Šta se može očekivati od apsorpcione rashladne mašine?
##plugins.themes.bootstrap3.article.sidebar##
Objavljeno
Jan 17, 2017
##plugins.themes.bootstrap3.article.main##
Apstrakt
U radu je izložena termodinamička analiza rashladnog ciklusa apsorpcionog rashladnog uređaja sa smesom voda – amonijak kao rashladnim fluidom. Instalacija sadrži rektifikacionu kolonu i dodatne razmenjivače toplote u cilju povećanja termodinamičke efikasnosti hlađenja. Dati su šema i opis sistema i procedure proračuna. Priložena je tabela sa izračunatim veličinama stanja. Navedene su karakteristike uporednog levokretnog ciklusa sa kompenzacionim procesom zasnovanim na dovođenju rada. Zaključeno je da apsorpciona mašina pod određenim uslovima može da bude uporediva sa kompresorskom pod uslovom da se preduzmu sve mere za poboljšanje rashladnog ciklusa apsorpcione mašine.
##plugins.themes.bootstrap3.article.details##
Kako citirati
KOSI, Franc et al.
Šta se može očekivati od apsorpcione rashladne mašine?.
KGH – Klimatizacija, grejanje, hlađenje, [S.l.], v. 40, n. 3, p. 47-51, jan. 2017.
ISSN 2560-340X.
Dostupno na: <https://izdanja.smeits.rs/index.php/kgh/article/view/1331>. Datum pristupa: 18 apr. 2026
Broj časopisa
Sekcija
Tematski članci
Reference
[1] ***: Niebergall, W., Sorptions-Kaeltemaschinen, Handbuch der Kältetechnik, 7 Band, Herausgegeben von R. Plank, Springer-Verlag Berlin, 1959.
[2] Bošnjaković F., Nauka o toplini – III dio, Zagreb, 1986.
[3] Markoski M., Rashladni uređaji, Mašinski fakultet, Beograd, 2006.
[4] ***: ASHRAE Handbook, American Society of Heating, Refrigeration and Air-Conditioning, Engineers, inc., Tullie Circle, n. e., Atlanta, GA 30329.
[5] Adewusi, S. A., Syed M. Zubair, Second law based thermodynamic analysis of ammonia – water absorption systems, Energy Conversion and Management, 45(2004), pp. 2355 – 2369.
[6] Rossa, Janilson Arcangelo and Edson Bazzo, Thermodynamic Modeling of an Ammonia-Water Absorption System Associated with a Microturbine, Int. J. of Thermodynamics, Vol. 12 (No. 1), pp. 38 – 43, March 2009.
[7] Ryan, W., New Developments In Gas Cooling, ASHRAE Journal, pp. (23 – 26), April, 2002.
[8] Ibrahim, T. A., Mohamed Gadalla, R. Krotil, and H. Halozan, Steady-State Simulation of a Single Stage Ammonia-Water Absorption Heat Pump System, Proceedings of the 2nd International Exergy, Energy and Environment Symposium (IEEES2), Kos – Greece, 3 – 7 July, 2005.
[9] *** Thermophysical Properties of (NH3+H2O) Mixtures for the Industrial Design of Absorption Refrigeration Equipment, M. Conde Engineering, www.mrc – eng.com, 2006.
[2] Bošnjaković F., Nauka o toplini – III dio, Zagreb, 1986.
[3] Markoski M., Rashladni uređaji, Mašinski fakultet, Beograd, 2006.
[4] ***: ASHRAE Handbook, American Society of Heating, Refrigeration and Air-Conditioning, Engineers, inc., Tullie Circle, n. e., Atlanta, GA 30329.
[5] Adewusi, S. A., Syed M. Zubair, Second law based thermodynamic analysis of ammonia – water absorption systems, Energy Conversion and Management, 45(2004), pp. 2355 – 2369.
[6] Rossa, Janilson Arcangelo and Edson Bazzo, Thermodynamic Modeling of an Ammonia-Water Absorption System Associated with a Microturbine, Int. J. of Thermodynamics, Vol. 12 (No. 1), pp. 38 – 43, March 2009.
[7] Ryan, W., New Developments In Gas Cooling, ASHRAE Journal, pp. (23 – 26), April, 2002.
[8] Ibrahim, T. A., Mohamed Gadalla, R. Krotil, and H. Halozan, Steady-State Simulation of a Single Stage Ammonia-Water Absorption Heat Pump System, Proceedings of the 2nd International Exergy, Energy and Environment Symposium (IEEES2), Kos – Greece, 3 – 7 July, 2005.
[9] *** Thermophysical Properties of (NH3+H2O) Mixtures for the Industrial Design of Absorption Refrigeration Equipment, M. Conde Engineering, www.mrc – eng.com, 2006.