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송국섭(Gook-Sup Song),유형규(Hyung-Kyu Yu),정병훈(Byong-Hoon Jeong) 한국생활환경학회 2001 한국생활환경학회지 Vol.8 No.1
Although high-rise apartments are beneficial to increase land use, open space, fine view, and so forth, it induces people to concentrate in cities and causes traffic problem. And, the lower stories of those apartments are difficult to obtain sunlight for minimum 4 hours in the daytime while the upper stories of them can receive sufficient sunlight regardless of seasons or times. The purpose of this study was to present the method which can be used for evaluating sunlight conditions in design and using phase of apartments by surveying individual houses. In this study, it is produced the shadow analysis program with Auto Lisp that can plot shadows on a CAD drawing by calculating solar altitude, azimuth, declination and equation of time. To examine the seasonal effect of shadow, three-dimensional building shape and shadow were illustrated using the rendering method. Because this shadow analysis program with Auto Lisp can show directly building shadows on a drawing, it is useful to perceive the accurate pattern and area of shadow. And, the Auto CAD rendering method can express seasonal changes of shadow in apartment complex. Therefore, by using two methods properly, it is helpful to predict precise time of sunlight and shadow in design and using phase of buildings.
송국섭(Gook-Sup Song) 한국생활환경학회 2010 한국생활환경학회지 Vol.17 No.3
This study elucidates the acceptable floor temperature for reproduction in rats. Floor systems were constructed to maintain surface temperatures (t<SUB>f</SUB>) of 12°, 18°, 23°, 28°, 33° and 40℃. A total of 60 Sprague-Dawley rats were divided into 6 groups. Each group consisted of 10 rats (5 males and 5 females), and rats were maintained at the designed floor surface temperatures for three months. The fastest group to breed was housed at t<SUB>f</SUB> 23℃ (57.4 days) and the longest group was at t<SUB>f</SUB> 40℃ (74.8 days). Rats kept on the cooled floors (12, 18 and 23℃) took 7.6 days less to breed than the warm floors (28, 33 and 40℃) (p<0.05). The most fertile group was housed in the t<SUB>f</SUB> 28℃ environment (born: 71/perished: 4) and the least fertile group was t<SUB>f</SUB> 12℃ (b: 37/p: 21). The recommended floor temperature range for reproduction is 18-33℃ and for newborn infants is 28-33℃.
바닥의 온도가 심부온도, 피부온도, 혈류량에 미치는 영향
송국섭(Gook-Sup Song),안가연(Ga-Youn Ahn),이정범(Jeong-Bum Lee) 한국생활환경학회 2011 한국생활환경학회지 Vol.18 No.1
A total of 24 S-D (Sprague-Dawley) rats were purchased, and they were cultured in thermo-neutral environment of 23℃ air temperature and 50% relative humidity. Six (6) types of under floor heating systems were constructed to maintain the floor temperature (t<SUB>f</SUB>) of 12°, 18°, 23°, 28°, 33° and 40℃. In an experimental day, eight (8) rats were chosen sequentially and their body condition was controlled in the 23℃ floor for 20 minutes to get a similar body status, and in the main experiments two floors were selected among six floor systems, and four (4) rats were investigated in each floor. The changes of core body temperature in the rectum and skin temperature in the dorsal part were measured for 60 minutes. After the measurement of body temperature, the blood flow rates were measured in the same dorsal part for 10 minutes by using the Laser Doppler Flow Meter. As the results of the experiments, the rectal temperature was decreased by -2.12℃ in the t<SUB>f</SUB> 12℃, and it was increased by +1.63℃ in the t<SUB>f</SUB>40℃. From t<SUB>f</SUB> 18℃ to t<SUB>f</SUB> 35℃, the difference of rectal temperature was not statistically significant. The difference between the initial and final skin temperature was not statistically significant in the t<SUB>f</SUB> 23℃ floor, and the skin temperature was decreased at the t<SUB>f</SUB> 12℃ and t<SUB>f</SUB> 18℃ floor, and it was increased from t<SUB>f</SUB>28℃ to t<SUB>f</SUB>40℃ statistically. The blood flow rate was not increased proportionally according to the floor surface temperature, In the cooled floors such as t<SUB>f</SUB> 12℃ and t<SUB>f</SUB> 18℃ floor, the blood flow was higher than that of t<SUB>f</SUB> 23℃ to t<SUB>f</SUB> 40℃ floors (p<0.05). The difference of blood flow rate ranged from t<SUB>f</SUB> 23℃ to t<SUB>f</SUB> 40℃ floor was not statistically significant.
