無動力煙灰缸研發

Feng-Yu Chiang; 江峰郁

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/35247

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	林嘉明
dc.contributor.author	Feng-Yu Chiang	en
dc.contributor.author	江峰郁	zh_TW
dc.date.accessioned	2021-06-13T06:45:23Z	-
dc.date.available	2007-10-03
dc.date.copyright	2005-10-03
dc.date.issued	2005
dc.date.submitted	2005-07-28
dc.identifier.citation	Ambrose, J. A., Barua, R. S., The pathophysiology of cigarette smoking and cardiovascular disease: An update, Journal of the American College of Cardiology Vo: 43, Issue: 10, May 19, 1731-1737, 2004. Brown, D. W., Ford, E. S., Giles, W. H., Croft, J. B., Balluz, L. S., Mokdad, A. H., Associations between white blood cell count and risk for cerebrovascular disease mortality: HANES II Mortality Study, 1976–1992, Annals of Epidemiology Volume: 14, Issue: 6, July, 425-430, 2004 Byrd, J. C., Shapiro, R. S., Schiedermayer, D. L., Passive smoking: A review of medical and legal issues, American Journal of Public Health 79: 209-215, 1989. Carson, J. K., Lovatt, S. J., Tanner, D. J., Cleland, A. C., Experimental measurement of the effective thermal conductivity of a pseudo-porous food analogue over a rang of porosities and mean pore sizes, Journal of Food Engineering, 63, 87-95, 2004. Camirand, C. P., Measurement of thermal conductivity by differential scanning calorimetry. Thermochimica Acta, 417, 1-4, 2004. Chen, B. T., Namenyi, J., Yen, H.C., Mauderly, J. L., Cuddihy, R. G., Physical characterization of cigarette smoke aerosol generated form a Walton smoke machine, Aerosol Science and Technology, 12, 364-375, 1990. Eriksen, M. P., LeMaistre, C. A., and Newell, G. R., Health hazards of passive smoking, Annual Review of Public Health 9: 47-70, 1988. Glantz, S. A., Parmley, W. W., Passive smoking and heart disease: epidemiology, physiology, and biochemistry, Circulation 83:1–12, 1991. http://www.tsh.org.tw/content/xsmoke/xsmoke04a.asp?xid=185&offset=1 http://www.smoke-free.ca/factsheets/pdf/Emission3a.PDF http://www.cd120.com/health/holiday/logo/nonsmoking/index.htm Hinds, W. C., 1999., Aerosol Technology., Second Edition. Jerkins, R. A., Guerin, M. R., and Tomkins, B. A., The Chemistry of Environmental Tobacco Smoke: Composition and Measurement, 2nd ed., Lewis Publishers, New York. Kabat, G. C., Stellman, S. D., Wynder, E. L., Relation between exposure to environmental tobacco smoke and lung cancer in lifetime nonsmokers, Lung Cancer 13(3): 325, 1995. Law, M. R. Passive smoking, heart disease and cancer. Food and Chemical Toxicology Volume: 35, Issue: 12, December, 1997, pp. 1232 Law, M.R.; Hacksaw, A.K. Increased risk of hip fracture in female smokers. Food and Chemical Toxicology Volume: 35, Issue: 12, December, 1997, pp. 1232 Lee, B. U., Kim, S. S., Thermophoresis in the cryogenic temperature range, Journal of Aerosol Science Volume: 32, Issue: 1, January, 107-119, 2001. Lee, B. U., Kim, S. S., The effect of varying impaction plate temperature on impactor performance: experimental studies, Journal of Aerosol Science Volume: 33, Issue: 3, March, 451-457, 2002. Morawska, L., Jamriska, M., Bofinger, N. D ., Size characteristics and ageing of the environmental tobacco smoke. The Science of the Total Environmental, 196, 43-55, 1997. Muller, W. J., Hess, G. D., Scherer, P. W., A model of cigarette smoke particle deposition, American Journal of Industrial Hygiene Association 51: 245-256, 1990. National Research Council, Environmental Tobacco Smoke: Measuring Exposure and Assessing Health Effects, National Academic Press, Washington, D. C., 1986 Repace, J. L. and Lowrey A. H., Issues and answers concerning passive smoking in the workplace: rebutting tobacco industry arguments, Tobacco Control 1:208-219, 1992. Schmolz, E., Bruders, N., Daum, R., Lamprecht, I., Thermoanalytical investigations on paper cover of social wasps, Thermochimica Acta, 361, 121-129, 2000. Singer, B. C., Hodgson, A. T., Gas-Phase Organic in Environmental Tobacco Smoke: 1. Effects of Smoking Rate, Ventilation, and Furnishing Level on Emission Factors. Environmental Science & Technology Vol.36, No.5, 2002. Singer, B. C., Hodgson, A. T., Nazaroff, W. W., Gas-Phase Organic in Environmental Tobacco Smoke: 2. Exposure-relevant emission factors and indirect exposures from habitual smoking. Atmospheric Environmental, 37, 5551-5561, 2003. Steenland, K., Passive smoking and risk of heart disease, Journal of American Medical Association 267: 94–99, 1992. USEPA, 1994. Setting the record straight: secondhand smoke is a preventable health risk. EPA Document Number 402-F-94-005. Witschi, H.; Joad, J. P.; Pinkerton, K. E., The toxicology of environment tobacco smoke. Annu. Rev. Pharmacol.Toxicol. 37: 29-52, 1997. Wells, A. J., Passive smoking as a cause of heart disease. Journal of the American College of Cardiology 24:546–54, 1994. Xie, J., Wang, X., Sheng, G., Bi, X., Fu, J., Determination of tobacco smoking influence on volatile organic compounds constituent by indoor tobacco smoking simulation experiment. Atmospheric Environment 37: 3365-3374, 2003. Zhishi Guo., John C.S Chang., Leslie E.Sparks., Roy C Fortmann., Estimation of the rate of VOC emission from solvent-based indoor coating materials based on product formulation. Atmospheric Environment 33: 1205-1215, 1999.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/35247	-
