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Please use this identifier to cite or link to this item: https://oldena.lpnu.ua/handle/ntb/44105
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dc.contributor.authorКасинець, Мар’яна
dc.contributor.authorШаповал, Степан
dc.contributor.authorКозак, Христина
dc.contributor.authorГулай, Богдан
dc.contributor.authorKasynets, Mariana
dc.contributor.authorShapoval, Stepan
dc.contributor.authorKozak, Khrystyna
dc.contributor.authorHulai, Bohdan
dc.date.accessioned2019-02-08T12:34:14Z-
dc.date.available2019-02-08T12:34:14Z-
dc.date.created2018-03-29
dc.date.issued2018-03-29
dc.identifier.citationAnalytical studies of coolant temperature in solar panel / Mariana Kasynets, Stepan Shapoval, Khrystyna Kozak, Bohdan Hulai // Energy Engineering and Control Systems. — Lviv : Lviv Politechnic Publishing House, 2018. — Vol 4. — No 1. — P. 37–44.
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/44105-
dc.description.abstractПроаналізовано наявні системи сонячного теплопостачання. Отримано залежність річного надходження сонячної радіації на геліопанель від азимутального кута γ і кута нахилу поверхні, яку можна використати для дослідження поверхонь із довільною кількістю орієнтацій. Представлено тепловий баланс для цієї геліопанелі за певний проміжок часу. Досліджено залежності для визначення кількості енергії, що надходить від Сонця на кожну із поверхонь геліопанелі та кількості тепла, закумульованого геліопанеллю. Проаналізовано втрати конвекцією від покриття геліопанелі та радіаційні тепловтрати із поверхні покриття в навколишнє середовище, а також тепловтрати через теплоізоляцію із тильної сторони та бокових стінок геліопанелі. Отримано залежність температури теплоносія в геліопанелі від річного надходження сонячної радіації та сумарних тепловтрат геліопанелі.
dc.description.abstractAn analysis of existing solar heating systems has been carried out. The dependence of the annual flow of solar radiation on the solar panel on the azimuthal angle γ and the angle of inclination of the surface, which can be used for studying surfaces with an arbitrary number of orientations, was obtained. The thermal balance for a given solar panel is presented for a certain period of time. Dependences for determining the amount of energy coming from the Sun on each of the surfaces of the solar panel and the amount of accumulated heat by the solar panel was obtained during the research. The losses of convection from the coating of the solar panel and radiation heat losses from the surface of the coating to the environment, as well as thermal losses due to thermal insulation from the back side and the side walls of the heliopanel, are analyzed. The dependence of the coolant temperature in the heliopanel depending on the annual solar radiation inflow and the total heat loss of the heliopanel has been obtained.
dc.format.extent37-44
dc.language.isoen
dc.publisherLviv Politechnic Publishing House
dc.relation.ispartofEnergy Engineering and Control Systems, 1 (4), 2018
dc.relation.urihttp://yadda.icm.edu.pl/baztech/element/bwmeta1.element.baztech-8832c7f0-5cc3-4438-81d4-fe023558704d
dc.relation.urihttp://yadda.icm.edu.pl/baztech/element/bwmeta1.element.baztech-3d1b22a9-9e0a-4acf-9a87-d26b597f1b2f
dc.relation.urihttps://ena.lpnu.ua/handle/ntb/16639
dc.relation.urihttps://ena.lpnu.ua/handle/ntb/17995
dc.subjectсонячний колектор
dc.subjectгеліопанель
dc.subjectсонячна енергія
dc.subjectтемпература теплоносія
dc.subjectтермоакумуляція
dc.subjectsolar collector
dc.subjectheliopanel
dc.subjectsolar energy
dc.subjectcoolant temperature
dc.subjectthermal accumulation
dc.titleAnalytical studies of coolant temperature in solar panel
dc.title.alternativeАналітичні дослідження температури теплоносія в геліопанелі
dc.typeArticle
dc.rights.holder© Національний університет „Львівська політехніка“, 2018
dc.rights.holder© 2018 The Authors. Published by Lviv Polytechnic National University
dc.contributor.affiliationНаціональний університет «Львівська політехніка»
dc.contributor.affiliationLviv Polytechnic National University
dc.format.pages8
dc.identifier.citationenAnalytical studies of coolant temperature in solar panel / Mariana Kasynets, Stepan Shapoval, Khrystyna Kozak, Bohdan Hulai // Energy Engineering and Control Systems. — Lviv : Lviv Politechnic Publishing House, 2018. — Vol 4. — No 1. — P. 37–44.
