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온돌면(溫突面)의 방열량(放熱量) 산정방법(算定方法)에 관한 연구(硏究)
손장열,안병욱,방승기,Sohn, Jang Yeul,Ahn, Byung Wook,Pang, Seung Ki 대한설비공학회 1989 설비공학 논문집 Vol.1 No.2
Until recently there was a lack of reliable performance data for the design and operation of Ondol heating systems. This paper presents a calculation method on heat flux from Ondol floor surface. Total heat flux from floor consists of radiation and convection component. In order to analyse the characteristics of both radiation and convection heat flux, each surface temperature is measured and several temperatures near each wall are measured vertically and horizontally in a practical Ondol heating space. Radiation heat flux is calculated and analysed by Gebhart's Absorption Factor Method with the consideration of instantaneous radiant exchanges. Convection heat output is derived from the vertical temperature profiles near floor. The vertical temperature profiles could be expressed by nonlinear regression equation models and convection coefficients could be estimated by the equations. As a result, radiation, convection and total heat flux are suggested by the expression of difference between floor surface and room air temperature.
손장열,이승언,Sohn Jang-Yeul,Lee Seung-Eon 대한설비공학회 1985 설비저널 Vol.14 No.1
This paper aims to present the basic data to establish resonable building maintenance standards by investigating and analyzing the actual conditions of maintenance for service facilities and the problems due to the situation. The subject buildings of investigation are 10 stories and above off ice buildings in Seoul. The results obtained from this study are as follows. 1. The equipment service life related to air-conditioning system is known as around 9years in case of breakdown maintenance and around 13 years in case of preventive maintenance. 2. The total mechanical room area against the total floor area is $4.40\%$, and the ratio of air-conditioning room area is $1.78\%$ on an average.
손장열,공성훈,윤용진,Sohn, Jang-Yeul,Kong, Sung-Hoon,Yun, Yong-Jin 대한설비공학회 1985 설비저널 Vol.14 No.3
The low-temperatured radiant heating System like a panel heating system is recognized as nice means to make comfortable indoor environment. Perhaps, 'Ondol' would be a typical example of the Panel heating system. Nevertheless. Occupants in a radiantly heated Space which has an asymmetric radiant field may feel thermally discomfort due to the asymmetric radiation. The aim of this Study is to suggest the fundamental technical data for establishing Standards of thermally comfortable environment when designing a radiant heating System. Thermal distribution of indoor environment and the skin temperature of the occupants were measured at experimental room in KIER (Korea Institute of Energy and Resources). Whole/Regional thermal and comfort Sensation votes of the occupants were taken simultaneously in order to investigate the relationships between thermal environmental factor and the occupants' responses. The effect of an asymmetric radiation on thermal environment and the occupants' responses was analyzed by using a v.r.t.(vector radiant temperature). By this means, the thermally neutral limits for the ambient air temperature and the floor surface temperature by the occupants' responses were Obtained. And the recommended temperature limits of the indoor surface were derived from the experimental work and the theory of radiant and will provide thermal neutrality for man without any discomfort on the part of the body.