{ "labelLang" : "hun", "responseDate" : "2024-03-29 02:04", "content" : { "otype" : "JournalArticle", "mtid" : 33555479, "status" : "APPROVED", "published" : true, "unhandledTickets" : 0, "deleted" : false, "lastRefresh" : "2024-03-11T09:58:40.590+0000", "lastModified" : "2024-02-21T10:52:13.461+0000", "created" : "2023-01-11T17:54:23.328+0000", "creator" : { "otype" : "Author", "mtid" : 10072542, "link" : "/api/author/10072542", "label" : "Alktranee Mohammed (Fluid and Heat Engineering, Energetics)", "familyName" : "Alktranee", "givenName" : "Mohammed", "published" : true, "snippet" : true }, "lastDuplumOK" : "2024-02-21T10:52:13.687+0000", "lastDuplumSearch" : "2024-02-21T10:52:13.687+0000", "core" : true, "citation" : true, "publicationPending" : false, "type" : { "otype" : "PublicationType", "mtid" : 24, "link" : "/api/publicationtype/24", "label" : "Folyóiratcikk", "code" : 24, "otypeName" : "JournalArticle", "listPosition" : 1, "published" : true, "oldId" : 24, "snippet" : true }, "subType" : { "otype" : "SubType", "mtid" : 10000059, "link" : "/api/subtype/10000059", "label" : "Szakcikk (Folyóiratcikk)", "name" : "Szakcikk", "nameEng" : "Article", "docType" : { "otype" : "PublicationType", "mtid" : 24, "link" : "/api/publicationtype/24", "label" : "Folyóiratcikk", "code" : 24, "otypeName" : "JournalArticle", "listPosition" : 1, "published" : true, "oldId" : 24, "snippet" : true }, "listPosition" : 101, "published" : true, "oldId" : 10000059, "snippet" : true }, "category" : { "otype" : "Category", "mtid" : 1, "link" : "/api/category/1", "label" : "Tudományos", "published" : true, "oldId" : 1, "snippet" : true }, "languages" : [ { "otype" : "Language", "mtid" : 10002, "link" : "/api/language/10002", "label" : "Angol", "name" : "Angol", "nameEng" : "English", "published" : true, "oldId" : 2, "snippet" : true } ], "firstAuthor" : "Alktranee, Mohammed", "authorships" : [ { "otype" : "PersonAuthorship", "mtid" : 106261964, "link" : "/api/authorship/106261964", "label" : "Alktranee, Mohammed [Alktranee, Mohammed (Fluid and Heat En...), szerző] Energetikai és Vegyipari Gépészeti Intézet (ME / GIK)", "listPosition" : 1, "share" : 0.5, "first" : true, "last" : false, "corresponding" : false, "author" : { "otype" : "Author", "mtid" : 10072542, "link" : "/api/author/10072542", "label" : "Alktranee Mohammed (Fluid and Heat Engineering, Energetics)", "familyName" : "Alktranee", "givenName" : "Mohammed", "published" : true, "snippet" : true }, "familyName" : "Alktranee", "givenName" : "Mohammed", "authorTyped" : true, "editorTyped" : false, "otherTyped" : false, "type" : { "otype" : "AuthorshipType", "mtid" : 1, "link" : "/api/authorshiptype/1", "label" : "Szerző", "code" : 0, "published" : true, "oldId" : 0, "snippet" : true }, "published" : false, "snippet" : true }, { "otype" : "PersonAuthorship", "mtid" : 106261965, "link" : "/api/authorship/106261965", "label" : "Bencs, Péter [Bencs, Péter (Áramlás- és Hőtec...), szerző] Energetikai és Vegyipari Gépészeti Intézet (ME / GIK)", "listPosition" : 2, "share" : 0.5, "first" : false, "last" : true, "corresponding" : false, "author" : { "otype" : "Author", "mtid" : 10024753, "link" : "/api/author/10024753", "label" : "Bencs Péter (Áramlás- és Hőtechnika, Áramlás megjelenítése)", "familyName" : "Bencs", "givenName" : "Péter", "published" : true, "oldId" : 10024753, "snippet" : true }, "familyName" : "Bencs", "givenName" : "Péter", "authorTyped" : true, "editorTyped" : false, "otherTyped" : false, "type" : { "otype" : "AuthorshipType", "mtid" : 1, "link" : "/api/authorshiptype/1", "label" : "Szerző", "code" : 0, "published" : true, "oldId" : 0, "snippet" : true }, "published" : false, "snippet" : true } ], "title" : "Experimental comparative study on using different cooling techniques with photovoltaic modules", "identifiers" : [ { "otype" : "PublicationIdentifier", "mtid" : 22824906, "link" : "/api/publicationidentifier/22824906", "label" : "DOI: 10.1007/s10973-022-11940-1", "source" : { "otype" : "PlainSource", "mtid" : 6, "link" : "/api/publicationsource/6", "label" : "DOI", "type" : { "otype" : "PublicationSourceType", "mtid" : 10001, "link" : "/api/publicationsourcetype/10001", "label" : "DOI", "mayHaveOa" : true, "published" : true, "snippet" : true }, "name" : "DOI", "nameEng" : "DOI", "linkPattern" : "https://doi.org/@@@", "publiclyVisible" : true, "published" : true, "oldId" : 6, "snippet" : true }, "oaType" : "GREEN", "oaFree" : true, "idValue" : "10.1007/s10973-022-11940-1", "realUrl" : "https://doi.org/10.1007/s10973-022-11940-1", "published" : false, "snippet" : true }, { "otype" : "PublicationIdentifier", "mtid" : 22960031, "link" : "/api/publicationidentifier/22960031", "label" : "WoS: 000912306900001", "source" : { "otype" : "PlainSource", "mtid" : 1, "link" : "/api/publicationsource/1", "label" : "WoS", "type" : { "otype" : "PublicationSourceType", "mtid" : 10003, "link" : "/api/publicationsourcetype/10003", "label" : "Indexelő adatbázis", "mayHaveOa" : false, "published" : true, "snippet" : true }, "name" : "WoS", "nameEng" : "WoS", "linkPattern" : "https://www.webofscience.com/wos/woscc/full-record/@@@", "publiclyVisible" : true, "published" : true, "oldId" : 1, "snippet" : true }, "validState" : "IDENTICAL", "idValue" : "000912306900001", "realUrl" : "https://www.webofscience.com/wos/woscc/full-record/000912306900001", "published" : false, "snippet" : true }, { "otype" : "PublicationIdentifier", "mtid" : 22960030, "link" : "/api/publicationidentifier/22960030", "label" : "Scopus: 85146317568", "source" : { "otype" : "PlainSource", "mtid" : 3, "link" : "/api/publicationsource/3", "label" : "Scopus", "type" : { "otype" : "PublicationSourceType", "mtid" : 10003, "link" : "/api/publicationsourcetype/10003", "label" : "Indexelő adatbázis", "mayHaveOa" : false, "published" : true, "snippet" : true }, "name" : "Scopus", "linkPattern" : "http://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-@@@", "publiclyVisible" : true, "published" : true, "oldId" : 3, "snippet" : true }, "validState" : "IDENTICAL", "idValue" : "85146317568", "realUrl" : "http://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-85146317568", "published" : false, "snippet" : true }, { "otype" : "PublicationIdentifier", "mtid" : 22824907, "link" : "/api/publicationidentifier/22824907", "label" : "Egyéb URL: https://link.springer.com/10.1007/s10973-022-11940-1", "source" : { "otype" : "PlainSource", "mtid" : 40, "link" : "/api/publicationsource/40", "label" : "Egyéb URL", "type" : { "otype" : "PublicationSourceType", "mtid" : 10006, "link" : "/api/publicationsourcetype/10006", "label" : "Link", "mayHaveOa" : true, "published" : true, "snippet" : true }, "name" : "Egyéb URL", "nameEng" : "Other URL", "linkPattern" : "@@@", "publiclyVisible" : true, "published" : true, "oldId" : 40, "snippet" : true }, "idValue" : "https://link.springer.com/10.1007/s10973-022-11940-1", "realUrl" : "https://link.springer.com/10.1007/s10973-022-11940-1", "published" : false, "snippet" : true } ], "journal" : { "otype" : "Journal", "mtid" : 10009195, "link" : "/api/journal/10009195", "label" : "JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY 1388-6150 1572-8943 1588-2926", "pIssn" : "1388-6150", "eIssn" : "1572-8943", "reviewType" : "REVIEWED", "noIF" : false, "sciIndexed" : true, "scopusIndexed" : true, "lang" : "FOREIGN", "hungarian" : false, "published" : true, "oldId" : 