第七章制冷、压缩和蒸汽动力循环7-19某郎肯循环以水为工质,运行于14Mpa和0.007Mpa之间,循环最高温度为540°C,试求:(a)循环的热效率;(b)水泵功与透平功之比:(c)提供1KW电的正气循环量。解:(a)查水蒸气表14Mpa813K过热蒸汽:h,=3431.9kJ·kg-S, =6.528kJ.K-l.kg-l工质在透平中等嫡膨胀:S,=S,=6.528kJ·K-l.kg-!查报和水蒸气压力表P=0.007MPaT=39°C=312Kh,=163.32kJ/kghg=2571.6kJ/kgS, =0.5589kJ /(kg·K)Sg=8.2739kJ /(kg·K)v=0.001m2/kg膨胀终点:S, = Sgxg +(1-x,)S)6.528=8.2739x, +(1-x,)×0.55891得x=0.7737h, =hgx; +(1-x;,)h, = 2571.6×0.7737 +(1-0.7737)x163.32= 2026.606kJ /kg透平等摘产生功:Ws(R) =-(Ah)=-(h,-h,)=3431.9-2026.606=1405.29kJ/kghy = h, = 163.32kJ / kg冷凝过程传热:qi=hg-h,=163.32-2026.606=-1863.286kJ/kg水泵的可逆轴功:Ws(R)pmp =-(P-P)=-0.001(14-0.007)×103 =-13.993kJ / kg由热力学第一定律:h = hg -Ws(R)pimp =163.32 +13.993 =177.313kJ / kg锅炉吸热:qh=hz-h,=343.9-177.313=3254.587kJ/kg1
第七章 制冷、压缩和蒸汽动力循环 7-19 某郎肯循环以水为工质,运行于 14Mpa 和 0.007Mpa 之间,循环最高温度为 540 , 试求: C (a)循环的热效率; (b) 水泵功与透平功之比; (c) 提供 1KW 电的正气循环量。 解:(a)查水蒸气表 14Mpa 813K 过热蒸汽: 1 2 9.3431 h kgkJ 11 2 528.6 S kgKkJ 工质在透平中等熵膨胀: 11 23 528.6 SS kgKkJ 查报和水蒸气压力表 P 007.0 MPa 31239 KCT h kgkJ l /32.163 h kgkJ g /6.2571 Sl KkgkJ )/(5589.0 Sg KkgkJ )/(2739.8 膨胀终点: /001.0 kgmv 3 55891.0)1(2739.8528.6 )1( 3 3 3 3 3 xx g SxxSS l 得 x3 7737.0 hxxhh kgkJ g l /606.202632.163)7737.01(7737.06.2571)1( 3 3 3 透平等熵产生功: W hhh kgkJ Rs /29.1405606.20269.3431)()( )( 23 hh kgkJ l 4 /32.163 冷凝过程传热: hhq kgkJ l 34 606.202632.163 /286.1863 水泵的可逆轴功 : W PPv kgkJ pumpRs /993.1310)007.014(001.0)( 3 )( 41 由热力学第一定律: Whh kgkJ pumpRs )(41 /313.177993.1332.163 锅炉吸热: hhq kgkJ H /587.3254313.1779.343 12 1
郎肯循环净功为透平产功与泵轴功的代数和:Wx =Ws(R) -W, (R) pump =1405.29-13.993=1391.297kJ / kgWA1391.297=0.4275热效率:nT=3254.587HWs(R)pump13.993=0.009957(b)水泵功与透平功之比:W,(R)1405.2911(c)提供1kw电的循环蒸汽量:0.0007187kg/smWN1391.2977-26某蒸汽压缩制冷循环用氨做工质,工作于冷凝器压力1.2Mpa和蒸发器压力0.14Mpa之间。工质进入压缩机时为饱和蒸汽,进入节流阀时为饱和液体,压缩机等摘效率为80%,制冷量为1.394×10*kJ/h。试求:(a)制冷系数:(b)氨的循环速率;(c)压缩机功率;(d)冷凝器的放热量:(e)逆卡诺循环的制冷系数。解:(a)制冷系数:工质为氨h, -h,查查T-s图h,=332kcal/kgp=0.14MPahi,-h,P=1.2MPah = h, = 80kcal / kg等:h,=420kcal/kg(t=120°C)h,-hz_332-420=0.8求得:hz=442kcal/kgn=h,-h2332-hz332-80h, -ha=2.29442-332h, -h1.39×104QL(b)m==13.221kJ/h=3.67×10-kg/s(332-80)×4.184h,-h(c)w,=-m(h,-h,)=(332-442)×4.184=-460.24kJ=-1.69KW(d) Qn = m(h -h,)=3.67×10- x(80-442)=-1.329kcal /s =-5.56kJ/s(e)以冷凝器压力1.2Mpa时,T,=30°C2
郎肯循环净功为透平产功与泵轴功的代数和: WWW kgkJ pumpRsRsN )( )( /297.1391993.1329.1405 热效率: 4275.0 587.3254 297.1391 H N T q W (b)水泵功与透平功之比: 009957.0 29.1405 993.13 ) )( Rs pumpRs W W ( (c)提供 1kw 电的循环蒸汽量: skg W m N /0007187.0 297.1391 11 7-26 某蒸汽压缩制冷循环用氨做工质,工作于冷凝器压力 1.2Mpa 和蒸发器压力 0.14Mpa 之 间。工质进入压缩机时为饱和蒸汽,进入节流阀时为饱和液体,压缩机等熵效率为 80%,制冷量为 /10394.1 hkJ 。试求: 4 (a)制冷系数; (b) 氨的循环速率; (c) 压缩机功率; (d) 冷凝器的放热量; (e) 逆卡诺循环的制冷系数。 解:(a)制冷系数:工质为氨 查 1 ' 2 21 hh hh = 查 T-S 图 h /332 kgkcal 1 p 14.0 MPa 2.1 MPaP 34 /80 kgkcalhh 等熵:h2 Ctkgkcal )120(/420 8.0 332 420332 ' 2 ' 21 21 hh h hh s 求得:h /442 kgkcal ' 2 29.2 332442 80332 1 ' 2 41 hh hh (b) hkJ skg hh Q m L /1067.3/221.13 184.4)80332( 1039.1 3 4 41 (c) s hhmw 1 kJ 69.124.460184.4)442332()( KW ' 2 ' (d) hhmQ skJskcal H /56.5/329.1)44280(1067.3)( ' 3 23 (e)以冷凝器压力 1.2Mpa 时, H CT 30 2
T, =-20°C蒸发器压力0.14Mpa时,T.20 + 2735== 5.0630+273253Th -T,n
蒸发器压力 0.14Mpa 时, L CT 20 06.5 25327330 27320 LH L TT T 3