Alternative heat systems for modular buildings

Желих, В. М.; Фурдас, Ю. В.; Адамский, М.; Гузик, Д. В.; Цізда, А. Є.; Zhelykh, Vasyl; Furdas, Yurii; Adamski, Mariusz; Guzyk, Dmytro; Tsizda, Andriy

Alternative heat systems for modular buildings

dc.citation.epage	62
dc.citation.issue	1
dc.citation.spage	57
dc.contributor.affiliation	Національний університет “Львівська політехніка”
dc.contributor.affiliation	Білостоцький технологічний університет
dc.contributor.affiliation	Національний університет “Полтавська політехніка імені Юрія Кондратюка”
dc.contributor.affiliation	Lviv Polytechnic National University
dc.contributor.affiliation	Technical University of Bialystok
dc.contributor.affiliation	National University “Yuri Kondratyuk Poltava Polytechnic”
dc.contributor.author	Желих, В. М.
dc.contributor.author	Фурдас, Ю. В.
dc.contributor.author	Адамский, М.
dc.contributor.author	Гузик, Д. В.
dc.contributor.author	Цізда, А. Є.
dc.contributor.author	Zhelykh, Vasyl
dc.contributor.author	Furdas, Yurii
dc.contributor.author	Adamski, Mariusz
dc.contributor.author	Guzyk, Dmytro
dc.contributor.author	Tsizda, Andriy
dc.coverage.placename	Львів
dc.coverage.placename	Lviv
dc.date.accessioned	2023-04-24T08:11:58Z
dc.date.available	2023-04-24T08:11:58Z
dc.date.created	2022-03-03
dc.date.issued	2022-03-03
dc.description.abstract	У наш час надзвичайно актуальною залишається проблема енергоощадного будівництва. Застосування альтернативних джерел енергії для теплозабезпечення будівель і споруд є одним зі шляхів вирішення проблеми раціонального використання паливно-енергетичних ресурсів. У цій статті розглянуто ефективні методи використання сонячної енергії за допомогою термосифонних сонячних колекторів, інтегрованих у зовнішні огороджувальні конструкції модульного будинку. Результати досліджень показали, що для ефективної роботи термосифонного колектора площа вентиляційних отворів повинна бути в межах 0,005–0,06 м 2. Питання зниження витрат на паливно-енергетичні ресурси та зменшення впливу на навколишнє середовище, а також термінів реалізації проєктів сьогодні більш ніж актуальні для будівельних компаній і знайшли відображення у сучасному “модульному будівництві”. Тому Україні потрібно було б звернути увагу на цю сучасну будівельну систему як один зі способів вирішення проблем нестачі нових та розселення старих житлових площ. Важливим питанням під час розроблення модульних будинків залишається проблема підтримання теплового стану в приміщеннях. Потрібно враховувати можливість автономного забезпечення таких об’єктів енергоресурсами. Це можливо у разі використання альтернативних видів енергії, таких як сонячна та геотермальна енергія, а за можливості – енергія вітру та біогазу. Отже, нині технології модульного будівництва потребують комплексного підходу до вирішення питань енергоощадності та забезпечення необхідних параметрів мікроклімату в таких будинках
dc.description.abstract	At present, the problem of energy-saving construction remains extremely relevant. The use of alternative energy sources for heat supply of buildings and structures is one of the ways to solve the problem of rational use of fuel and energy resources. This article considers effective methods of using solar energy with the help of thermosyphon solar collectors integrated into the external enclosing structures of a modular house. The research results showed that for efficient operation of the thermosyphon collector the area of ventilation openings should be within 0.005–0.06 m2.
dc.format.extent	57-62
dc.format.pages	6
dc.identifier.citation	Alternative heat systems for modular buildings / Vasyl Zhelykh, Yurii Furdas, Mariusz Adamski, Dmytro Guzyk, Andriy Tsizda // Theory and Building Practice. — Lviv : Lviv Politechnic Publishing House, 2022. — Vol 4. — No 1. — P. 57–62.
