TehniÄka termodinamika - Kemijsko-tehnoloÅ¡ki fakultet

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TEHNIČKA TERMODINAMIKA _________________________________________ Slika 38. Maksimalan rad tlačnog spremnika moguće. Rad koji je izvršio zrak spremnika predočen je površinom 1 – 2 – 3 – 4 ispod izoterme 1 – 2 u p, V – dijagramu, slika 38. Jedan dio toga rada troši se za potiskivanje okolnog zraka pri stalnom vanjskom tlaku p o . Izvršeni rad sustava je a utrošeni rad potiskivanja zraka p1 W1,2,3,4 = p1 ⋅V1 ⋅ ln , p o ⎛ V ⎞ ⎛ V ⎞ ⎛ p ⎞ W2,3,4,5 = po − − 1 − . 1 ( − ) = ⋅ ⎜ 1 ⎟ = ⋅ ⎜ 1 ⎟ = ⋅ ⎜ o V2 V1 po V2 1 p1 V1 1 p1 V1 ⎟ ⎝ V2 ⎠ ⎝ V2 ⎠ ⎝ p ⎠ Ukupno dobiveni rad je jednak osjenčenoj površini 1-2-5-1 (vidi dijagram), a ne površini 1 – 2 – 3 – 4 – 1 jer površina 2 – 3 – 4 – 5 – 2 predstavlja rad utrošen na stlačivanje okolnog zraka (“sabijanje okoline”), Adijabatska ekspanzija od 1 do 2’ također je povrativ proces, ali njome bi došli u konačno stanje 2’, u kojem je postignut okolni tlak p 0 , ali temperatura je spala ispod temperature okoline t 0 . Prema tome zrak cilindra u tome stanju još nije prilagođen okolini te proces zapravo još nije završen. Zbog toga je ovako dobiveni rad manji od izotermno dobivenog. Kada bismo naknadno od 2’ 144
_________________________________________________Drugi glavni zakon termodinamike do 2 dovodili toplinu od okoline čija je temperatura primjetno viša, zrak bi se još rastegnuo. Dobili bismo željeno stanje 2, ali ovaj prijelaz topline bio bi nepovrativ zbog konačnih razlika temperatura kod prijelaza topline, tako da bi dobiveni rad i u tom slučaju ostao manji od izotermno dobivenog. Međutim, treba osobito naglasiti da za dobivanje najvećeg rada nije odlučujuće da li se ekspanzija vrši adijabatski ili izotermno ili bilo kako drukčije, već da li je proces izvršen povrativim ili nepovrativim načinom. 4.5.1.2. Maksimalan rad vrućih plinova Razmotrit ćemo primjer kada je dobiveni rad rezultat razlike temperatura davatelja rada i okoline. Treba odrediti, npr. maksimalan rad vrućih plinova temperature T1 i volumena V1 koji su nastali sagorijevanjem goriva u ložištu pri atmosferskom tlaku ( p 1 = p0 ). Maksimalan rad dobit će se ako se vrući plinovi na povrativ način dovedu u ravnotežu s okolinom, tj. da u konačnom stanju bude i p = 3 = p1 p0 T 2 = T 0 . To je moguće izvesti na taj način što će se plinovi najprije adijabatski ekspandirati do temperature okoline ( T 0 ) , a zatim izotermno (pri T = konst.) ponovo vratiti na početni tlak ( p 0 ), slika 39. Slika 39. Maksimalan rad iz vrućih plinova 145
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