dc.relation.references[1] Misak Y. S., Voznyak O. T., Datsko O. S., Shapoval S. P. (2014) Solar Energy: Theory and Practice. Monograph. Lviv Polytechnic Publishing House, 340 p. (in Ukrainian)
dc.relation.references[2] Voznyak O., Pona O., Eltman A., Shapoval S., Spodyniuk N (2015) Method of determining the efficiency of heliocollector in system with forced circulation of coolant. Scientific and technical collection “Energy Efficiency in Construction and Architecture” Kiev National University of Civil Engineering and Architecture. Iss. 7, Kyiv, p. 10-16. (in Ukrainian)
dc.relation.references[3] Pona O. М., Misak Y. S., Shapoval S. P., Datsko O. S. (2016) The efficiency of using a solar collector combined with the roof of the house in the solar heat supply system. Theory and practice of construction. Bulletin of the National University Lviv Polytechnic, No. 844, p. 164–168. (in Ukrainian)
dc.relation.references[4] Kozak Ch., Savchenko O., Zhelykh V. (2016) Analysis of Heat Flow Distribution in the Room with Installed Solar Air Heater. Ciepłownictwo, Ogrzewnictwo, Wentylacja: miesięcznik Polskiego Zrzeszenia Inżynierów i Techników Sanitarnych, T. 45, nr, 9, p. 359–362.doi: http://yadda.icm.edu.pl/baztech/element/bwmeta1.element.baztech-8832c7f0-5cc3-4438-81d4-fe023558704d.
dc.relation.references[5] Neumann F., Patschke M., Schoennenbeck M. (2009) Heliothermal flat collector module having a sandwich structure. Patent. 7610911 USA, N 10/530384, has published 11.03.2009.
dc.relation.references[6] Voznyak O., Pona O., Shapoval S., Kasynets M. (2014) Efficiency of Solar roof with transparent cover for heating supply of buildings. Budownictwo o 16 zoptymalizowanym potencjale energetycznym. Construction of optimized energy potential, Częstochowa, 2(14), p. 117–124. doi: http://yadda.icm.edu.pl/baztech/element/bwmeta1.element.baztech-3d1b22a9-9e0a-4acf-9a87-d26b597f1b2f
dc.relation.references[7] Kasynets M. Ye. (2012) Efficiency of work of solar panels of various designs. Theory and practice of construction. Bulletin of the National University Lviv Polytechnic, No. 737, p. 139–143. doi: http://ena.lp.edu.ua:8080/handle/ntb/16639 (in Ukrainian)
dc.relation.references[8] Brinkworth, B. J. (1976) Solar energy for man. Transl. from English Oglobleva V. N, Moscow, p. 291 (in Russian)
dc.relation.references[9] Kasynets M. Ye. (2012) Investigation of efficiency of solar panels. Theory and practice of construction. Bulletin of the National University Lviv Polytechnic, No. 742, p. 99–105. http://ena.lp.edu.ua:8080/handle/ntb/17995 (in Ukrainian)
dc.relation.references[10] Novakivskyi Y. V. Improvement of efficiency of solar energy use in the combined industrial heat supply systems: abstract of thesis for sci. degr. of Cand. of Techn. Sci.: spec. 05.14.06 “Technical thermophysics and industrial thermal power engineering” / Y. V. Novakivskyi. − Odessa, 2004. − 22 p. (in Ukrainian)
dc.relation.references[11] Shaefeev A. I. (1991) Simulation of solar heating systems for an individual home. Helio technology, No. 2, p. 55–59. (in Russian)
dc.relation.referencesen[1] Misak Y. S., Voznyak O. T., Datsko O. S., Shapoval S. P. (2014) Solar Energy: Theory and Practice. Monograph. Lviv Polytechnic Publishing House, 340 p. (in Ukrainian)
