TehniÄka termodinamika - Kemijsko-tehnoloÅ¡ki fakultet

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TEHNIČKA TERMODINAMIKA _____________________________________________ Veličinu M s možemo shvatiti kao prividnu molarnu masu ukupna masa smjese, slijedi m n s = , kmol M s smjese. Ako je m pa opća jednadžba stanja smjese glasi gdje je Iz jednadžbe stanja jedne komponente i jednadžbe stanja smjese slijedi izraz p ⋅V = ns ⋅ 8 . 314 ⋅T kPa m 3 = kmol kJ kmol K 1 K n = n + n + ... + −1 − s 1 2 n n . p ⋅V = n ⋅ 8. 314 ⋅T 1 1 p ⋅V = n ⋅ 8 . 314 ⋅T V 1 n1 = , V n što znači da volumni udjeli predočuju ujedno i množinske udjele pojedinih kom- tj. iz volumnog sastava smjese možemo izračunati množinske ponenata u smjesi, udjele komponenata u smjesi. Iz izraza V1 p1 p1 n1 = slijedi = . V p p n Stoga je V1 p1 n1 = = V p n Primjer 1.8. U plinometru plinare volumena 9000 m 3 nalazi se plin čiji je sastav u volumnim postocima: 40
__________________________________________________________________Uvod CO 2 = 13.8 vol% O 2 = 0.2 vol% CO = 25.1 vol% H 2 = 43.2 vol% CH4 = 10.3 vol% N 2 = 7.4 vol%. Temperatura plina je 25 °C, a tlak 112.776 kPa. Koliko kg, molova, m n plina sadrži plinometar? Kolik i su maseni udjeli pojedinih sudionika (komponenata), a koliki su parcijalni tlakovi? 3 Rješenje Kod rješavanja zadataka služimo se sljedećim izrazima, koji vrijede za plinske smjese. Prividna molarna masa smjese M = ∑ n s ( ϕ i M i ) i= 1 Maseni udjeli sudionika ϕi M i ω i = n ∑ ( ϕi M i ) i= 1 Parcijalni tlakovi pi = ϕ i ⋅ p Rješenje je dijelom prikazano tabelarno. ϕ 1 S M i i udionici ϕ i i − kg kmol 1 − kg kmol ω i p i ,Pa CO 2 0.138 44 6.072 0.3422 15563.2 O 2 0.002 32 0.064 0.0036 225.5 CO 0.251 28 7.028 0.3959 28311.8 H 2 0.432 2 0.864 0.0487 48719.4 CH 4 0.103 16 1.648 0.0929 11611.1 N 2 0.074 28 2.072 0.1167 8345.5 Σ 17.748 1.0000 112776 41
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