dc.identifier.citationen	Alternative heat systems for modular buildings / Vasyl Zhelykh, Yurii Furdas, Mariusz Adamski, Dmytro Guzyk, Andriy Tsizda // Theory and Building Practice. — Lviv : Lviv Politechnic Publishing House, 2022. — Vol 4. — No 1. — P. 57–62.
dc.identifier.doi	doi.org/10.23939/jtbp2022.01.057
dc.identifier.uri	https://ena.lpnu.ua/handle/ntb/57985
dc.language.iso	en
dc.publisher	Видавництво Львівської політехніки
dc.publisher	Lviv Politechnic Publishing House
dc.relation.ispartof	Theory and Building Practice, 1 (4), 2022
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dc.relation.references	Development of renewable energy sources in Ukraine / Ministry of Regional Development (2017). P. 36.
dc.relation.references	https://www.minregion.gov.ua/wp-content/uploads/2017/03/Rozvitok-VDE-v-Ukrai--ni.pdf.
dc.relation.references	European Commission. Nearly Zero-Energy Buildings (2014) Available online: https://ec.europa.eu/
dc.relation.references	energy/ topics/energy-efficiency/energy-efficient-bu... (accessed on 25 April 2021).
dc.relation.references	Majumder, A.; Canale, L.; Mastino, C.C.; Pacitto, A.; Frattolillo, A.; Dell'Isola, M. (2021) Thermal Characterization
dc.relation.references	of Recycled Materials for Building Insulation. Energies, 14, 35–64. https://doi.org/10.3390/en14123564.
dc.relation.references	Ulewicz, M., Zhelykh, V., Kozak, K., Furdas, Y. (2020) Application of Thermosiphon Solar Collectors for
dc.relation.references	Ventilation of Premises. Lecture Notes in Civil Engineering, 2020, 47, pp. 180-187. DOI https://doi.org/10.1007/978-3-030-27011-7_23
dc.relation.references	Ulewicz, M., Zhelykh, V., Furdas, Y., Kozak, K. (2021). Assessment of the Economic Feasibility of Using
dc.relation.references	Alternative Energy Sources in Ukraine. In: Blikharskyy, Z. (eds) Proceedings of EcoComfort 2020. EcoComfort 2020. Lecture Notes in Civil Engineering, vol. 100. Springer, Cham.
dc.relation.references	https://doi.org/10.1007/978-3-030-57340-9_59.
dc.relation.references	Marza, Carmen; Corsiuc, Georgiana; Graur Ana-Maria. Study on modular houses design. Journal of Industrial
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dc.relation.references	Huang, Chuen-huei J.; Krawczyk, R. (2007). A Choice Model of Consumer Participatory Design for Modular
dc.relation.references	Houses. Predicting the Future [25th eCAADe Conference Proceedings / ISBN 978-0-9541183-6-5] Frankfurt am
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dc.relation.references	Miciuła, I.; Wojtaszek, H.; Bazan, M.; Janiczek, T.; Włodarczyk, B.; Kabus, J.; Kana, R. (2020). Management
dc.relation.references	of the energy mix and emissivity of individual economies in the European Union as a challenge of the modern world
dc.relation.references	climate. Energies, 13, 5191. https://doi.org/10.3390/en13195191.
dc.relation.references	Ferdous, W., Bai, Y., Ngo, T.D., Manalo, A., Mendis, P. (2019). New advancements, challenges and
dc.relation.references	opportunities of multi-storey modular buildings – A state-of-the-art review. Engineering structures, 183, 883–893.
dc.relation.references	https://doi.org/10.1016/j.engstruct.2019.01.061
dc.relation.references	Sanchez Benjamina, Rausch Christopherb, Haas Carlb (2022). Feature modeling for configurable and
dc.relation.references	adaptable modular buildings. Advanced Engineering Informatics, Vol. 51, January 2022, 101514,
dc.relation.references	https://doi.org/10.1016/j.aei.2021.101514
dc.relation.references	Shapoval, S., Shapoval, P., Zhelykh, V., ...Savchenko, O., Myroniuk, K. (2017). Ecological and energy aspects
dc.relation.references	of using the combined solar collectors for low-energy houses. Chemistry and Chemical Technology, 11(4), 503–508.
