第五章 結論與建議
第一節 結論
研究結果顯示,將實驗屋的門開啟約 1.5 小時候,實驗屋的甲 醛濃度約可降低為一半,且本研究在搬運板材及油漆過程需將門扇 開啟,量測結果亦發現板才搬運過程,實驗屋甲醛濃度快速快速下 降,即使隨後置入板材,但是由於蓄積在室內的甲醛分子快速逸散 至室外,但從板材中逸散至空間之甲醛,其速率較低,因此,置入 板材後,立即進行量測,室內甲醛濃度仍較原本為低,由此可知通 風是降低室內甲醛濃度經濟快速的方式。
而當實驗屋置入八片 E1 等級的綠建材石膏板後,但將實驗屋 之門關閉 24 小時及 48 小時後,分別再予量測甲醛濃度,量測結果 發現置入板材後,濃度持續上升,到了第 48 小時,六間實驗屋甲醛 均高於實驗屋置入板材前之初始狀態,顯見板材中之甲醛持續逸散 至空間中,且證明石膏板等無機板類確實有不可忽視的甲醛逸散速 率。
在塗料部分,本研究在相同的六個實驗屋分別塗刷 E1、E2、E3、
非綠建材等四種等級塗料,並在塗布面積上做相關變化。在塗刷時 於現場進行甲醛濃度實測,實測結果顯示,塗刷 E1 綠建材塗料之實 驗屋甲醛濃度,明顯低於塗刷非綠建材塗料之實驗屋甲醛濃度,尤 其距離塗刷面越近之位置,差異越大,因此,E1 綠建材有助於避免 油漆塗刷工作人員暴露於高濃度甲醛環境中。但塗料在塗布後連續 量測三天,量測結果顯示,三天後的甲醛濃度相較於施工當天,略
有降低,且塗刷不同等級塗料的實驗屋甲醛濃度差異並不大,但是
參考書目
6. Fransson, N., D. Vastfjall, and J. Skoog (2007), In search of the comfortable indoor environment: a comparison of the utility of objective and subjective indicators of indoor comfort, Building and Environment, Vol.42, 1886-1890.
7. 世 界 衛 生 組 織 (World Health Organization ; WHO) FORMALDEHYDE http://whqlibdoc.who.int/hq/2002/a73769.pdf 8. Guo, H., F. Murray and S.C. Lee (2003) The development of low
volatile organic compound emission house-a case study, Building and Environment, Vol.38:1413-1422.
9. 陳友剛(2007)<第五章第二節 整體換氣技術>《勞工衛生研究 相關技術資料彙編》,勞工安全衛生研究所。
10. 林霧霆、吳明達、梁嘉麟(2007)<木質建材之甲醛及VOC逸散測 試方法CNS化之研究>《建築學報》,第62期專刊:149-162。
11. Guo, Z. (2002) Review of indoor emission source models –Part 1.Overview, Environment Pollution, Vol.120(3):533-549.
12. Hakkarainen, H. (2006) Effect of building structure on indoor air quality measurements and modelling of emissions from fibrous thermal insulation, thesis, Helsinki university of technology,.
13. Huang, H. and F. Haghighat (2002) Modelling of volatile organic compounds emission from dry building materials, Building and Environment, Vol.37:1127-1138.
14. Kwok, N., S.C. Lee H., Guo, and W. Hung (2003) Substrate effects on VOC emissions from an interior finishing varnish, Building and Environment, Vol.38:1019-1026.
15. Tichenor, Z., L. Guo and E. Sparks (1993) Fundamental mass transfer model for indoor air emissions from surface coatings, Indoor Air, Vol.3(4):263–268.
16. Zhang, L Z. and J. L. Niu (2003) Effects of substrate parameters on the emissions of volatile organic compounds from wet coating materials, Building and Environment, Vol.38:939-946.
17. Zhang, Q. and G. Zhang (2007) Study on TVOC concentration distribution and evaluation of inhaled air quality under a re-circulated ventilation system, Building and Environment, Vol.42:1110-1118.
18. Zhu, J. P., Zhang, J. S. and C.Y. Shaw (2001) Comparison of models for describing measured VOC emissions from wood-based panels under dynamic chamber test condition, Chemosphere, Vol.44:1253-1257.