Identyfikatory
Warianty tytułu
Absortion and ejector cooling systems powered by solar energy
Języki publikacji
Abstrakty
W artykule opisano urządzenia chłodnicze zasilane energią promieniowania słonecznego. Przegląd ograniczono do systemów absorpcyjnych i strumienicowych, którym, wg dostępnej literatury, poświęca się ostatnio najwięcej badań. Opisano możliwości zastosowania konkretnych rodzajów kolektorów w danym układzie chłodniczym, przytoczono ich charakterystyki. Dokonano teoretycznego opisu systemów absorpcyjnych jak i strumienicowych podając dodatkowo parametry pracy kilkunastu wybranych instalacji.
The article describes refrigeration systems powered by solar energy. Review was limited to absorption and ejector systems, which seems to have actually the greatest number of research devoted. The possibilities of application the various types of collectors in the cooling system were given. Their characteristics were also presented. Theoretical descriptions of the absorption and ejector systems, with additional parameters, of several selected installations were included.
Wydawca
Rocznik
Tom
Strony
34--38
Opis fizyczny
Bibliogr. 20 poz., rys., tab.
Bibliografia
- [1] DOBRIAŃSKI J.: Wymiana ciepła w instalacjach słonecznych z płaskimi kolektorami. Wydawnictwo Uniwersytetu Warmińsko-Mazurskiego, Olsztyn 2009.
- [2] MARTIN CH.L., GOSWAMI D.Y., Solar energy Pocket Reference. International Solar Energy Society. Freiburg 2005.
- [3] KASPERSKI J.: Systemy klimatyzacji absorpcyjnej LiBr/LiCl z napędem solarnym. Chłodnictwo i Klimatyzacja, 2010 nr 6, str. 30-38.
- [4] FONG K.F., CHOW T.T., LEE C.K., LIN Z., CHAN L.S.: Comparative study of different solar cooling systems for buildings in subtropical city. Solar Energy 84 (2010)227-244.
- [5] SPARBER W., NAPOLITANO A., MKLOGRANO P: Overview on worldwide installed solar cooling systems. 2nd International Conference Solar Air Conditioning, Tarragona - Spain, October 2007.
- [6] ROSIEK S., BATLLES EJ.: Integration of the solar thermal energy in the construction: analysis of the solar-assisted air-conditioning system installed in CIESOL building, Renewable Energy 34 (2009) 1423-1431.
- [7] SYED A., IZQUIERDO M., RODRIGUEZ R, MAIDMENT G., MISSENDEN J., LECUONA A., et al.: A novel experimental investigation of a solar cooling system in Madrid. International Journal of Refrigeration 28 (2005) 859-871.
- [8] AGYENIM E, KNIGHT L, RHODES M.: Design and experimental testing of the performance of an outdoor LiBr/H2O solar thermal absorption cooling system with a cold storę. Solar Energy 84 (2010) 735-744.
- [9] ZHAI X.Q., WANG R.Z.: A review for absorption and adsorption solar cooling systems in China. Renewable and Sustainable Energy Reviews 13 (2009) 1523-1531.
- [10] QU M., YIN H., ARCHER D.H.: A solar thermal cooling and heating system for a building: Experimental and model based performance analysis and design. Solar Energy 84 (2010) 166-182.
- [11] ALI A.H.H., NOERES R, POLLERBERG C.: Performance assessment of an integrated free cooling and solar powered single-effect lithium bromide-water absorption chiller. Solar Energy 82 (2008) 1021-1030.
- [12] ZAMBRANO D., BORDONS C, GARCIA-GABIN W., CAMACHO E.F.: Model development and validation of a solar cooling plant. International Journal of Refrigeration 31 (2008) 315-327.
- [13] BERMEJO P., PINO F.J., ROSA E: Solar absorption cooling plant in Seville. Solar Energy 84 (2010) 1503-1512.
- [14] ABDULATEEF J.M., SOPIAN K., ALGHOUL M.A., SULAIMAN M.Y: Review on solar-driven ejector refrigeration technologies. Renewable and Sustainable Energy Reviews 13 (2009) 1338-1349.
- [15] CLEMKNS POLLERBERG C., ALI A.A.H., DOTSCH C.: Experimental study on the performance of a solar driven steam jet ejector chiller. Energy Conversion and Management 49 (2008) 3318-3325.
- [16] ALEXIS G.K., KARAYIANNIS E.K.: A solar ejector cooling system using refrigerant R134a in the Athens area. Renewable Energy 30 (2005) 1457-1469.
- [17] ERSOY H. K., YALCIN S., YAPICI R., OZGOREN M.: Performance of a solar ejector cooling-system in the southern region of Turkey. Applied Energy 84 (2007)971-983.
- [18] GUO J., SHF.N H.G.: Modeling solar-driven ejector refrigeration system offering air conditioning for office buildings. Energy and Buildings 41 (2009) 175-181.
- [19] PRIDASAWAS W., LUNDQVIST R: A year-round dynamic simulation of a solar-driven ejector refrigeration system with iso-butane as a refrigerant. International Journal of Refrigeration 30 (2007) 840-850.
- [20] BALARAS C.A., GROSSMAN G., HKNNTNG H.-M., CARLOS A., FERREIRA L, PODESSER E.: Solar air conditioning in Europe - an overview. Renewable and Sustainable Energy Reviews 11 (2007) 299-314.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPG8-0067-0005