dc.relation.references	DOI: 10.23939/CHCHT11.04.503.
dc.relation.references	Zhelykh, V., Kozak, C., Savchenko, O. (2016). Using of thermosiphon solar collector in an air heating system
dc.relation.references	of passive house. Pollack Periodica, 11(2), 125–133 . DOI: 10.1556/606.2016.11.2.11.
dc.relation.references	Patrik Jensen (2010). Configuration of Modularised Building Systems. Printed by Universitetstryckeriet,
dc.relation.references	Lulea. ISBN 978-91-7439-108-4. https://www.diva-portal.org/smash/get/diva2:999331/FULLTEXT01.pdf.
dc.relation.references	George-Lucian Ionescu (2017). Passive House. Journal of Applied Engineering Sciences, 7(1). DOI: 10.1515/jaes-2017-0003.
dc.relation.references	Foster J., Sharpe Tim R., Sharpe A. (2016). Scottish Passive House: Insights into Environmental Conditions in
dc.relation.references	Monitored Passive Houses. April 2016, Sustainability, 8(5):412. DOI: 10.3390/su8050412
dc.relation.references	Sanchez Benjamina, Rausch Christopherb, Haas Carlb (2022). Feature modeling for configurable and
dc.relation.references	adaptable modular buildings. Advanced Engineering Informatics, Vol. 51, January 2022, 101514,
dc.relation.references	https://doi.org/10.1016/j.aei.2021.101514
dc.relation.references	Shapoval, S., Shapoval, P., Zhelykh, V., ...Savchenko, O., Myroniuk, K. (2017). Ecological and energy aspects
dc.relation.references	of using the combined solar collectors for low-energy houses. Chemistry and Chemical Technology, 11(4), 503–508.
dc.relation.references	DOI: 10.23939/CHCHT11.04.503.
dc.relation.references	Zhelykh, V., Kozak, C., Savchenko, O. (2016). Using of thermosiphon solar collector in an air heating system
dc.relation.references	of passive house. Pollack Periodica, 11(2), 125–133 . DOI: 10.1556/606.2016.11.2.11.
dc.relation.references	Patrik Jensen (2010). Configuration of Modularised Building Systems. Printed by Universitetstryckeriet,
dc.relation.references	Lulea. ISBN 978-91-7439-108-4. https://www.diva-portal.org/smash/get/diva2:999331/FULLTEXT01.pdf.
dc.relation.references	George-Lucian Ionescu (2017). Passive House. Journal of Applied Engineering Sciences, 7(1). DOI: 10.1515/jaes-2017-0003.
dc.relation.references	Foster J., Sharpe Tim R., Sharpe A. (2016). Scottish Passive House: Insights into Environmental Conditions in
dc.relation.references	Monitored Passive Houses. April 2016, Sustainability, 8(5):412. DOI: 10.3390/su8050412
dc.relation.referencesen	Dennis Holloway (2003). Passive solar house: A simple design method Method of designing heating systems
dc.relation.referencesen	for passive solar homes based on the principles of direct and indirect heating, 26. https://mensh.ru/files/passivesolar.pdf.
dc.relation.referencesen	Development of renewable energy sources in Ukraine, Ministry of Regional Development (2017). P. 36.
dc.relation.referencesen	https://www.minregion.gov.ua/wp-content/uploads/2017/03/Rozvitok-VDE-v-Ukrai--ni.pdf.
dc.relation.referencesen	European Commission. Nearly Zero-Energy Buildings (2014) Available online: https://ec.europa.eu/
dc.relation.referencesen	energy/ topics/energy-efficiency/energy-efficient-bu... (accessed on 25 April 2021).
dc.relation.referencesen	Majumder, A.; Canale, L.; Mastino, C.C.; Pacitto, A.; Frattolillo, A.; Dell'Isola, M. (2021) Thermal Characterization
dc.relation.referencesen	of Recycled Materials for Building Insulation. Energies, 14, 35–64. https://doi.org/10.3390/en14123564.