10009195, "snippet" : true }, "volume" : "148", "firstPage" : "3805", "lastPage" : "3817", "firstPageOrInternalIdForSort" : "3805", "pageLength" : 13, "publishedYear" : 2023, "abstractText" : "Overcoming the issue of photovoltaic (PV) module productivity at high temperatures is one of the most critical obstacles facing its use. PV cells are made of silicon, which loses its properties at high temperatures, degrading the PV module work. The present research compares cotton wicks integrated with rectangular aluminium fins (CWIRAFs) submerged in water as passive cooling with an absorbing plate and copper pipes attached at the PV module backside as active cooling. Compared with the PV module without cooling, CWIRAFs have better performance with the PV module than active cooling owing to evaporative cooling and increased heat dissipation area represented by wet cotton bristles integrated. The PV module is exposed to significant performance degradation without cooling in hot climate conditions. As a result, using CWIRAFs with the PV module had reduced the temperature by 31.4%, increased the power by up to 66.6%, and increased the electrical efficiency from 3.12 to 8.6%. Active cooling methods have reduced the PV temperature by 20.8%, increased the power by 56.7%, and enhanced electrical efficiency by 7.9%. Removing excess heat from the backside of the PV module via circulating water has improved the thermal efficiency and overall efficiency of the PVT system by about 26.3 and 34.2%, respectively.", "digital" : true, "printed" : null, "sourceYear" : 2023, "foreignEdition" : true, "foreignLanguage" : true, "fullPublication" : true, "conferencePublication" : false, "nationalOrigin" : true, "missingAuthor" : false, "oaType" : "GREEN", "oaCheckDate" : "2024-03-11", "oaFree" : true, "oaLink" : "https://doi.org/10.1007/s10973-022-11940-1", "citationCount" : 2, "citationCountUnpublished" : 0, "citationCountWoOther" : 2, "independentCitCountWoOther" : 2, "nationalOriginCitationCount" : 0, "foreignEditionCitationCount" : 2, "doiCitationCount" : 2, "wosCitationCount" : 2, "scopusCitationCount" : 0, "wosScopusCitationCount" : 2, "wosScopusCitationCountWoOther" : 2, "wosScopusIndependentCitationCount" : 2, "wosScopusIndependentCitationCountWoOther" : 2, "independentCitationCount" : 2, "selfCitationCount" : 0, "unhandledCitationCount" : 0, "citingPubCount" : 2, "independentCitingPubCount" : 2, "citingPubCountWoOther" : 2, "independentCitingPubCountWoOther" : 2, "unhandledCitingPubCount" : 0, "citedPubCount" : 1, "citedCount" : 1, "pubStats" : { "types" : [ { "type" : "Folyóiratcikk", "typeEng" : "Journal Article", "code" : 24, "count" : 2 }, { "type" : "Könyvrészlet", "typeEng" : "Chapter in Book", "code" : 25, "count" : 0 }, { "type" : "Könyv", "typeEng" : "Book", "code" : 23, "count" : 0 }, { "type" : "Egyéb konferenciaközlemény", "typeEng" : "Conference paper", "code" : 31, "count" : 0 }, { "type" : "Egyéb konferenciakötet", "typeEng" : "Conference proceedings", "code" : 32, "count" : 0 }, { "type" : "Oltalmi formák", "typeEng" : "Protection forms", "code" : 26, "count" : 0 }, { "type" : "Disszertáció", "typeEng" : "Thesis", "code" : 28, "count" : 0 }, { "type" : "Egyéb", "typeEng" : "Miscellaneous", "code" : 29, "count" : 0 }, { "type" : "Alkotás", "typeEng" : "Achievement", "code" : 22, "count" : 0 }, { "type" : "Kutatási adat", "typeEng" : "Research data", "code" : 33, "count" : 0 } ], "citationTypes" : [ { "type" : "Folyóiratcikk", "typeEng" : "Journal Article", "code" : 24, "countUnknown" : 0, "countIndependent" : 0, "countSelfCitation" : 0 }, { "type" : "Könyvrészlet", "typeEng" : "Chapter in Book", "code" : 25, "countUnknown" : 0, "countIndependent" : 