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Języki publikacji
Abstrakty
This paper describes research work on methods concerning heat transfers through walls of thermal technical chambers. The paper presents the mathematical and physical analysis of problems in the field of energy savings and material selection in thermal chambers in controlled gaseous environment. The purpose for the research is to point out areas subjected to the highest energy losses caused by building’s construction and geo-graphical orientation of walls in the aspect of daily atmospheric temperature changes emerging on chamber exterior. Thermal problems were solved using computer aided support. The paper presents exemplary measurement results taken in Lublin region during various periods throughout a year.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
82--93
Opis fizyczny
Bibliogr. 16 poz., fig.
Twórcy
autor
- Institute of Technological Systems of Information, Faculty of Mechanical Engineering,Lublin University of Technology, Nadbystrzycka St. 36, 20-618 Lublin, Poland
autor
- National University of Food Technologies, Volodymyrska St, 68, Kiev, Ukraina, 01033, phone: 00380442879453
Bibliografia
- [1] Bzowska, D. (2000). Heating load demand for a room under weather conditions. Archives of Thermodynamics, 21(1–2), 43–52.
- [2] Bzowska, D. (2002). Prediction of natural ventilation rates induced by weather parameters. Archives of Civil Engineering, 48(4), 473–492.
- [3] Bzowska, D. (2005). Natural ventilation induced by weather parameters in two-zone building. Archives of Civil Engineering, 51(1), 135–151.
- [4] Calderaro, V., & Agnoli, S. (2007). Passive heating and cooling strategies in an approaches of retrofit in Rome. Energy and Buildings, 39(8), 875–885. doi:10.1016/j.enbuild.2006.10.008
- [5] Chwieduk, D. (2006). Modelowanie i analiza pozyskiwania oraz konwersji termicznej energii promieniowania słonecznego w budynku. Prace Instytutu Podstawowych Problemów Techniki PAN, 11, 5–262.
- [6] Dzieniszewski, W. (2005). Procesy cieplno-przepływowe w budynkach: podstawy modelowania matematycznego. Łódź: Komitet Inżynierii Lądowej i Wodnej PAN.
- [7] Etheridge, D. (2002). Nondimensional methods for natural ventilation design. Building and Environment, 37(11), 1057–1072. doi:10.1016/S0360-1323(01)00091-9
- [8] Fracastaro, G., Mutani, G., & Perino, M. (2002). Experimental and theoretical analysis of natural ventilation by window openings. Energy and Buildings, 34(8), 817–827. doi: 10.1016/S0378-7788(02)00099-3
- [9] Hunt, G. R., & Linden. P. F. (2001). Steady-state flows in an enclosure ventilated by buoyancy forces assisted by winds. Journal of Fluid Mechanics, 426, 355–386.
- [10] Janczarek, M. M. (2013). Analiza matematyczno-fizyczna cieplnych komór technicznych. In M. Janczarek & J. Lipski (Eds.), Technologie informacyjne w technice i kształceniu (pp. 127–137). Lublin: Politechnika Lubelska.
- [11] Janczarek, M. M., & Świć, A. (2012). Scientific and technological description of heat and mass transfer processes in chambers. Annals Of Faculty Of Engineering Hunedoara – International Journal Of Engineering, 10, 55–60.
- [12] Janczarek, M., & Bulyandra, O. (2016). Computer modeling of energy saving effects. Applied Computer Science, 12(3), 47–60.
- [13] Kisilewicz, T. (2003). Stateczność cieplna budynków pasywnych. Paper presented at the IX Polska Konferencja Naukowo-Techniczna Fizyka Budowli w Teorii i Praktyce, Łódź, Poland.
- [14] Lomas, K., Cook, M., & Fiala, D. (2007). Low energy architecture for severe US climate: Design and evaluation on a hybrid ventilation strategy. Energy and Buildings, 39(1), 32–44. doi: 10.1016/j.enbuild.2006.03.032
- [15] Suchorab, Z., Sobczuk, H., & Lagod, G. (2016). Estimation of Building Material Moisture Using Non-invasive TDR Sensors. In L. Pawłowski (Ed.), Environmental Engineering IV (pp. 433–439). London: Taylor & Francis Group. doi:10.1201/b14894-64
- [16] Voeltzel, A., Carrie, F. R., & Guarracino, G. (2001). Thermal and ventilation modelling of large highly-glazed spaces. Building and Environment, 33(2), 121–132. doi: 10.1016/S0378-7788(00)00074-8
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b33e09a9-a8d4-4a44-a545-d4af0bb501fd