TehniÄka termodinamika - Kemijsko-tehnoloÅ¡ki fakultet

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TEHNIČKA TERMODINAMIKA__________________________________________ Rješenje Rashladni učin Rad kompresora W Q −1 Q0 = 500 ⋅ 334.95 = 167475 kJ h T − T 0 0 h = = ⋅ Q0 ε hC Th Toplina koju rashladna voda prima u kondenzatoru Utrošak rashladne vode 293 − 266 = ⋅167475 = 16999 kJ 266 −1 Q = Q0 + W = 167475 + 16999 = 184474 kJ h 184474 = − 1 3 1 8812 kg h = − 8.812 m h ⋅ 4.1868 ( 15 −10) Primjer 7.4. Kućni hladnjak učina 465 W radi sa sumpornim dioksidom kao rashladnom tvari. Isparavanje treba teći pri temperaturi od 5 °C, dok se kondenzator hladi okolnim zrakom temperature 30 °C uz ∆t = 5 °C. 3 1 n h − a) Koliki je protok rashladne tvari u m kroz elemente stroja ako proces teče u području mokre pare? b) Kolike su veličine t, p, h i x karakterističnih stanja procesa? c) Koliki je stupanj rashladnog učina? d) Skicirati proces u T, s – dijagramu! Rješenje a) −1 Q0 = 465 W = 0.465 kW = 0.465 kJ s Q m = q 0 0 320
_______________________________________________________________Rashladni strojevi 1 – 2 adijabatska kompresija ( h′′ − ) h ′ ′ 1 = h1 + x1 ⋅ 1 h1 T 0 = 278K t = 30 + ∆t = 30 + 5 = 35 °C T = 273 + 35 = 308 °C Iz tablica za zasićenu paru SO 2 slijedi m = −1 −1 s1 = s2 = s308 ′′ K = 1.289 kJ kg K ( s′′ − ) s ′ ′ 1 = s1 + x1 ⋅ 1 s1 −1 −1 s′ 1 = s278 ′ K = 0.0255 kJ kg K −1 −1 s′ 1′ = s278 ′′ K = 1.372 kJ kg K −1 h′ 1 = h278 ′ K = 6.7 kJ kg −1 h′ 1′ = h278 ′′ K = 381 kJ kg s1 − s1′ 1.289 − 0.0255 x 1 = = = 0.94 s1′′ − s1′ 1.372 − 0.0255 −1 ( 381 − 6.7) = 358.5 kJ h 1 = 6.7 + 0.94 ⋅ kg −1 h4 = h3 = h308 ′ K = 48.1kJ kg −1 q0 = h1 − h4 = 358.5 − 48.1 = 310.4 kJ kg −1 0.465 kJ s −3 −1 −3 −1 = 1.498 ⋅10 kg s = 1.498 ⋅10 ⋅ 3600 = 5.39 kg h −1 310.4 kJ kg m n = M = 5.39 − 1 3 − 1 = 0.0842 kmol h ⇒ 0.0842 ⋅ 22.414 = 1.88 m n h 64 321
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Prof. dr. sc. Nedjeljka Petric Prof
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