0, "countSelfCitation" : 0 }, { "type" : "Könyv", "typeEng" : "Book", "code" : 23, "countUnknown" : 0, "countIndependent" : 0, "countSelfCitation" : 0 }, { "type" : "Egyéb konferenciaközlemény", "typeEng" : "Conference paper", "code" : 31, "countUnknown" : 0, "countIndependent" : 0, "countSelfCitation" : 0 }, { "type" : "Egyéb konferenciakötet", "typeEng" : "Conference proceedings", "code" : 32, "countUnknown" : 0, "countIndependent" : 0, "countSelfCitation" : 0 }, { "type" : "Oltalmi formák", "typeEng" : "Protection forms", "code" : 26, "countUnknown" : 0, "countIndependent" : 0, "countSelfCitation" : 0 }, { "type" : "Disszertáció", "typeEng" : "Thesis", "code" : 28, "countUnknown" : 0, "countIndependent" : 0, "countSelfCitation" : 0 }, { "type" : "Egyéb", "typeEng" : "Miscellaneous", "code" : 29, "countUnknown" : 0, "countIndependent" : 0, "countSelfCitation" : 0 }, { "type" : "Alkotás", "typeEng" : "Achievement", "code" : 22, "countUnknown" : 0, "countIndependent" : 0, "countSelfCitation" : 0 }, { "type" : "Kutatási adat", "typeEng" : "Research data", "code" : 33, "countUnknown" : 0, "countIndependent" : 0, "countSelfCitation" : 0 } ], "years" : [ { "year" : 2023, "publicationCount" : 0, "citationCount" : 2, "independentCitationCount" : 2, "citingPubCount" : 2, "independentCitingPubCount" : 2, "oaStats" : null, "oaStats2" : null } ] }, "ratings" : [ { "otype" : "MtaRating", "mtid" : 11435878, "link" : "/api/mtarating/11435878", "label" : "X. Földtudományok Osztálya:D JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY 1388-6150 1572-8943 1588-2926", "ratingType" : { "otype" : "RatingType", "mtid" : 10031, "link" : "/api/ratingtype/10031", "label" : "X. Földtudományok Osztálya", "code" : "X. FTO", "institute" : { "otype" : "Institute", "mtid" : 70, "link" : "/api/institute/70", "label" : "X. Földtudományok Osztálya XFO", "childrenCount" : 0, "allowInstForum" : false, "allowOnlineRegistration" : false, "name" : "X. Földtudományok Osztálya", "nameEng" : "HAS Section of Earth Sciences (X.)", "published" : true, "oldId" : 70, "snippet" : true }, "published" : true, "snippet" : true }, "val" : "D", "published" : true, "snippet" : true }, { "otype" : "SjrRating", "mtid" : 11366826, "link" : "/api/sjrrating/11366826", "label" : "sjr:Q1 (2023) Scopus - Condensed Matter Physics JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY 1388-6150 1572-8943 1588-2926", "listPos" : 105, "rankValue" : 0.24, "type" : "journal", "ratingType" : { "otype" : "RatingType", "mtid" : 10002, "link" : "/api/ratingtype/10002", "label" : "sjr", "code" : "sjr", "published" : true, "snippet" : true }, "subject" : { "otype" : "ClassificationExternal", "mtid" : 3104, "link" : "/api/classificationexternal/3104", "label" : "Scopus - Condensed Matter Physics", "published" : true, "oldId" : 3104, "snippet" : true }, "ranking" : "Q1", "calculation" : "FROM_LAST_YEAR", "published" : true, "snippet" : true } ], "ratingsForSort" : "Q1", "mtaRatingsForSort" : "D", "references" : [ { "otype" : "Reference", "mtid" : 37294004, "link" : "/api/reference/37294004", "label" : "1. Abdelrazik AS, Al-Sulaiman FA, Saidur R, Ben-Mansour R. A review on recent development for the design and packaging of hybrid photovoltaic/thermal (PV/T) solar systems. Renew Sustain Energy Rev. 2018;95:110–29., DOI: 10.1016/j.rser.2018.07.013", "listPosition" : 1, "doi" : "10.1016/j.rser.2018.07.013", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294005, "link" : "/api/reference/37294005", "label" : "2. Li DHW, Yang L, Lam JC. Zero energy buildings and sustainable development implications—a review. Energy. 