著者

何 江 梅干野 晁 町田 康幸 中大窪 千晶 嚴 泰潤

出版者

一般社団法人日本建築学会

雑誌

日本建築学会技術報告集 (ISSN:13419463)

巻号頁・発行日

vol.15, no.29, pp.179-182, 2009-02-20

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This paper presents a numerical simulation method to predict and evaluate the thermal environment in the developed urban locations where void-brick walls with evaporative cooling effect were applied, using the 3D CAD-based simulator developed by the authors. The thermal modeling of a void-brick wall was proposed from the experimental data and calculation algorism of its surface temperature was integrated into the simulator. A case study was carried out to quantify the thermal improvement of the void-brick wall applied to a bus waiting arbor. The simulation results show that the developed simulation tool can be used as a design tool to evaluate the thermal effect of the void-brick wall on the urban built environment.

著者

梅干野 晁 浅輪 貴史 中大窪 千晶

出版者

一般社団法人 日本建築学会

雑誌

日本建築学会技術報告集 (ISSN:13419463)

巻号頁・発行日

vol.10, no.20, pp.195-198, 2004-12-20 (Released:2017-04-14)

参考文献数

5

被引用文献数

19 22

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This study developed an environmental design tool by combining an outdoor thermal environment simulation with 3D-CAD system performed on personal computer. The outdoor thermal environment simulation applied in this development is able to predict surface temperature distribution of urban blocks taking the spatial form and materials into consideration. Pre- and Post-processing methods were developed considering actual design process. This development actualizes the input and output process using GUI function. The CAD models created by ordinary drawing process are automatically transformed into the mesh model for the calculation. Also the design parameters, inputted in the CAD model drawing process are converted to the parameters used in heat balance calculation. The output of surface temperature distribution is visually displayed onto CAD model.

著者

梅干野 晁 浅輪 貴史 中大窪 千晶

出版者

一般社団法人日本建築学会

雑誌

日本建築学会技術報告集 (ISSN:13419463)

巻号頁・発行日

no.20, pp.195-198, 2004-12-20

参考文献数

5

被引用文献数

29

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This study developed an environmental design tool by combining an outdoor thermal environment simulation with 3D-CAD system performed on personal computer. The outdoor thermal environment simulation applied in this development is able to predict surface temperature distribution of urban blocks taking the spatial form and materials into consideration. Pre- and Post-processing methods were developed considering actual design process. This development actualizes the input and output process using GUI function. The CAD models created by ordinary drawing process are automatically transformed into the mesh model for the calculation. Also the design parameters, inputted in the CAD model drawing process are converted to the parameters used in heat balance calculation. The output of surface temperature distribution is visually displayed onto CAD model.