dc.relation.referencesen	Ulewicz, M., Zhelykh, V., Kozak, K., Furdas, Y. (2020) Application of Thermosiphon Solar Collectors for
dc.relation.referencesen	Ventilation of Premises. Lecture Notes in Civil Engineering, 2020, 47, pp. 180-187. DOI https://doi.org/10.1007/978-3-030-27011-7_23
dc.relation.referencesen	Ulewicz, M., Zhelykh, V., Furdas, Y., Kozak, K. (2021). Assessment of the Economic Feasibility of Using
dc.relation.referencesen	Alternative Energy Sources in Ukraine. In: Blikharskyy, Z. (eds) Proceedings of EcoComfort 2020. EcoComfort 2020. Lecture Notes in Civil Engineering, vol. 100. Springer, Cham.
dc.relation.referencesen	https://doi.org/10.1007/978-3-030-57340-9_59.
dc.relation.referencesen	Marza, Carmen; Corsiuc, Georgiana; Graur Ana-Maria. Study on modular houses design. Journal of Industrial
dc.relation.referencesen	Design and Engineering Graphics; Bucharest. Tom 14, Nr/wyd. 1, (May 2019): 75–78. ISSN 2344-4681 from
dc.relation.referencesen	http://sorging.ro/jideg/index.php/jideg/issue/view/jidegv14i1.
dc.relation.referencesen	Huang, Chuen-huei J.; Krawczyk, R. (2007). A Choice Model of Consumer Participatory Design for Modular
dc.relation.referencesen	Houses. Predicting the Future [25th eCAADe Conference Proceedings, ISBN 978-0-9541183-6-5] Frankfurt am
dc.relation.referencesen	Main (Germany), 26–29 September 2007, 679-686 http://papers.cumincad.org/cgi-bin/works/Show?ecaade2007_026.
dc.relation.referencesen	Miciuła, I.; Wojtaszek, H.; Bazan, M.; Janiczek, T.; Włodarczyk, B.; Kabus, J.; Kana, R. (2020). Management
dc.relation.referencesen	of the energy mix and emissivity of individual economies in the European Union as a challenge of the modern world
dc.relation.referencesen	climate. Energies, 13, 5191. https://doi.org/10.3390/en13195191.
dc.relation.referencesen	Ferdous, W., Bai, Y., Ngo, T.D., Manalo, A., Mendis, P. (2019). New advancements, challenges and
dc.relation.referencesen	opportunities of multi-storey modular buildings – A state-of-the-art review. Engineering structures, 183, 883–893.
dc.relation.referencesen	https://doi.org/10.1016/j.engstruct.2019.01.061
dc.relation.referencesen	Sanchez Benjamina, Rausch Christopherb, Haas Carlb (2022). Feature modeling for configurable and
dc.relation.referencesen	adaptable modular buildings. Advanced Engineering Informatics, Vol. 51, January 2022, 101514,
dc.relation.referencesen	https://doi.org/10.1016/j.aei.2021.101514
dc.relation.referencesen	Shapoval, S., Shapoval, P., Zhelykh, V., ...Savchenko, O., Myroniuk, K. (2017). Ecological and energy aspects
dc.relation.referencesen	of using the combined solar collectors for low-energy houses. Chemistry and Chemical Technology, 11(4), 503–508.
dc.relation.referencesen	DOI: 10.23939/CHCHT11.04.503.
dc.relation.referencesen	Zhelykh, V., Kozak, C., Savchenko, O. (2016). Using of thermosiphon solar collector in an air heating system
dc.relation.referencesen	of passive house. Pollack Periodica, 11(2), 125–133 . DOI: 10.1556/606.2016.11.2.11.
dc.relation.referencesen	Patrik Jensen (2010). Configuration of Modularised Building Systems. Printed by Universitetstryckeriet,
dc.relation.referencesen	Lulea. ISBN 978-91-7439-108-4. https://www.diva-portal.org/smash/get/diva2:999331/FULLTEXT01.pdf.
dc.relation.referencesen	George-Lucian Ionescu (2017). Passive House. Journal of Applied Engineering Sciences, 7(1). DOI: 10.1515/jaes-2017-0003.
