Journal of Biosystems Engineering

  • 제34권5호
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  • Pages.363-370
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  • 2009
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  • 1738-1266(pISSN)
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  • 2234-1862(eISSN)
한국농업기계학회 (Korean Society for Agricultural Machinery)
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온풍난방기의 열효율 증대를 위한 열교환기 구조개선

Mechanism Improvement of the Heat Exchanger for the Thermal Efficiency Increase of Hot Air Heater

  • Kang, Geum-Choon (National Institute of Horticultural & Herbal Science, Rural Development Administration) ;
  • Kang, Yoen-Ku (National Academy of Agricultural Science, Rural Development Administration) ;
  • Ryou, Young-Sun (National Academy of Agricultural Science, Rural Development Administration) ;
  • Kim, Young-Joong (National Academy of Agricultural Science, Rural Development Administration) ;
  • Lee, Si-Young (National Institute of Horticultural & Herbal Science, Rural Development Administration) ;
  • Paek, Yee (National Institute of Horticultural & Herbal Science, Rural Development Administration)
  • 발행 : 2009.10.25
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초록

Hot air heater with light oil combustion is used as the most common heater for greenhouse heating in the winter season. Hot air heaters of 256,246 units have been supplied as main greenhouse heating equipment until 2008 and greenhouse heating cost has reached to 620 billions won in Korea. In order to improve the thermal efficiency of the hot air heater and to reduce the expenses for greenhouse heating, prototype hot air heater was manufactured and tested in this experiment. The heat exchanger of tested prototype hot air heater was circular and hexagonal pipe type and inline and stagger arrangement type. Capacity of the heating was 43,062 kJ/h and total heat transfer area of the heat exchanger was $10.728\;m^2$. According to the performance test, it could supply heat of 38,240 to 35,100 kJ/h depending on the fan motor speed of 1,740~1,220 rpm, respectively. Thermal efficiency of hot air heater was 87.0% to 80.8% in the same conditions. As a result, thermal efficiency of hot air heater with hexagonal pipe-stagger arrangement heat exchanger developed in this study was higher 10.2% than that of conventional hot air heater and heating energy saving rate of 14.3% increased.

키워드

참고문헌

  1. Kim, J. J., J. K. Kim, K. S. Kim, B. S. Park, J. D. Seo and S. Y. No. 1999. Study on space heater for green house. Journal of the Korean Society for Agricultural Machinery 4(1):195-200. (In Korea)
  2. Kim, Y. J., Y. S. Ryou, K. C. Kang, Y. Baek and J. H. Yun. 2002. An investigation on the heat efficiency of hot air heater. Journal of the Korean Society for Agricultural Machinery 7(1):133-137. (In Korea)
  3. Lee, K. M., K. S. Park and S. W. Choi. 2002. Mechanism improvement of the heat exchanger and the ventilator for the thermal efficiency increment of the hot-air heater. Journal of the Korean Society for Agricultural Machinery 7(1):558-563. (In Korea)
  4. Paek, Y., Y. J. Kim, Y. S. Ryou, G. C. Kang, Y. K. Kang and C. H. Kang. 2006. An analysis on the heat efficiency of hot air heater. Journal of Biosystems Engineering 11(1): 51-55. (In Korea)
  5. Seo, J. D., J. J. Kim, K. S. Choi, C. S. Shin and S. Y. No. 1999. Temperature distributions inside a space heater for greenhouse(Ι). Journal of the Korean Society for Agricultural Machinery 24(4):335-342. (In Korea)
  6. Rural Development Administration. 2006. Test Manual of Agricultural Hot Air Heater. RDA, Suwon, Korea.
  7. Rural Development Administration. 2009. Test Manual of Agricultural Heater with Mixed Heat Source. RDA, Suwon, Korea

피인용 문헌

  1. Heating and Cooling System for Utilization of Surplus Air Thermal Energy in Greenhouse and its Control Logic vol.37, pp.1, 2012, https://doi.org/10.5307/JBE.2012.37.1.019