2013;54:1–10., DOI: 10.1016/j.energy.2013.01.070", "listPosition" : 2, "doi" : "10.1016/j.energy.2013.01.070", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294006, "link" : "/api/reference/37294006", "label" : "3. Chow TT, Pei G, Fong KF, Lin Z, Chan ALS, Ji J. Energy and exergy analysis of photovoltaic-thermal collector with and without glass cover. Appl Energy. 2009;86:310–6. https://doi.org/10.1016/j.apenergy.2008.04.016., DOI: 10.1016/j.apenergy.2008.04.016", "listPosition" : 3, "doi" : "10.1016/j.apenergy.2008.04.016", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294007, "link" : "/api/reference/37294007", "label" : "4. Ndiaye A, Kébé CMF, Charki A, Ndiaye PA, Sambou V, Kobi A. Degradation evaluation of crystalline-silicon photovoltaic modules after a few operation years in a tropical environment. Sol Energy. 2014;103:70–7., DOI: 10.1016/j.solener.2014.02.006", "listPosition" : 4, "doi" : "10.1016/j.solener.2014.02.006", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294008, "link" : "/api/reference/37294008", "label" : "5. Kahoul N, Cheghib H, Sidrach-de-Cardona M, Affari BC, Younes M, Kherici Z. Performance degradation analysis of crystalline silicon solar cells in desert climates. Energy Sustain Dev. 2021;65:189–93., DOI: 10.1016/j.esd.2021.10.010", "listPosition" : 5, "doi" : "10.1016/j.esd.2021.10.010", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294009, "link" : "/api/reference/37294009", "label" : "6. Lasfar S, Haidara F, Mayouf C, Abdellahi FM, Elghorba M, Wahid A, et al. Study of the influence of dust deposits on photovoltaic solar panels: case of Nouakchott. Energy Sustain Dev. 2021;63:7–15., DOI: 10.1016/j.esd.2021.05.002", "listPosition" : 6, "doi" : "10.1016/j.esd.2021.05.002", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294010, "link" : "/api/reference/37294010", "label" : "7. Mojumder JC, Chong WT, Ong HC, Leong KY. An experimental investigation on performance analysis of air type photovoltaic thermal collector system integrated with cooling fins design. Energy Build. 2016;130:272–85., DOI: 10.1016/j.enbuild.2016.08.040", "listPosition" : 7, "doi" : "10.1016/j.enbuild.2016.08.040", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294011, "link" : "/api/reference/37294011", "label" : "8. Park SR, Pandey AK, Tyagi VV, Tyagi SK. Energy and exergy analysis of typical renewable energy systems. Renew Sustain Energy Rev. 2014;30:105–23., DOI: 10.1016/j.rser.2013.09.011", "listPosition" : 8, "doi" : "10.1016/j.rser.2013.09.011", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294012, "link" : "/api/reference/37294012", "label" : "9. Nasrin R, Rahim NA, Fayaz H, Hasanuzzaman M. Water/MWCNT nanofluid based cooling system of PVT: experimental and numerical research. Renew Energy. 2018;121:286–300., DOI: 10.1016/j.renene.2018.01.014", "listPosition" : 9, "doi" : "10.1016/j.renene.2018.01.014", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294013, "link" : "/api/reference/37294013", "label" : "10. Hasan IA, Attar DA. Effect of evaporative cooling combined with heat sink on PV module performance. J Univ Babylon Eng Sci. 2019;27:252–64.", "listPosition" : 10, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294014, "link" : "/api/reference/37294014", "label" : "11. Chandrasekar M, Rajkumar S, Valavan D. A review on the thermal regulation techniques for non integrated flat PV modules mounted on building top. Energy Build. 2015;86:692–7., DOI: 10.1016/j.enbuild.2014.10.071", "listPosition" : 11, "doi" : "10.1016/j.enbuild.2014.10.071", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294015, "link" : "/api/reference/37294015", "label" : "12. Alami AH. Effects of evaporative cooling on efficiency of photovoltaic modules. Energy Convers Manag. 