Solar heating supply of an individual home using an ice accumulating unit
Keywords:
solar energy, ice accumulator, heat pump, renewable energy sources, solar panelsAbstract
The paper has carried out the theoretical examination of the heating system and hot water supply system by using a heat pump which uses as a low-grade heat source a solar panel and ice accumulator. The paper presents the balance calculation of ice accumulation unit and pay-back period for ice accumulation unit, evaluation of the economic feasibility of unit operation by comparing it with the heat supply source alternatives that are commonly available.
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1. Gschwend, A., & Bertsch, S.S. (2012). Domestic Heat Pump System With Solar Thermal Collectors as Heat Source and Annual Ice Storage. International Proc. of the Refrigeration and Air Conditioning Conf. (p. 1177). West Lafayette, USA: Purdue University. Retrieved from https://docs.lib.purdue.edu/ iracc/1177/.
2. SP 131.13.330-2018. Stroitel'naya klimatologiya [The set of rules "Building climatology"]. (2019). Moscow: Standartinform [In Russian].
3. Shelginskij, A.Ya. (2012) Sistemy otopleniya zhilyh, obshchestvennyh i proizvodstvennyh zdanij [Heating systems for residential, public and industrial buildings]. Moscow: Izd. dom MEI [In Russian].
4. Vissarionov, V.I., Deryugina, G.V., Kuznecova, V.A., & Malinin N.K. (2011). Solnechnaya energetika [Solar energy]. V.I. Vissarionov (Ed.). Moscow: Izd. dom MEI [In Russian].
5. Beckman, W.A., Klein, S.A., & Duffie J.A. (1977). Solar heating design by the f-chart method. New York: John Wiley and Sons.
6. Tleuov, A.H. (2004). Netradicionnye i vozobnovlyaemye istochniki energii. CHast' 1. Ispol'zovanie energii solnechnogo izlucheniya [Unconventional and renewable energy sources. Part 1. Use of solar energy]. Astana: KazAU [In Russian].
7. Gorshkova, N.S. (2018). Vybiraya sravni al'ternativy, ili kak vygodnee otopit' dom [When choosing, compare alternatives, or how it is more profitable to heat the house]. SOK, 1. Retrieved from https://www.c-o-k.ru/ articles/vybiraya-sravni-alternativy-ili-kak-vygodnee-otopit-dom [In Russian].
8. Gorshkov, A.S. (2014). Ob okupaemosti investicij na uteplenie fasadov sushchestvuyushchih zdanij [On the return on investment for the insulation of the facades of existing buildings]. Energosberezhenie, 4, 12-27 [In Russian].
[ГОСТ Р 7.0.5–2008]
1. Gschwend, A., Bertsch, S.S. Domestic Heat Pump System With Solar Thermal Collectors as Heat Source and Annual Ice Storage [Электронный ресурс]. International Refrigeration and Air Conditioning Conference. West Lafayette (USA): Purdue University, 2012. P. 1177. URL: https://docs.lib.purdue.edu/ iracc/1177/ (дата обращения 20.10.2020).
2. СП 131.13.330-2018. Строительная климатология. М.: Стандарт¬ин¬форм, 2019. 140 с.
3. Шелгинский А.Я. Системы отопления жилых, общественных и производственных зданий: уч. пос. М.: Изд. дом МЭИ, 2012. 116 с.
4. Солнечная энергетика / В.И. Виссарионов, Г.В. Дерюгина, В.А. Кузнецова, Н.К. Малинин; под ред. В.И. Виссарионова. М.: Изд. дом МЭИ, 2011. 276 с.
eLIBRARY: https://www.elibrary.ru/item.asp?id=19576611
5. Бекман У., Клейн С., Даффи Дж. Расчет систем солнечного теплоснабжения. М.: Энергоиздат, 1982. 80 с.
6. Тлеуов А.Х. Нетрадиционные и возобновляемые источники энергии. Часть 1. Использование энергии солнечного излучения: Учебное пособие для практических. Астана: КазАУ, 2004. 66 с.
7. Горшкова Н.С. Выбирая сравни альтернативы, или как выгоднее отопить дом [Электронный ресурс] // СОК. 2018. № 1. URL: https://www.c-o-k.ru/ articles/vybiraya-sravni-alternativy-ili-kak-vygodnee-otopit-dom (дата обращения 20.10.2020).
8. Горшков А.С. Об окупаемости инвестиций на утепление фасадов существующих зданий // Энергосбережение. 2014. № 4. С. 12-27.
eLIBRARY: https://www.elibrary.ru/item.asp?id=21674378
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Copyright (c) 2020 S.S. Marinina, Y.V. Yavorovsky and I.A. Sultanguzin
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