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Energy performance assessment of envelopes from organic materials

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper estimates the thermal perfomance of effective building envelopes from organic materials for the construction of low-rise buildings. The popular types of walls made of natural energy-efficient materials with low carbon footprint are considered in numerical assessment: hempcrete, adobe, strawbale panel, earthbag and cordwood. The influence of the constructive layer type of the envelope on the amount of thermal inertia time is analyzed. It is revealed that the hempcrete wall has the biggest thermal inertia time, the wall of the earthbags has almost ten times smaller. The walls made of adobe and strawbale panels have practically equal time of thermal inertia. For more objective analysis, by taking into account the variety of physical and physical-mechanical parameters of the envelopes’ material, the concept of integral criterion of the envelope energy efficiency potential is proposed. The estimation of the integral criterion of energy efficiency potential is calculated by the Analytic Hierarchy Process and the proposed method is fulfilled. Comparison of the integral criterion of energy efficiency potential for different wall types which was made by menas of two abovementioned methods has shown the same order of magnitude.
Rocznik
Strony
55--67
Opis fizyczny
Bibliogr. 28 poz.
Twórcy
autor
  • PhD; Department of Construction, Architecture and Municipal Economy, Vinnytsia National Technical University, Voiniv Internatsionalistiv , 7. Vinnytsia, 21000 Ukraine
  • PhD, Prof.; Department of Engineering Systems in Construction, Vinnytsia National Technical University, Voiniv Internatsionalistiv, 7. Vinnytsia, 21000 Ukraine
  • PhD, Assosiated Prof.; Department of Enterprise Economics and Production Management, Vinnytsia National Technical University, Khmelnyts’ke shosse, 95. Vinnytsia, 21000 Ukraine
Bibliografia
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  • [8] Nanazashvili, I. K. (1990). Stroitelnyye materialy iz drevesno-tsementnoy kompozitsi (Building materials from wood-cement composition). Leningrad: Stroyizdat, (in Russian).
  • [9] Lobanova, A. V., Kazimagomedov, I. E. (2015). Stenovyye izdeliya iz arbolita na osnove kostry lna (Wood concrete on the base of fiber flax for wall details). Komunalnoye khozyaistvo gorodov (Municipal economy of cities), 124, 18-20, (in Russian).
  • [10] Shea, A., Lawrence, M., & Walker, P. (2012). Hygrothermal performance of an experimental hemp-lime building. Construction and Building Materials, 36, 270-275.
  • [11] Pacheco-Torgal, F., Jalali, S. (2012). Earth construction: Lessons from the past for future eco-efficient construction. Construction and Building Materials, 29, 512-519.
  • [12] Rajesh Kumar, J. (2013). A study on eco friendly cost effective earthbag house construction. Kathmandu University Journal of Science, Engineering and Technology, 9(1), 200-211.
  • [13] Kulichenko, I. I. (2013). Ekonomichna efektyvnist vykorystannia mistsevykh ekolohichnykh materialiv v malopoverkhovomu budivnytstvi dostupnoho zhytla (Economic efficiency of using local environmental materials in low-rise construction of affordable housing). Stroytelstvo. Materyalovedenye. Mashynostroenye. Seryia: Innovatsyonnye tekhnolohyy zhyznennoho tsykla obiectov zhylyshchno-hrazhdanskoho, promyshlennoho i transportnoho naznachenyia (Construction. Material science. Mechanical engineering. Series: Innovative technologies of the life cycle of object), 69, 257-264, (in Ukrainian).
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  • [16] Sheina, S. G., Minenko, E. N. (2012). Razrabotka algoritma vybora energoeffektivnykh resheniy v stroitelstve (Development of complex energy efficient measurements’ choice algorithm in construction processes). Inzhenernyy vestnik Dona (Don Engineering herald), 22(4-1), 133-136, (in Russian).
  • [17] Matsura, A. A., Ermolenko, B. Y. (2015). Razrabotka metodov optimalnogo proyektirovaniya energoeffektivnykh domov (Development of methods for the optimal design of energy-efficient homes). Uspekhi v khimii i khimicheskoy tekhnologii (Advances in chemistry and chemical technology), XXiX(8), 118-122, (in Russian).