2014;77:668–79., DOI: 10.1016/j.enconman.2013.10.019", "listPosition" : 12, "doi" : "10.1016/j.enconman.2013.10.019", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294016, "link" : "/api/reference/37294016", "label" : "13. Chandrasekar M, Senthilkumar T. Passive thermal regulation of flat PV modules by coupling the mechanisms of evaporative and fin cooling. Heat Mass Transf und Stoffuebertragung. 2016;52:1381–91., DOI: 10.1007/s00231-015-1661-9", "listPosition" : 13, "doi" : "10.1007/s00231-015-1661-9", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294017, "link" : "/api/reference/37294017", "label" : "14. Demir M, Omeroglu G, Özakın AN. Experimental determination of the effect of fins of different cylindrical geometries on electrical and thermal efficiency in an air-cooled PVT system. Heat Transf Res. 2023;54, DOI: 10.1615/HeatTransRes.2022044259", "listPosition" : 14, "doi" : "10.1615/HeatTransRes.2022044259", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294018, "link" : "/api/reference/37294018", "label" : "15. Abdollahi N, Rahimi M. Potential of water natural circulation coupled with nano-enhanced PCM for PV module cooling. Renew Energy. 2020;147:302–9., DOI: 10.1016/j.renene.2019.09.002", "listPosition" : 15, "doi" : "10.1016/j.renene.2019.09.002", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294019, "link" : "/api/reference/37294019", "label" : "16. Praveenkumar S, Gulakhmadov A, Agyekum EB, Alwan NT, Velkin VI, Sharipov P, et al. Experimental study on performance enhancement of a photovoltaic module incorporated with CPU heat pipe—a 5E analysis. Sensors. 2022;22:6367., DOI: 10.3390/s22176367", "listPosition" : 16, "doi" : "10.3390/s22176367", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294020, "link" : "/api/reference/37294020", "label" : "17. Maleki A, Ngo PTT, Shahrestani MI. Energy and exergy analysis of a PV module cooled by an active cooling approach. J Therm Anal Calorim. 2020;141:2475–85., DOI: 10.1007/s10973-020-09916-0", "listPosition" : 17, "doi" : "10.1007/s10973-020-09916-0", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294021, "link" : "/api/reference/37294021", "label" : "18. Paradis P-L, Rousse DR, Lamarche L, Nesreddine H. A hybrid PV/T solar evaporator using CO2: Numerical heat transfer model and simulation results. Sol Energy. 2018;170:1118–29., DOI: 10.1016/j.solener.2018.06.015", "listPosition" : 18, "doi" : "10.1016/j.solener.2018.06.015", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294022, "link" : "/api/reference/37294022", "label" : "19. Gelis K, Ozbek K, Ozyurt O, Celik AN. Multi-objective optimization of a photovoltaic thermal system with different water based nanofluids using Taguchi approach. Appl Therm Eng. 2023;219: 119609., DOI: 10.1016/j.applthermaleng.2022.119609", "listPosition" : 19, "doi" : "10.1016/j.applthermaleng.2022.119609", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294023, "link" : "/api/reference/37294023", "label" : "20. Hachchadi O, Bououd M, Mechaqrane A. Performance analysis of photovoltaic-thermal air collectors combined with a water to air heat exchanger for renewed air conditioning in building. Environ Sci Pollut Res. 2021;28:18953–62., DOI: 10.1007/s11356-020-08052-4", "listPosition" : 20, "doi" : "10.1007/s11356-020-08052-4", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294024, "link" : "/api/reference/37294024", "label" : "21. AL-Musawi AIA, Taheri A, Farzanehnia A, Sardarabadi M, Passandideh-Fard M. Numerical study of the effects of nanofluids and phase-change materials in photovoltaic thermal (PVT) systems. J Therm Anal Calorim. 