TehniÄka termodinamika - Kemijsko-tehnoloÅ¡ki fakultet

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TEHNIČKA TERMODINAMIKA _________________________________________ Plinove ekspandiramo adijabatski na tako nizak tlak ( p 2 ) da se ohlade na okolnu temperaturu ( T 0 ). Pri tome se mora, naravno, vršiti rad prema višem okolnom tlaku ( p 0 ), a taj rad predočen je površinom 1 – a – 2. Nakon što smo u 2 postigli okolnu temperaturu na povrativ način, treba plinove od preniskog tlaka provesti na okolni tlak. Komprimirat ćemo plinove od 2 do 3 izotermno, pri čemu toplinu kompresije predajemo okolini sa stalnom temperaturom, uz neprimjetan pad temperature, tj. povrativo. Viši vanjski tlak obavlja sada rad predočen površinom 3 – a – 2. Razlika radova, predočena površinom 1 – 2 – 3, predstavlja sveukupno dobiveni i ujedno najveći mogući rad W. Ovaj proces se praktički teško može provesti zbog visokih temperatura plinova, što štetno djeluje na obrađene dijelove stroja i zbog velikog volumena plinova pri vrlo niskom konačnom tlaku ekspanzije. Rad koji možemo dobiti računa se prema jednadžbi W max. 1 3 0 ( S − S ) + p ( V −V ) = U −U − T . Zadana je bila temperatura T1 i volumen V1 . Kako je i to iz izraza slijedi da je 1 T 3 = T 0 p = 3 1 = p3 p0 ⎛ T ⎞ ⎜ 1 p1 S1 − S3 = m ⋅ c p ⋅ ln − R ⋅ ln ⎟ ⎝ T3 p3 ⎠ Iz jednadžbe stanja za idealni plin slijedi Dalje slijedi 146 T1 T1 S1 − S3 = m ⋅ c p ⋅ ln = m ⋅ c p ⋅ ln . T3 T0 ⎛ T ⎞ p 0 . ( ) ( ) ⎜ 1 V1 − V3 = m ⋅ R ⋅ T1 − T0 = m ⋅ R ⋅T0 −1 ⎟ ⎝ T0 ⎠ 0 ( T ) U v − 1 − U3 = m ⋅ c 1 T3 T 3 = T 0 1 3
_________________________________________________Drugi glavni zakon termodinamike Pošto je ⎛ T ⎞ U1 − U 3 = m ⋅ cv ⋅ 1 . ( ) ⎜ 1 T1 − T0 = m ⋅ cv ⋅T0 − ⎟ ⎝ T0 ⎠ c p − cv = R to uvrštavanjem navedenih izraza dobivamo ⎛ T ⎞ ⎜ 1 T1 Wmax. = m ⋅ c p ⋅T0 −1 − ln ⎟ . ⎝ T0 T0 ⎠ 4.5.1.3. Maksimalan rad tehničkog stalnotlačnog procesa Tlak u nekom tlačnom spremniku, npr. pneumatski alat, održava se na istoj visini. Da bi se stlačeni zrak iskoristio, priključuje se na tlačni spremnik radni cilindar koji kod svakog stapaja usiše potrebnu količinu stlačenog zraka uz stalan tlak p 1 , što je označeno linijom 4 – 1 na sljedećem dijagramu, slika 40. Pri tom se stapu predaje rad predočen površinom 4 – 1 – b – a. Kako je upusni ventil zatvoren, ekspandira zrak izotermno do tlaka p 0 (stanje 2), pri čemu površina 1 – 2 – c – b predočuje rad predan stapu. Slika 40. Tehnički stalnotlačni proces 147
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