建議

1. 對現代建築實際火災行為與構件耐火性等之研究進行規劃與進行。

2. 建築煙控全尺度驗證納入規範，以提高建築防火避難安全。

95

96

97

2.請說明與 CNS12514-1 燃燒曲線之不同，未來有無規劃修正 CNS12514-1 等標準之火源之曲線。

98

5.CNS12514-1 燃燒曲線係與 ISO 834-1 調合，其修訂依 ISO 834-1 而定，

但不同火災條件之時間溫度曲線，於今年度本所協助經濟部標準檢驗

99 驗標準(CNS 15937、AS 4391) 之 火 源 亦 以 熱 釋

100

101

14 本研究建立之火源產生機制可 否申請專利。

已 於 是 107 年 10 月 18 日 提出新型式專利申請。

102

103

104

模擬之 19 個情境逐一比較驗證。

5. 火源所用之瓦斯燃料原則上可不用規定其燃料成分比率，可運用 CNS 15048(等同 ISO 9705)實測其流量與燃燒對流熱釋放率為準據。

6. 熱煙試驗標準法是驗證火災初期之煙控避難階段是否可達到設計目標，因係

105

106

107

附錄四 經濟部智慧財產局新型專利公報

108

109

110

參考書目

1. Lisa Choe, Selvarajah Ramesh, Matthew Hoehler, Mina Seif, John Gross, Chao Zhang, and Matthew Bundy，National Fire Research Laboratory Commissioning Project: Testing Steel Beams under Localized Fire Exposure，NIST Technical Note 1983，2018。

2. CNS 15048：2007 建築材料耐燃性試驗法-全尺度燃燒試驗法。

3. CNS 15213-1：2008 建築物外牆立面防火試驗法－中尺度試驗。

4. CNS 15213-2：2008 建築物外牆立面防火試驗法－大尺度試驗。

5. CNS16071：2018 建築物非承重構件耐火是驗法-採用中尺度、多樓層試驗裝 置。

6. CNS 15937：2016 煙控系統性能現場試驗法-熱煙試驗。

7. 盧 東 岳 ， ＂ 瓦 斯 器 具 的 基 本 知 識 ＂ ， 台 灣 區 瓦 斯 器 材 工 業 同 業 公 會 ， http://www.ton-lin.net/news_view.asp?ID=94。

8. GAS TECHNOLOGY ADVISOR^TM ONLINE TRAINING SYSTEM ， http://gta.gastechnology.org/combustion/cm_dm_a。

9. Matthew Smith, John Gales,” CONNECTION BEHAVIOUR IN CONTEMPORARY CANADIAN BUILDINGS SUBJECTED TO REAL FIRES”, The SFPE 12^th International Performance-Based Codes and Fire Safety Design Methods,2018.

10. Jamie Stern-Gottfried, Ann Jonsdottir, Guillermo Rein,” Comparison of Resulting Steel Temperatures from Travelling Fires and Traditional Design Methods: A Case Study of the Informatics Forum Building”, Steel in Fire Forum, 12 April 2011.

11. Guillermo Rein,” Travelling Fires in Structural Design”, 7th Int Conf Fire Safety

111

Eng APICI Madrid, Feb 2011.

12. Egle Rackauskaite , Nieves Fernandez Anez ,” x-ONE Fire Experiment in a Very Large and Open-Plan Compartment “, The SFPE 12^th International Performance-Based Codes and Fire Safety Design Methods,2018.

13. Chao Zhang, Hong-Xia You, Lisa Choe” Fire Dynamics Simulations for Performance-Based Fire Safety Design of Steel Structures in Large Enclosures “, The SFPE 12^th International Performance-Based Codes and Fire Safety Design Methods,2018.

14. Anthony D. Ariyanayagam, Mahen Mahendran,” Fire Safety of Buildings Based on Realistic Fire Time-Temperature Curves”, Proceedings of the 19th International CIB World Building Congress, pp. 1-13,2013.

