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This paper shows the possibility of the use of IR thermography for testing the operational parameters of wood stoves. The study showed differences in the operation parameters of the plate steel wood stove, plate steel wood stove with accumulation and accumulative wood stove. There were compared temperature distribution on the external surfaces of tested units and the amount of energy transferred to heated rooms. Moreover, there were also tested two types of units dedicated to heat recovery from flue gas: flue gas to air steel heat exchanger and accumulative ceramic heat exchanger. The use of IR thermography allowed to simplify measurements and gave approximate results in comparison to more detailed tests.
Wydawca
Czasopismo
Rocznik
Tom
Strony
162--165
Opis fizyczny
Bibliogr. 8 poz., rys., tab., wykr., wzory
Twórcy
autor
- AGH University of Science and Technology, Faculty of Energy and Fuels, Department of Sustainable Energy Development, 30 Mickiewicza Ave., 30-059 Cracow
autor
- AGH University of Science and Technology, Faculty of Energy and Fuels, Department of Sustainable Energy Development, 30 Mickiewicza Ave., 30-059 Cracow
autor
- AGH University of Science and Technology, Faculty of Energy and Fuels, Department of Sustainable Energy Development, 30 Mickiewicza Ave., 30-059 Cracow
autor
- AGH University of Science and Technology, Faculty of Energy and Fuels, Department of Sustainable Energy Development, 30 Mickiewicza Ave., 30-059 Cracow
autor
- AGH University of Science and Technology, Faculty of Energy and Fuels, Department of Sustainable Energy Development, 30 Mickiewicza Ave., 30-059 Cracow
Bibliografia
- [1] Türler D., Griffith B., Arasteh D. K.: Labortory procedures for using infrared thermography to validate heat transfer models, Insulation Materials: Testing and Applications: Third Volume, ASTM STP 1320, R. S. Graves and R. R. Zarr, Eds., American Society for Testing and Materials, 1997.
- [2] Nowak H., Kucypera M.: Application of Active Thermography for Detecting Material Defects in the Building Envelope, InfraMation Proceedings, pp. 2010-2020, 2010.
- [3] Carlomagno G. M., Cardone G.: Infrared thermography for convective heat transfer measurements. Experiment in Fluids, vol. 49, pp. 1187-1218, 2016.
- [4] Carlomagno, G. M., & de Luca, L.: Infrared thermography for flow visualization and heat transfer measurements. In International Conference on Engineering Education, 1998.
- [5] Sornek K., Filipowicz M., Rzepka K.: The development of a thermoelectric power generator dedicated to stove-fireplaces with heat accumulation systems. Energy Conversion and Management, vol. 125, pp. 185-193, 2016.
- [6] Sornek K., Filipowicz M., Kurcz L., Szubel M., Rosół M., Rzepka K., Ręka J.: Control of the stove-fireplace with accumulation in relation to the CO emission. Engineering and Protection of Environment, vol. 18, no. 4, pp. 497-512, 2015 (Polish).
- [7] Fohanno S., Polidori G.: Modelling of natural convective heat transfer at an internal surface. Energy and Buildings, vol. 38, pp. 548-553, 2006.
- [8] Kurcz L., Filipowicz M., Sornek K., Szubel M., Rzepka K., Ręka J.: Low-power heat sources in heating systems. Pt. 1, Stove-fireplaces – technical, economic, ecological and aesthetic aspects. District heating, heating, ventilation, vol. 46, no. 3, pp. 104-11, 2015 (Polish).
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2efcd669-5f45-4e8f-9944-40dd7803cec6