송국섭(Cook-Sup Song),장문녀(Moon-Nyeo Chang),김기훈(Ki-Hoon Kim) 한국생활환경학회 2008 한국생활환경학회지 Vol.15 No.4-1
A skin thermometer is widely used to elucidate the relationship between the physiological response and the surrounding environment. The purpose of this work was to develop a precise skin thermometer with accuracy of ± 0.1℃ considering to ISO 9886 and ISO 7933. Characteristics of sensors such as RTD pt-100 Ohm, NTC thermistor, Thermocouple and Integrated Silicon Sensor were compared for sensitivity, stability and the availability of an operating amplifier. Finally a 10k-Ohm NTC thermistor was adapted. A ± 0.1 % resistor was used to evaluate the accuracy of the operating amplifier, and a copper annular with a 50㎜-diameter was used to evaluate the characteristics of the thermometer. The accuracy of the thermometer was to be ± 0.08℃. The skin thermometer developed in this work was utilized to measure skin temperature for thermo-physiological responses.
송국섭(Gook-Sup Song) 한국생활환경학회 2005 한국생활환경학회지 Vol.12 No.3
Since Koreans habitually sit on the heated floor in their residential buildings, the male testis is directly exposed, and is therefore affected, by the floor surface temperature. The purpose of this study is to investigate the changes in the scrotal temperature of subjects in a sedentary posture and high metabolism rate over the heated floor. A rigid screening test was performed to select healthy subjects. Finally, six college students volunteered to participate in the experiments. Experiment was designed for a high metabolism state, with the subjects playing a card game in a sedentary posture for 180 min. The floor surface temperature (tf) was controlled by varying the temperature of water (tw) flowing underneath of the floor surface from 30℃ to 40℃, at 5℃ intervals. Experiment revealed that the final scrotal temperature was 33.43℃, 34.78℃, and 35.61℃, and the difference between the initial and final scrotal temperatures was +0.34℃, +I.06℃, and +2.24℃, at tw 30℃ (tf 27.8℃), 35℃ (tf 31.7℃), and tw 40℃ (tf 35.9℃), respectively. The scrotal temperature was affected by the floor surface temperature and by the rate of metabolism of the subject in a sedentary posture. As derived from regression analysis, the recommended surface temperature of a heated floor is within 23℃~33℃ to achieve spermatogenesis.
200℃ 온도에서 나무바닥의 두께가 인체의 피부온도와 혈류량에 미치는 효과
송국섭(Gook-Sup Song) 한국생활환경학회 2002 한국생활환경학회지 Vol.9 No.4
This study was performed to suggest fundamental data on physiological response by the thickness variations of wooden floor covering. The experimental chamber having automatic control system was constructed, and the system can control not only air temperature but also surface temperature and humidity ratio. The air and wall surface temperature were set 20℃, relative humidity 50%, and air velocity 0.2 m/sec, and the temperature of the supply water flowing into the floor coil was set 20°e. The floor covering material was varied from mortar only (thin paper finishing), to 2.7 ㎜ thickness plywood, 7.5 ㎜, and 12 ㎜. 8 healthy college students volunteered the experiments at sitting posture on the floor. Skin temperatures at 8 points and blood flow rates were measured. To evaluate the heat transfer between human body and finishing materials, the contact point temperature was measured. According to these experiments, following results were obtained; (1) The mean skin temperature at the 12 ㎜ plywood covering was recorded 0.8℃ higher than that of mortar finishing floor. (2) The contact point temperature between floor finishing and buttock, reached 24.4℃ in mortar and it reached 29.9℃ in 12 ㎜ plywood. (3) In the respect of the blood flow rate at fingertip, the difference between mortar finishing and 12 ㎜ plywood was recorded as 1.94 ㎎/min/100g. Also, at the toe-tip, the difference was 0.77 ㎎/min/100g. The Wooden floor is more human body friendly system more than mortar finishing floor, when the finishing wood has the 12 mm thickness more.