15. Anthony Deloge, Ariyanayagam, Mahen Mahendran,” Development of Realistic Design Fire Time-Temperature Curves for the Testing of Cold-formed Steel Wall Systems”, Frontiers of Structural and Civil Engineering, Volume 8, Issue 4, pp 427–447,2014.

16. David Parkinson,” Performance Based Design of Structural Steel for Fire Conditions”, Worcester Polytechnic Institute Department of Fire Protection Engineering thesis of Master Degree,2002.

17. https://www.steelconstruction.info/Fire_testing.

18. František Wald,” 9-2. Fire behavior and thermal response”, E-LEARNING A

OVĚŘENÍ ZNALOSTÍ V OBORU OCELOVÝCH KONSTRUKCÍ,ELECTRONIC QUALITY ASSURED STEEL TRAINING AND

ASSESSMENT,2009.

19. Vytenis Babrauskas,” Temperatures in flames and fires”, Fire Science and Technology Inc., https://www.doctorfire.com/flametmp.html,2006.

20. 高崇洋，＂ 火災模擬器商品化雛形設計與製作＂， 行政院勞工委員會勞工

112

安全衛生研究所，2008。

21. Chao Zhang, Lisa Choe, John Gross, Selvarajah Ramesh, Matthew Bundy,”

Engineering Approach for Designing a Thermal Test of Real-scale Steel Beam Exposed to Localized Fire”, Fire Technology, Volume 53, Issue 4, pp 1535–1554,2017.

22. Lisa Choe, Selvarajah Ramesh, Matthew Hoehler, Mina Seif, John Gross, Chao Zhang, and Matthew Bundy,” National Fire Research Laboratory Commissioning Project ：Testing Steel Beams under Localized Fire Exposure”,,National Institute of Standards and Technology,2018.

23. Selvarajah Ramesh, Mina Seif, and Lisa Choe,” Localized fire tests on steel beams with different end restraints”, 9th International Symposium on Steel Structures, November 1-4, 2017.

24. 鄧伊婷，＂ 臺灣建築防火避難性能審議現況分析-以國立海洋科技博物館為 例＂， 中央警察大學消防科學研究所碩士論文，2017。

25. 蔡銘儒，「建築火災煙控系統驗證現場熱煙試驗法建立之研究」，內政部建築 研究所自行研究計畫成果報告，2013。

26. 祝實，霍然，胡隆華，陳志斌，「熱煙測試方法的若干工程應用及討論」，消 防科學與技術，Vol 27，No8，2008。

27. 蘇崇輝，王煊丞，楊咏璋，蘇培森，黃雨濤，蔣岳霖，＂ 以全尺度熱煙測試 進行排煙系統驗證-以K海洋博物館為例＂， 燃 燒 季 刊，Vol. 26, No. 4，

2017。

28. 姚斌、李元洲、毛少华、王浩波、祝实、纪杰、胡隆华、霍然，CN 101474467B 發明專利，「熱煙測試裝置」，中華人民共和國國家知識產權局，2011。

29. Guanchao Zhao,” STUDY OF FIRE SMOKE FILLING IN BUILDINGS BY HELIUM SMOKE TESTS”, Master of Applied Science (Building Engineering) at Concordia University Montreal, Quebec, Canada,2012.

30. Guanchao Zhao , Liangzhu (Leon)Wang,” Using helium smoke as a surrogate of

113

fire smoke for the study of atrium smoke filling”, Journal of Fire Sciences, Vol.

32(5) 431–447, 2014.

31. Petr Pospisil, Ludwig llg,” CLEAR AlR, CLEAR CONSClENCE”, VENTILATION REGIONAL FOCUS, Tunnels , www. tunnelsonline. Info, 2014.

32. Tony Botha,”The Stratification of smoke”, http://www.fire-eng.co.za/Smoke%20stratification.pdf.

33. W.K.Chow,C. L. Chow, S. S. Li,” Simulating Smoke Filling in Big Halls by Computational Fluid Dynamics”, Modelling and Simulation in Engineering Volume 2011.

