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The article deals with the research results of temperature distribution on infrared heater surface. Mathematical model of the process of heat exchange on infrared heater surface was developed. The experimental measurements have been carried out and the data of the temperature on infrared heater surface have been obtained for verification the reliability of the results of theoretical studies. The results of the studies showed that the temperature gradient of the area of heater changed no more than 4.5°C.
Czasopismo
Rocznik
Tom
Strony
81--85
Opis fizyczny
Bibliogr. 16 poz., rys., wykr.
Twórcy
autor
- Lviv Polytechnic National University, Department of Heat and Gas Supply and Ventilation St. Bandery, 12, 79013, Lviv - 13, Ukraine
autor
- Czestochowa University of Technology, Department of General Building Engineering and Building Physics Akademicka 3, 42-201 Czestochowa, Poland
autor
- Lviv Polytechnic National University, Department of Heat and Gas Supply and Ventilation St. Bandery, 12, 79013, Lviv - 13, Ukraine
autor
- Lviv Polytechnic National University, Department of Heat and Gas Supply and Ventilation St. Bandery, 12, 79013, Lviv - 13, Ukraine
autor
- Lviv Polytechnic National University, Department of Civil Safety 3 Svyatyi Yuriy sq., 79013, Lviv, Ukraine
Bibliografia
- [1] Bakowski K. Siesi I instalacje gazowe. Wyd. Naukowo-Tecxniczne, Warszawa, 2002.
- [2] Bauer D, Heeger M, Gebhard M, Benecke W. Design and fabrication of a thermal infrared emitter. Sensors and Actuators a-Physical, 1996; 55(1):57-63.
- [3] Brown K J, Farrelly R, O'shaughnessy S M, Robinson A J. Energy efficiency of electrical infrared heating elements. Applied Energy, 2016; 162:581-588.
- [4] Dudkiewicz E, Fidorow N, Jezowiecki J. The Influence of Infrared Heaters Efficiency on the Energy Consumption Cost. Rocznik Ochrona Srodowiska, 2013; 15:1804-1817.
- [5] Hsieh C T, Tzou D Y, Huang Z S, Lee C Y, Chan J K. High performance infrared heaters using carbon fiber filaments decorated with alumina layer by microwave-assisted method. Journal of the Taiwan Institute of Chemical Engineers, 2016; 59:521-525.
- [6] Kimball B A. Theory and performance of an infrared heater for ecosystem warming. Global Change Biology, 2005; 11: 2041-2056.
- [7] Kramer S, Gritzki R, Perschk A, Roesler M, Felsmann C. Numerical simulation of radiative heat transfer in indoor environments on programmable graphics hardware. International Journal of Thermal Sciences, 2015; 96:345-354.
- [8] Lee E H, Yang D Y. Experimental and numerical analysis of a parabolic reflector with a radiant heat source. International Journal of Heat and Mass Transfer, 2015;85:860-864.
- [9] Guo-Jun Li, Jian Ma Ben-Wen Li. Collocation Spectral Method for the Transient Conduction-Radiation Heat Transfer With Variable Thermal Conductivity in Two-Dimensional Rectangular Enclosure. Journal of Heat Transfer, 2015; 137(3).
- [10] Petras D, Kalus D. Effect of thermal comfort/discomfort due to infrared heaters installed at workplaces in industrial buildings. Indoor and Built Environment, 2000;9:148-156.
- [11] Ploteau J P, Glouannec P, Noel H. Conception of thermoelectric flux meters for infrared radiation measurements in industrial furnaces. Applied Thermal Engineering, 2007;27(2-3): 674-681.
- [12] Shepitchak V, Savchenko O, Spodyniuk N, Zhelykh V. The study of temperature fields in exposure zone of the rotary infrared heaters. Budownictwo o zoptymalizowanym potencjale energetycznym, 2015; 1(15):178-181.
- [13] Wall G W, Kimball B A, White J W, Ottman M.J. Gas exchange and water relations of spring wheat under full-season infrared warming. Global Change Biology, 2011;17:2113-2133.
- [14] Yurkevich Y, Spodyniuk N. Energy-saving infrared heating systems in industrial premises. Budownictwo o zoptymalizowanym potencjale energetycznym, 2015; 2(16):140-144.
- [15] Zhelykh V, Spodyniuk N, Dzeryn O, Shepitchak V. Specificity of Temperature Mode Formation in Production Premises with Infrared Heating System. International Journal of Engineering and Innovative Technology, 2015; 4:8-16.
- [16] Zhelykh V, Yurkevich Y, Spodyniuk N, Kapalo P. Vplyv prúdenia vzduchu na účinnost’ infračerveného vykurovacieho system. Vedecko-odborný časopis v oblasti plynárenstva, vykurovania, vodoinštalácií a klimatizačných zariadení, 2008; 4:62-63.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-09f49352-8d9c-41ba-9bd9-45c331f4958e