2019;137:623–36., DOI: 10.1007/s10973-018-7972-6", "listPosition" : 21, "doi" : "10.1007/s10973-018-7972-6", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294025, "link" : "/api/reference/37294025", "label" : "22. Hansen RS, Narayanan CS, Murugavel KK. Performance analysis on inclined solar still with different new wick materials and wire mesh. Desalination. 2015;358:1–8., DOI: 10.1016/j.desal.2014.12.006", "listPosition" : 22, "doi" : "10.1016/j.desal.2014.12.006", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294026, "link" : "/api/reference/37294026", "label" : "23. Chidambaram P, Govindan R, Venkatraman KC. Study of thermal comfort properties of cotton/regenerated bamboo knitted fabrics. Afr J Basic Appl Sci. 2012;4:60–6.", "listPosition" : 23, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294027, "link" : "/api/reference/37294027", "label" : "24. Kim J, Bae S, Yu Y, Nam Y. Experimental and numerical study on the cooling performance of fins and metal mesh attached on a photovoltaic module. Energies. 2019;13:85., DOI: 10.3390/en13010085", "listPosition" : 24, "doi" : "10.3390/en13010085", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294028, "link" : "/api/reference/37294028", "label" : "25. Tuncer AD, Khanlari A, Aytaç İ, Çiftçi E, Sözen A, Variyenli Hİ. Passive thermal management of photovoltaic panel by using phase change material-filled aluminum cans: an experimental study. Heat Transf Res. 2022;53, DOI: 10.1615/HeatTransRes.2022041473", "listPosition" : 25, "doi" : "10.1615/HeatTransRes.2022041473", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294029, "link" : "/api/reference/37294029", "label" : "26. Selimefendigil F, Şirin C. Energy and exergy analysis of a hybrid photovoltaic/thermal-air collector modified with nano-enhanced latent heat thermal energy storage unit. J Energy Storage. 2022;45: 103467., DOI: 10.1016/j.est.2021.103467", "listPosition" : 26, "doi" : "10.1016/j.est.2021.103467", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294030, "link" : "/api/reference/37294030", "label" : "27. Tuncer AD, Khanlari A, Afshari F, Sözen A, Çiftçi E, Kusun B, et al. Experimental and numerical analysis of a grooved hybrid photovoltaic-thermal solar drying system. Appl Therm Eng. 2022;119288, DOI: 10.1016/j.applthermaleng.2022.119288", "listPosition" : 27, "doi" : "10.1016/j.applthermaleng.2022.119288", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294031, "link" : "/api/reference/37294031", "label" : "28. Agrometeorological Network. [cited 2022 Jun 24]. http://www.agromet.gov.iq/stations.php?id=6", "listPosition" : 28, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294032, "link" : "/api/reference/37294032", "label" : "29. Hosseinzadeh M, Sardarabadi M, Passandideh-Fard M. Energy and exergy analysis of nanofluid based photovoltaic thermal system integrated with phase change material. Energy. 2018;147:636–47., DOI: 10.1016/j.energy.2018.01.073", "listPosition" : 29, "doi" : "10.1016/j.energy.2018.01.073", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294033, "link" : "/api/reference/37294033", "label" : "30. Abbas F, Ali HM, Shaban M, Janjua MM, Shah TR, Doranehgard MH, et al. Towards convective heat transfer optimization in aluminum tube automotive radiators: potential assessment of novel Fe2O3-TiO2/water hybrid nanofluid. J Taiwan Inst Chem Eng. 2021;124:424–36., DOI: 10.1016/j.jtice.2021.02.002", "listPosition" : 30, "doi" : "10.1016/j.jtice.2021.02.002", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294034, "link" : "/api/reference/37294034", "label" : "31. Yu Y, Long E, Chen X, Yang H. Testing and modelling an unglazed photovoltaic thermal collector for application in Sichuan Basin. Appl Energy. 