zj (v| - yf)
gc 2gc
g =32.2 ft/sec2
gc = 32.2 lbm-ft/lbf-sec2
°C = (5/9)(°F - 32)
°F = (9/5)(°C) + 32 1 kg =2.2! lbm
- PJ + (u2 - Uj) + (q - w)
1 ftwatcr = 7.48 gal 1 galwatcr = 8.35 lbm 1 Curie =3.7xlOł0dps