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염동우(Yeom, Dongwoo),이규인(Lee, Kyu-In) 대한건축학회 2015 대한건축학회논문집 Vol.31 No.3
The purpose of this study was to suggest improvement directions of G-SEED management system. To do this, the international and national green building certification systems were compared and analysed. The Korean green building certification system showed many differences compared with the international systems. The different issues were interviewed and surveyed to the certification specialist group, and the improvement directions were deduced. Most specialists agreed on the necessity of the improvement for management system in general. 12 items required improvement of the present system or adapt new system. Only one item was required to remain as present condition, and the other items needed further studies.
녹색건축 인증제도의 지속가능성 제고를 위한 평가항목 분석
염동우(Yeom, Dongwoo),이규인(Lee, Kyu-In) 대한건축학회 2016 대한건축학회논문집 Vol.32 No.9
The purpose of this study was to suggest new assessment indicators of G-SEED for sustainability improvement. To do so, current G-SEED was analyzed in sustainable perspective, and compared with the major international certification systems. Preliminary assessment indicators were selected to improve sustainability, and 43 new assessment indicators in three phases were suggested through the specialist survey and the result analysis. The indicators are 25 in phase Ⅰ, 10 in phase Ⅱ and 8 in Phase Ⅲ. Achieved indicators need a further review before acceptance to the current system, and especially, the indicators in phase I were marked highly important by the specialist survey for improving sustainability of the G-SEED. Therefore, additional research and further studies on the acceptance are required in the near future.
박경수(Park, Kyoung-Su),염동우(Yeom, Dongwoo),이규인(Lee, Kyu-In) 대한건축학회 2015 대한건축학회논문집 Vol.31 No.7
The purpose of this study is to verify the effect of cellulose insulation on the indoor temperature and humidity. To do so, two full scale mock-ups were constructed which insulated with cellulose and mineral wool, and monitoring data from winter to spring were compared and analyzed. The results showed that temperature variation of both mock-ups appeared stable compared to the outside, and cellulose showed relatively high temperature compared to the mineral wool mock-up due to the good heat storage capacity. In addition, both mock-ups showed stable humidity variation compared to the outdoor, however, humidity of cellulose mock-up stayed in the comfort zone while mineral wool showed higher humidity than comfort level. Therefore, it was proved that cellulose was effective for controlling indoor humidity environment.