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Measurement of Convective Heat Transfer Coefficients of Horizontal Thermal Screens under Natural Conditions KCI 등재

온실 스크린의 대류열전달계수 측정

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  • URLhttps://db.koreascholar.com/Article/Detail/387334
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생물환경조절학회지 (Journal of Bio-Environment Control)
한국생물환경조절학회 (The Korean Society For Bio-Environment Control)
초록

대류열전달은 겨울철 온실 열손실의 중요한 원인이 되며, 일반적으로 복사열에 의한 손실보다 더 크다. 스크린의 대류열전달계수를 자연상태에서 측정한 연구가 수행된 바는 있지만 상하면의 재질이 동일하고 공극이 없는 스크린에 대해서는 적용을 할 수 없는 방법이다. 이러한 재질의 스크린은 한국에서 많이 사용되고 있으나 대류열전달 특성을 파악하는데 많은 어려움이 있는 실정이다. 본 연구에서는 공극이 없는 3가지 종류의 스크린에 대해 대류열전달계수를 구하였으며, 계수를 산정하기 위하여 복사열수지 이론에 근거하여 산정방법을 개발하였다. 실험장치에 스크린을 설치하고 일사량, 장파복사량, 대기온도, 스크린 및 흑색천의 표면온도, 풍속 등을 측정하였다. 스크린의 표면온도와 주변온도의 차이에 따른 대류열전달계수를 산정하였다. 풍속이 거의 없는 상태에서 온도의 차이가 증가함에 따라 계수는 감소하는 것으로 나타났다.

Convective heat transfer is the main component of greenhouse energy loss because the energy loss by this mechanism is greater than those of the other two components (radiative and conductive). Previous studies have examined the convective heat transfer coefficients under natural conditions, but they are not applicable to symmetric thermal screens with zero porosity, and such screens are largely produced and used in Korea. However, the properties of these materials have not been reported in the literature, which causes selectivity issues for users. Therefore, in this study, three screens having similar color and zero porosity were selected, and a mathematical procedure based on radiation balance equations was developed to determine their convective heat transfer coefficients. To conduct the experiment, a hollow wooden structure was built and the thermal screen was tacked over this frame; the theoretical model was applied underneath and over the screen. Input parameters included three components: 1) solar and thermal fluxes; 2) temperature of the screen, black cloth, and ambient air; and 3) wind velocity. The convective heat transfer coefficients were determined as functions of the air–screen temperature difference under open-air environmental conditions. It was observed from the outcomes that the heat transfer coefficients decreased with the increase of the air–screen temperature difference provided that the wind velocity was nearly zero.

목차
Abstract
Introduction
Materials and Methods
    1. Material Properties and Composition
    2. Experimental setup
    3. Measurement of radiative properties during day time
    4. Measurement of radiative properties during night time
Results and Discussion
적 요
저자
  • Adeel Rafiq(Department of Agricultural Engineering, Kyungpook National University) | 라피크아딜
  • Wook Ho Na(Institute of Agricultural Science and Technology, Kyungpook National University) | 나욱호
  • Adnan Rasheed(Department of Agricultural Engineering, Kyungpook National University) | 라쉬드아드난
  • Hyeon Tae Kim(Department of Bio-Industrial Machinery Eng., Gyeongsang National Univ. (Insti. of Agric. & Life Sci.)) | 김현태
  • Hyun Woo Lee(Department of Agricultural Engineering, Kyungpook National University, Institute of Agricultural Science and Technology, Kyungpook National University, Smart Agriculture Innovation Center, Kyungpook National University) | 이현우 Corresponding author