Please use this identifier to cite or link to this item: http://hdl.handle.net/11452/25783
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dc.date.accessioned2022-04-14T11:39:17Z-
dc.date.available2022-04-14T11:39:17Z-
dc.date.issued2012-05-
dc.identifier.citationPastakkaya, B. vd. (2012). "Experimental analysis of a solar absorption system with interior energy storage". Journal of Energy in Southern Africa, 23(2), 39-49.en_US
dc.identifier.issn1021-447X-
dc.identifier.urihttps://doi.org/10.17159/2413-3051/2012/v23i2a3161-
dc.identifier.urihttp://hdl.handle.net/11452/25783-
dc.description.abstractThis study examines experimentally the cooling application of a solar absorption system with interior energy storage that uses two different auxiliary systems. The experiments were performed at Uludag University, Bursa, Turkey on the 3rd and 4th of August 2010 that had the approximately same average outdoor temperature, 31 degrees C. A solar hot water was delivered via a 40 m2 array of flat plate solar collectors that drove a lithium chloride (LiCl) absorption heat pump with a cooling power peak of 20 kW A solar-powered air conditioning system was designed for heating and cooling in a test room that had a total floor space of 30 m2. Chilled water produced in the evaporator was supplied to the fan coil units, and the heat of condensation and absorption was rejected by means of a wet cooling tower. An electric heater and an air source heat pump were used as auxiliary systems for the absorption cooling application for two different cases when the solar energy was insufficient. Temperature variations were recorded for the absorption machine components, the test room, and the outdoors. The cooling energy, thermal energy, and daily average coefficient of performance (COP) of the absorption system were calculated for two days. Solar absorption cooling was considered for two different auxiliary systems and is presented in this manuscript. The results showed that the daily average COP of the absorption system was 0.283 for Case 1 and 0.282 for Case 2. For both cases, the interior energy storage of the absorption system enabled it to satisfy the cooling demand during the night while solar energy was not available.en_US
dc.language.isoenen_US
dc.publisherUniversity Cape Townen_US
dc.rightsinfo:eu-repo/semantics/closedAccessen_US
dc.subjectEnergy & fuelsen_US
dc.subjectSolar energyen_US
dc.subjectAbsorption systemen_US
dc.subjectHeat storageen_US
dc.subjectSolar coolingen_US
dc.subjectCooling systemen_US
dc.subjectSimulationen_US
dc.titleExperimental analysis of a solar absorption system with interior energy storageen_US
dc.typeArticleen_US
dc.identifier.wos000305922700004tr_TR
dc.identifier.scopus2-s2.0-84903950714tr_TR
dc.relation.publicationcategoryMakale - Uluslararası Hakemli Dergitr_TR
dc.contributor.departmentUludağ Üniversitesi/Orhangazi Meslek Yüksekokulu.tr_TR
dc.contributor.departmentUludağ Üniversitesi/Teknik Bilimler Meslek Yüksekokulu.tr_TR
dc.contributor.departmentUludağ Üniversitesi/Mühendislik Fakültesi/Makine Mühendisliği Bölümü.tr_TR
dc.relation.bap2008/63tr_TR
dc.contributor.orcid0000-0001-5027-9458tr_TR
dc.identifier.startpage39tr_TR
dc.identifier.endpage49tr_TR
dc.identifier.volume23tr_TR
dc.identifier.issue2tr_TR
dc.relation.journalJournal of Energy in Southern Africaen_US
dc.contributor.buuauthorPastakkaya, Bilsay-
dc.contributor.buuauthorYamankaradeniz, Nurettin-
dc.contributor.buuauthorKaynaklı, Ömer-
dc.contributor.buuauthorCoşkun, Salih-
dc.contributor.buuauthorYamanakaradeniz, Recep-
dc.contributor.researcheridAAA-1753-2021tr_TR
dc.contributor.researcheridR-2401-2018tr_TR
dc.subject.wosEnergy & fuelsen_US
dc.indexed.wosSCIEen_US
dc.indexed.scopusScopusen_US
dc.wos.quartileQ4en_US
dc.contributor.scopusid56257775400tr_TR
dc.contributor.scopusid26645227400tr_TR
dc.contributor.scopusid8387145900tr_TR
dc.contributor.scopusid26644674500tr_TR
dc.contributor.scopusid56257534000tr_TR
dc.subject.scopusAbsorption Refrigeration; Solar Cooling; Lithium Bromideen_US
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