dc.relation.referencesen[2] Voznyak O., Pona O., Eltman A., Shapoval S., Spodyniuk N (2015) Method of determining the efficiency of heliocollector in system with forced circulation of coolant. Scientific and technical collection "Energy Efficiency in Construction and Architecture" Kiev National University of Civil Engineering and Architecture. Iss. 7, Kyiv, p. 10-16. (in Ukrainian)
dc.relation.referencesen[3] Pona O. M., Misak Y. S., Shapoval S. P., Datsko O. S. (2016) The efficiency of using a solar collector combined with the roof of the house in the solar heat supply system. Theory and practice of construction. Bulletin of the National University Lviv Polytechnic, No. 844, p. 164–168. (in Ukrainian)
dc.relation.referencesen[4] Kozak Ch., Savchenko O., Zhelykh V. (2016) Analysis of Heat Flow Distribution in the Room with Installed Solar Air Heater. Ciepłownictwo, Ogrzewnictwo, Wentylacja: miesięcznik Polskiego Zrzeszenia Inżynierów i Techników Sanitarnych, T. 45, nr, 9, p. 359–362.doi: http://yadda.icm.edu.pl/baztech/element/bwmeta1.element.baztech-8832c7f0-5cc3-4438-81d4-fe023558704d.
dc.relation.referencesen[5] Neumann F., Patschke M., Schoennenbeck M. (2009) Heliothermal flat collector module having a sandwich structure. Patent. 7610911 USA, N 10/530384, has published 11.03.2009.
dc.relation.referencesen[6] Voznyak O., Pona O., Shapoval S., Kasynets M. (2014) Efficiency of Solar roof with transparent cover for heating supply of buildings. Budownictwo o 16 zoptymalizowanym potencjale energetycznym. Construction of optimized energy potential, Częstochowa, 2(14), p. 117–124. doi: http://yadda.icm.edu.pl/baztech/element/bwmeta1.element.baztech-3d1b22a9-9e0a-4acf-9a87-d26b597f1b2f
dc.relation.referencesen[7] Kasynets M. Ye. (2012) Efficiency of work of solar panels of various designs. Theory and practice of construction. Bulletin of the National University Lviv Polytechnic, No. 737, p. 139–143. doi: http://ena.lp.edu.ua:8080/handle/ntb/16639 (in Ukrainian)
dc.relation.referencesen[8] Brinkworth, B. J. (1976) Solar energy for man. Transl. from English Oglobleva V. N, Moscow, p. 291 (in Russian)
dc.relation.referencesen[9] Kasynets M. Ye. (2012) Investigation of efficiency of solar panels. Theory and practice of construction. Bulletin of the National University Lviv Polytechnic, No. 742, p. 99–105. http://ena.lp.edu.ua:8080/handle/ntb/17995 (in Ukrainian)
dc.relation.referencesen[10] Novakivskyi Y. V. Improvement of efficiency of solar energy use in the combined industrial heat supply systems: abstract of thesis for sci. degr. of Cand. of Techn. Sci., spec. 05.14.06 "Technical thermophysics and industrial thermal power engineering", Y. V. Novakivskyi. − Odessa, 2004. − 22 p. (in Ukrainian)
dc.relation.referencesen[11] Shaefeev A. I. (1991) Simulation of solar heating systems for an individual home. Helio technology, No. 2, p. 55–59. (in Russian)
dc.citation.journalTitleEnergy Engineering and Control Systems
dc.citation.volume4
dc.citation.issue1
dc.citation.spage37
dc.citation.epage44
dc.coverage.placenameLviv
Appears in Collections:Energy Engineering And Control Systems. – 2018. – Vol. 4, No. 1

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