34. W.K. Chow, “Determination of the Smoke Layer Interface Height for Hot Smoke Tests in Big Halls”, JOURNAL OF FIRE SCIENCES, VOL. 27 , 2009.

35. Kashef, A.; Bénichou, N.; Lougheed, G. D.,”Numerical Modelling of Movement and Behaviour of Smoke Produced from Fires in the Ville-Marie and L.-H.-La Fontaine Tunnels: Literature Review”, IRC-RR-141,2003.

36. Xue-Jin LI, Yan-Feng LI, Jin ZHANG,Hong-Yi WANG,” Experimental Study on Evaluating Smoke Control System Performance in a Transfer Station”, 2017 Joint International Conference on Materials Science and Engineering Application (ICMSEA 2017) and International Conference on Mechanics, Civil Engineering and Building Materials (MCEBM 2017),2017.

37. 史聰靈、鐘茂華、竺維彬、符泰然、何理、馮國冠、石傑紅、汪良旗、吳劉 遠見、溫曉虎、傅常慶，CN 102162375B 發明專利，「地鐵車站及區間隧道現 場熱煙測試設備及方法」，中華人民共和國國家知識產權局，2013。

38. AQ 8007「城市軌道交通試運營前安全評價規範」，中華人民共和國安全產業 行業標準，2013。

39. Eklund, TI. Generation of a buoyant plume of artificial smoke for airplane tests.

Atlantic City, New Jersey: Federal Aviation Administration, Technical Center1990.

114

40. Thor I. Eklund,James E. Demaree,William E. Neese,” Helium smoke generator”, United States Patent, US4994092,1991.

41. “Flight Deck Smoke Penetration Testing”, Robert Morrison, FAA Technical Center Fire Safety,2014.

42. Richard J. Roby，Douglas J. Carpenter，“用於真實火源模擬的漂浮氣體的使 用＂，發明專利CN 102460537，中華人民共和國國家知識產權局，2014。

43. Littlewood, J. R . Alam, M. Goodhew, S., ”A new methodology for the selective measurement of building performance and safety”, 8th International Conference on Sustainability in Energy and Buildings, SEB-16, 11-13 September 2016, Turin, ITALY.

44. J. Rodler, A. Bassler, E. Schnell,” ANALYSIS OF A 10 MW FIRE IN AN UNDERGROUND RAILWAY STATION USING FULL SCALE TESTS AND CFD”, 7thInternational Conference ‘Tunnel Safety and Ventilation’ 2014.

45. Juan Jose Blond, Mario Venturini, Andreas Kanitz, Ricky Carvel,” New Generation of Smoke Tests”, Sixth International Symposium on Tunnel Safety and Security,PP 345-354,2014.

46. Juan Jose Blond Hernandez, Izar, an innovative smoke testing system by using premixed flames for a new smoke testing strategy, 4th Magdeburg Day of Fire and Explosion Safety, 2015.

47. “Nozzle-mix line burner＂, http://www.techrite.com.au/pdfs/Techrite-Maxon-maxon-Apx-Nozzle-Mi x-Line-Burner-2013050711.pdf,2009.

48. SZDB/Z 74，「地鐵車站消防系統驗收評定規程」，深圳市標準化指導性技術 文件，2013。

49. 蔡銘儒，「建築火災煙控性能設計現地排煙驗證精進計畫」，內政部建築研 究所自行研究計畫成果報告，2017。

115

50. 107年7月4日，(107)智專一(四)05053字第10740963830號，經濟部智慧財產 局新型專利形式審查核准處分書。

51. 楊冠雄，「大空間建築全尺度熱煙試驗定量化分析及技術手冊編修研究」，內 政部建築研究所協同研究計畫期中報告，2018。

52. 祁曉霞，「利用發煙機進行煙氣試驗中存在的問題」，消防科學與技術,2001。

53. 林大惠，「建築外牆板及帷幕牆層間交接構造防火性能驗證之研究」，內政 部建築研究所協同研究計畫期末報告，2018。

54. NFPA 92 Standard for Smoke Control Systems, 2018.