dc.description.abstract	許多的研究中已調查出香煙燃燒的產物會對健康造成影響。過去的煙害防治上，主要是以預防抽煙、減少吸入及社會團體禁煙宣導為主，而技術導向的控制方式並不那麼受到關注。故此研究最終目的在發展或改善市面上現有的空氣清靜設備以去除旁流煙。本研究利用旁流煙產生器，混合測試腔及採樣裝置構成系統去測得旁流煙的化學及物理特性。採樣裝置包括利用Q-TRAK偵測CO及CO2、利用PID偵測VOCs、使用濾紙收集微粒以求得質量濃度、並用type K的熱電偶測得香煙燃燒時的溫度。實驗結果顯示氣流流量減少，無論是CO，CO2，VOCs，particle的排放因子和排放速率以及香煙燃燒時產生的溫度都會減少，而且香煙燃燒會較為完全。另外，煙灰缸材質的導熱係數對於氣膠及氣體的產生扮演著重要的角色，故設計擺放香煙的煙灰缸的凹槽是非常關鍵的。香煙燃燒速率會隨著煙灰缸凹槽接觸面的增加而減少，直到沒有足夠的熱量而熄滅。	zh_TW
dc.description.abstract	Numerous studies have been conducted to investigate the health effect. Historically, smoking-control efforts have focused on smoking prevention and cessation through individual and group counseling efforts. Compared to the policy-oriented control, the technology-oriented control measures do not receive as much attention as it deserves. Therefore, the ultimate goal of this work was to develop or improve the currently commercially air cleaners designed for removing sidestream cigarette smokes. An experimental system, composed of a sidestream cigarette smoke generator, a mixing and test chamber, and a sampling train, was set up to investigate the chemical and physical characteristics of the sidestream cigarette smokes. Q-TRAK were used to monitor the concentrations of CO and CO2; PID was used to measure the concentration of VOCs. Filter samples were collected for estimating the mass concentration. We also measured the temperature of cigarette burning tip, by using a homemade thermocouple with type K. The results showed that emission factors and emission rates of CO, CO2, aerosol mass concentration, VOCs, the surface temperature of the smoldering cone all decreased, and cigarettes would burn completely with decreasing passing air flow. The thermal conductivity of the ashtray played an important role in both aerosol and gas emission. The design of the trench holding the cigarette was particularly critical. The cigarette smoldering rate decreased with increasing contact area, until the combustion ceased due to not enough heat generation.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T06:45:23Z (GMT). No. of bitstreams: 1 ntu-94-R92844015-1.pdf: 1200035 bytes, checksum: 6ccb0b1b2758dbd05353f32da63e1fdf (MD5) Previous issue date: 2005	en
dc.description.tableofcontents	目錄...............................................................1 表目錄.............................................................2 圖目錄.............................................................3 中文摘要...........................................................5 Abstract...........................................................6 一、研究背景與目的...............................................7 二、文獻探討.....................................................10 2-1煙害防治....................................................10 2-2旁流煙的危害................................................11 2-3燃燒特性....................................................12 2-4不同材質的導熱特性..........................................13 三、研究方法.....................................................14 3-1 香煙燃燒速率之量測.........................................14 3-2 香菸燃燒產物之量測.........................................14 3-3 控制不同溼度的香煙對燃燒特性的影響.........................15 3-4 控制不同溫溼度的氣流對香煙燃燒速率的影響...................15 3-5 無煙煙灰缸的研發...........................................15 四、結果與討論...................................................17 4-1 旁流煙的物化特性...........................................17 4-2 無動力無煙煙灰缸最佳化設計................................20 五、結論........................................................27 參考文獻..........................................................29 表目錄表一污染物質量平衡................................................32 表二自測熱傳導及工研院量測不同材質之比較..........................32 表三煙灰缸四種不同體積(改變直徑及高度)............................33 表四煙灰缸四種不同體積(改變直徑及高度)............................33 表五出氣口數目多寡的燃燒速率與idling燃燒速率的比較...............34 表六三種不同情況下，出氣孔大小的燃燒速率與自然情況燃燒速率的比較..34 表七主動式不同氣流的燃燒速率與自然情況燃燒速率的比較..............34
dc.language.iso	zh-TW
dc.subject	旁流煙	zh_TW
dc.subject	排放因子	zh_TW
dc.subject	導熱係數	zh_TW
dc.subject	sidestream cigarette smoke	en
dc.subject	thermal conductivity	en
dc.subject	emission factor	en
dc.title	無動力煙灰缸研發	zh_TW
dc.title	Development of a Power-Free Cigarette Ashtray	en
dc.type	Thesis
dc.date.schoolyear	93-2
dc.description.degree	碩士
dc.contributor.coadvisor	陳志傑
dc.contributor.oralexamcommittee	馬一中,鄭福田,林文印
dc.subject.keyword	旁流煙,排放因子,導熱係數,	zh_TW
dc.subject.keyword	sidestream cigarette smoke,emission factor,thermal conductivity,	en
dc.relation.page	83
dc.rights.note	有償授權
dc.date.accepted	2005-07-29
dc.contributor.author-college	公共衛生學院	zh_TW
dc.contributor.author-dept	環境衛生研究所	zh_TW
顯示於系所單位：	環境衛生研究所

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