Abstract: | 邁向各項資源缺乏的現今社會,全球有關於永續、節能、健康方面的議題,越來越
受重視,建築在現代人生活的功能佔有相當的一席之位,根據相關研究調查,現今的人生
活在室內空間之中的時間佔每天的90%以上,不健康的建築對在建築室內使用者可能是最
直接的衝擊,建築的區位特性對於室內的溫熱環境可能是間接影響的可能,已成為現代生
活中的一大隱憂,由於在經濟活躍發展的當今往往都忽略建築區為的特性,是否對於建築
室內溫熱環境也帶來衝擊。建築區為特性的不同是否可改變建築室內節能的一部分,室內
環境品質對於人體的健康與舒適皆會產生直接的影響。因此,將建築區為特性及建築室內
溫熱環境比較探討,並考量能源有效運用,則是未來永續、節能、健康空間落實所需面對
的重要課題之一。
建築物之室內環境中微氣候因子可能影響到人體健康與舒適之問題,增加了在室內
環境空間中活動的人們的健康風險,不良的室內環境品質會引起身體不適,產生不良的影
響。 Towards the society of the lack of resources, global issues of sustainability, energ
y efficiency, health, and increased emphasis on building a considerable for a seat in t
hefunction of modern life, according to the research survey, today'speople living in th
einterior space of time accounted for more than 90% in the daily construction of unhea
lthyindoor users may be the most direct impact on the location of the building feature
s indoorthermal environment may be the possibility of indirect effects,has become a
major worryof modern life, in the economically active development today often ignor
e the built-up areas for the features, whether the impact of indoor thermal environmen
t. The differentcharacteristics of the construction zone to change the indoor part of the e
nergy conservation, indoor environmental quality for human health and comfort are a
direct impact. Therefore, the construction zone characteristics and indoor thermal en
vironmentcompared and discussed and considering effective use of energy, an impor
tant issue forthe future of sustainable, energy saving, healthy space to implement the
required face ofthe one.
The indoor environment of buildings in the micro-climatic factors that may affect hu
man health and comfort problems, increase the health risks of the activities of peopl
e in theindoor environment space, poor indoor environmental quality can cause physic
al discomfort, adverse drinking sound, the use of expert advice and analysis, weight
analysis, and calculated the relative weights of the results in various fields between t
hevarious factors, the first to review the improvement of the thermal environment. |