  • [18] Smirnova, S. N. (2009). . Teoreticheskaya model energoeffektivnogo zdaniya (Theoretical model of an energy efficient building). Privolzhskiy nauchnyy zhurnal. Seriya: Arkhitektura. Dizayn (Volga scientific journal. Series: Architecture. Design), 2, 86-91, (in Russian).
  • [19] Savitsky, M. V., Babenko, M. M. (2014). Pokaznyky enerhoefektyvnosti ekolohichnoho malopoverkhovoho budynku z mistsevykh materialiv (Indicators of energy efficiency of an ecological low-rise building of local materials). Stroytelstvo. Materyalovedenye. Mashynostroenye. Seryia: Innovatsyonnye tekhnolohyy zhyznennoho tsykla obiektov zhylyshchno-hrazhdanskoho, promyshlennoho i transportnoho naznachenyia (Construction. Material science. Mechanical engineering. Series: Innovative technologies of life cycle of objects of housing and civil, industrial and transport purposes), 77, 168-172, (in Ukrainian).
  • [20] Stazi, F. (2017). Thermal Inertia in Energy Efficient Building Envelopes. Butterworth-Heinemann.
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  • [22] Ukrainian National Standard. DSTU B.V. 2.6-189: 2013. (2014). Methods of choosing insulation material for insulation of buildings. Kyiv, Ukraine: Ministry of Regional Development, Construction and Housing and Communal Services of Ukraine, (in Ukrainian).
  • [23] Filonenko, O. I., Yurin, O. I. (2015). Budivelna a teplofizyka ohorodzhuvalnykh konstruktsii budivel: navch. posibnyk (Construction and Thermal Physics of Building Enclosures: A manual). Poltava: Poltavskyi natsionalnyi tekhnichnyi universytet im. Yuriia Kondratiuka (Poltava: Poltava National Technical University named after Yuri Kondratyuk), (in Ukrainian).Ukrainian National Standard. DSTUN B.V. 2.6-190: 2013. (2014). Manual on the estimation of design parameters of heat absorbtion and heat resistance of walling. Kyiv, Ukraine: Ministry of Regional Development, Construction and Housing and Communal Services of Ukraine, (in Ukrainian).
  • [24] Ezennia, I. S., Alibaba, H. (2017). A Systematic Review Of Thermal And Moisture Performance Of Straw-Bale Houses In Hot And Humid Climates. International Journal of Scientific & Technology Research, 6(1), 13-18.
  • [25] Arumi-Noe, F., Hamilton, K. (2013). Thermal inertia of Straw bale walls. Buildings XII Conference, Florida, USA. Retrieved from http://web. or nl.gov/sci/buildings/2012/1998%20B7%20papers/063_Arumi_Noe.pdf (Diciembre, 2015). Benfratello, S., Capitano, C., Peri, G., Rizzo, G., Scaccianoce, G., Sorrentino, G. (2013). Thermal and structural properties of a hemp-lime biocomposite. Construction and Building Materials, 48, 745-754.
  • [26] Korshunov, O., Zuev, V. (2011). Vremya teplovoy inertsiii termicheskoye soprotivleniye sloistykh sten (Time of thermal inertia and thermal resistance of multilayered walls). Energoresursosberezheniye i energoeffektivnost (Energy saving and energy efficiency), 4(40), 23-26, (in Russian).
  • [27] Ukrainian National Standard. DSTU ISO 6946: 2007. (2007). Building components and building elements. Thermal resistance and thermal transmitance. Calculation methods. Kyiv, Institute of Technical Thermophysics of the National Academy of Sciences of Ukraine, (in Ukrainian).
  • [28] Saaty, T. L. (2009).(Prinyatiye resheniy pri zavisimostyakh i obratnіkh svyazyakh: Analiticheskiye seti: per. s angl) (Decision-making with dependencies and inverse connections: Analytical networks: Translated from English. Moscow: LIBROCOM Book House, (in Russian).
Uwagi
PL
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d126e739-2cd2-4aac-965f-0fa7ba6c9e71
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