TehniÄka termodinamika - Kemijsko-tehnoloÅ¡ki fakultet

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ad. TEHNIČKA TERMODINAMIKA__________________________________________ stupanj rashladnog učina ovisan samo o temperaturama T 0 i T h , a ne o razmaku adijabata. Naravno da ćemo težiti prema što potpunijem iskorištavanju zasićenog područja jer se time povećava rashladni učin po kilogramu optočnog medija. Tlak u isparivaču je obično veći od 1 bar, tako da je specifični volumen isparivača istog reda veličine kao i kod zraka zračnog rashladnog stroja. Zbog velike topline isparavanja bit će rashladni učin jednog kilograma medija velik. Posljedica toga je je da će potrebni volumen cilindra parnog rashladnog stroja biti puno manji od volumena zračnog stroja istog rashladnog učina, a to je također velika prednost parnih rashladnih strojeva. ad. Slika 116. p, v – dijagram parnog rashladnog uređaja s kompresorom i ekspanzijskim strojem Ekspanzijski rad u ekspanzijskom cilindru parnog rashladnog stroja tako je malen da će ga progutati trenje u polužju. Zbog toga se odustaje od uporabe ekspanzijskog cilindra i nadomješta se puno jednostavnijim prigušnim ventilom, tzv. redukcijskim ventilom. Umjesto ekspanzijskog cilindra u ovom slučaju u 312
_______________________________________________________________Rashladni strojevi shemu kompresorskog parnog rashladnog stroja uvodi se prigušni ventil kao jednostavniji uređaj, tako da se iz čisto praktičnih razloga povratni proces adijabatske ekspanzije zamjenjuje nepovratnim procesom prigušivanja 3 – 5, slika 117. Slika 117. Shema parnog stroja s redukcijskim ventilom (a) i prikaz u T, s – dijagramu Prigušivanje je označeno uvjetom h = konst. U T, s – dijagramu stanje 5 iza prigušnog ventila leži na crti h = konst. koja prolazi stanjem 3. Kako točka 5 leži desno od 4, dobivamo manji rashladni učin q 0 h1 − h5 = . Prema prijašnjem pogonu rashladni učin smanjio se za površinu 4 – 5 – b – a. Budući da se u kondenzatoru odvodi ista količina topline q = h 2 − h 3 kao i prije, sada se troši nešto više rada i to za istu površinu 4 – 5 – b – a. Potreban rad predočen je površinom 1 – 2 – 3 – a – b – 5 – 1. Ovdje je h 3 = h 5 (entalpija tijekom prigušivanja ostaje konstantna) pa je i w = h − h 0 , 3 ,5 3 5 = tj. utrošeni kompenzacijski rad u ovom slučaju je veći nego u slučaju postojanja ekspanzijskog stroja i iznosi 313
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Prof. dr. sc. Nedjeljka Petric Prof
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TehniÄka termodinamika - Kemijsko-tehnoloÅ¡ki fakultet

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