dc.relation.referencesen	Foster J., Sharpe Tim R., Sharpe A. (2016). Scottish Passive House: Insights into Environmental Conditions in
dc.relation.referencesen	Monitored Passive Houses. April 2016, Sustainability, 8(5):412. DOI: 10.3390/su8050412
dc.relation.referencesen	Sanchez Benjamina, Rausch Christopherb, Haas Carlb (2022). Feature modeling for configurable and
dc.relation.referencesen	adaptable modular buildings. Advanced Engineering Informatics, Vol. 51, January 2022, 101514,
dc.relation.referencesen	https://doi.org/10.1016/j.aei.2021.101514
dc.relation.referencesen	Shapoval, S., Shapoval, P., Zhelykh, V., ...Savchenko, O., Myroniuk, K. (2017). Ecological and energy aspects
dc.relation.referencesen	of using the combined solar collectors for low-energy houses. Chemistry and Chemical Technology, 11(4), 503–508.
dc.relation.referencesen	DOI: 10.23939/CHCHT11.04.503.
dc.relation.referencesen	Zhelykh, V., Kozak, C., Savchenko, O. (2016). Using of thermosiphon solar collector in an air heating system
dc.relation.referencesen	of passive house. Pollack Periodica, 11(2), 125–133 . DOI: 10.1556/606.2016.11.2.11.
dc.relation.referencesen	Patrik Jensen (2010). Configuration of Modularised Building Systems. Printed by Universitetstryckeriet,
dc.relation.referencesen	Lulea. ISBN 978-91-7439-108-4. https://www.diva-portal.org/smash/get/diva2:999331/FULLTEXT01.pdf.
dc.relation.referencesen	George-Lucian Ionescu (2017). Passive House. Journal of Applied Engineering Sciences, 7(1). DOI: 10.1515/jaes-2017-0003.
dc.relation.referencesen	Foster J., Sharpe Tim R., Sharpe A. (2016). Scottish Passive House: Insights into Environmental Conditions in
dc.relation.referencesen	Monitored Passive Houses. April 2016, Sustainability, 8(5):412. DOI: 10.3390/su8050412
dc.relation.uri	https://mensh.ru/files/passivesolar.pdf
dc.relation.uri	https://www.minregion.gov.ua/wp-content/uploads/2017/03/Rozvitok-VDE-v-Ukrai--ni.pdf
dc.relation.uri	https://ec.europa.eu/
dc.relation.uri	https://doi.org/10.3390/en14123564
dc.relation.uri	https://doi.org/10.1007/978-3-030-27011-7_23
dc.relation.uri	https://doi.org/10.1007/978-3-030-57340-9_59
dc.relation.uri	http://sorging.ro/jideg/index.php/jideg/issue/view/jidegv14i1
dc.relation.uri	http://papers.cumincad.org/cgi-bin/works/Show?ecaade2007_026
dc.relation.uri	https://doi.org/10.3390/en13195191
dc.relation.uri	https://doi.org/10.1016/j.engstruct.2019.01.061
dc.relation.uri	https://doi.org/10.1016/j.aei.2021.101514
dc.relation.uri	https://www.diva-portal.org/smash/get/diva2:999331/FULLTEXT01.pdf
dc.rights.holder	© Національний університет “Львівська політехніка”, 2022
dc.rights.holder	© Zhelykh V., Furdas Yu., Adamaski M., Guzyk D., Tsizda A. 2022
dc.subject	термосифонний сонячний колектор
dc.subject	модульний будинок
dc.subject	сонячна енергія
dc.subject	параметри мікроклімату
dc.subject	інфрачервоне випромінювання
dc.subject	альтернативна енергія
dc.subject	thermosyphon solar collector
dc.subject	modular house
dc.subject	solar energy
dc.subject	energy efficiency
dc.subject	microclimate parameters
dc.subject	infrared rays
dc.subject	alternative energy
dc.title	Alternative heat systems for modular buildings
dc.title.alternative	Альтернативні системи теплозабезпечення модульних будинків
dc.type	Article

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Theory and Building Practice. – 2022. – Vol. 4, No. 1