2019;242:931–41., DOI: 10.1016/j.apenergy.2019.03.114", "listPosition" : 31, "doi" : "10.1016/j.apenergy.2019.03.114", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294035, "link" : "/api/reference/37294035", "label" : "32. Yazdanifard F, Ameri M, Ebrahimnia-Bajestan E. Performance of nanofluid-based photovoltaic/thermal systems: a review. Renew Sustain Energy Rev. 2017;76:323–52., DOI: 10.1016/j.rser.2017.03.025", "listPosition" : 32, "doi" : "10.1016/j.rser.2017.03.025", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294036, "link" : "/api/reference/37294036", "label" : "33. Wolfenden A, Jacobs T. Experimentation and uncertainty analysis for engineers. J Test Eval. 1991;19:498., DOI: 10.1520/JTE12616J", "listPosition" : 33, "doi" : "10.1520/JTE12616J", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294037, "link" : "/api/reference/37294037", "label" : "34. Haidar ZA, Orfi J, Kaneesamkandi Z. Photovoltaic panels temperature regulation using evaporative cooling principle: detailed theoretical and real operating conditions experimental approaches. Energies. 2020;14:145., DOI: 10.3390/en14010145", "listPosition" : 34, "doi" : "10.3390/en14010145", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294038, "link" : "/api/reference/37294038", "label" : "35. Shalaby SM, Elfakharany MK, Moharram BM, Abosheiasha HF. Experimental study on the performance of PV with water cooling. Energy Rep. 2022;8:957–61., DOI: 10.1016/j.egyr.2021.11.155", "listPosition" : 35, "doi" : "10.1016/j.egyr.2021.11.155", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294039, "link" : "/api/reference/37294039", "label" : "36. Firoozzadeh M, Shiravi AH, Chandel SS. An experimental analysis of enhancing efficiency of photovoltaic modules using straight and zigzag fins. J Therm Anal Calorim. 2022;1–13, DOI: 10.1007/s10973-021-11178-3", "listPosition" : 36, "doi" : "10.1007/s10973-021-11178-3", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294040, "link" : "/api/reference/37294040", "label" : "37. Fudholi A, Sopian K, Yazdi MH, Ruslan MH, Ibrahim A, Kazem HA. Performance analysis of photovoltaic thermal (PVT) water collectors. Energy Convers Manag. 2014;78:641–51., DOI: 10.1016/j.enconman.2013.11.017", "listPosition" : 37, "doi" : "10.1016/j.enconman.2013.11.017", "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294041, "link" : "/api/reference/37294041", "label" : "38. Akbar A, Najafi G, Gorjian S, Kasaeian A, Mazlan M. Performance enhancement of a hybrid photovoltaic-thermal-thermoelectric (PVT-TE) module using nanofluid-based cooling: Indoor experimental tests and multi-objective optimization. Sustain Energy Technol Assess. 2021;46: 101276.", "listPosition" : 38, "published" : false, "snippet" : true }, { "otype" : "Reference", "mtid" : 37294042, "link" : "/api/reference/37294042", "label" : "39. Alktranee M, Shehab MA, Németh Z, Bencs P, Hernadi K, Koós T. Energy and exergy assessment of photovoltaic-thermal system using tungsten trioxide nanofluid: an experimental study. Int J Thermofluids. 2022;100228, DOI: 10.1016/j.ijft.2022.100228", "listPosition" : 39, "doi" : "10.1016/j.ijft.2022.100228", "published" : false, "snippet" : true } ], "hasCitationDuplums" : false, "userChangeableUntil" : "2023-01-29T08:03:42.153+0000", "directInstitutesForSort" : "Energetikai és Vegyipari Gépészeti Intézet (ME / GIK)", "ownerAuthorCount" : 2, "ownerInstituteCount" : 5, "directInstituteCount" : 1, "authorCount" : 2, "contributorCount" : 0, "hasQualityFactor" : true, "link" : "/api/publication/33555479", "label" : "Alktranee Mohammed et al. Experimental comparative study on using different cooling techniques with photovoltaic modules. (2023) JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY 1388-6150 1572-8943 1588-2926 148 3805-3817", "template" : "