云南卷烟一氧化碳释放量控制材料机理研究及开发
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摘要
在卷烟燃烧所产生的大量化合物中,一氧化碳是一种对人体存在负面影响,而含量又较大的物质,也一直是烟草科技工作者们希望解决的一个重点问题。但一氧化碳基础研究工作的缺失给化学手段降低一氧化碳带来了较大的难度,因此通过化学手段来降低卷烟烟气中的一氧化碳是一项困难的工作。
该研究紧紧围绕我省降低卷烟主流烟气中一氧化碳释放量的需求,具体根据我省产品实际情况——卷烟香气充足、一氧化碳和焦油递送量的差距较大(一般一氧化碳递送量高于焦油递送量2mg左右)等特点,从最新的减害降焦技术、卷烟纸添加剂和烟丝添加剂等方面入手,开发低一氧化碳卷烟的综合配套技术。
本研究遵循综合考虑的原则,运用多因素分析法、比例法、对比法等技术方法,在降焦、降一氧化碳(Co)和保持卷烟抽吸品质两方面寻求平衡点;论文选择了38种不同牌号的卷烟,系统研究了卷烟烟丝燃烧调节剂以及卷烟纸燃烧调节剂,同时为了考查其工业化可行性,对所筛选添加剂进行了中试放样和工业化验证等实验,实验结果表明所开发的烟丝和卷烟纸燃烧调节添加剂在满足工业化的前提下,能够显著降低卷烟一氧化碳递送量。
Carbon monoxide (CO), produced in a burning cigarette, is one of the main components of tobacco maimstream smoke, which have negative effect on human body. And this issue is always one of the key problems to tobacco scientists to reduce the yield from cigarette. However, it is every difficul to reduce CO with chemical technology because there was lack of fundamental research.
This dissertation focuses on the reduction of CO emissions in cigarette mainstream of Yunnan tobacco industry, Based on the characteristics of cigarette products of HTG, which means that the cigarette was aroma adequacy and has a high rate of CO to Tar (general, CO delivery is2mg/cig higher than that of Tar), new technologies, such as cigarette paper additives, tobacco additives and other aspects for reducing deliveries of Tar and other harmful components, have to be studied and their applications in tobacco industry should also be tested.
This study followed the comprehensive consideration of the principle, using factor analysis method, ratio method, comparative method and other techniques, drop in the tar, carbon monoxide (CO) and keep the quality of smoking the cigarette two seek balance point; the choice of38different brands of cigarettes,In order to reduce the delivery of CO in mainstream smoke, additives for shredded tobacco and cigarette paper, the burning regulator especially, were investigated systematicly. At the same time, in order to test the feasibility of industrialization, the additives were tested in pilot-plant and the experimental results showed that the tobacco and cigarette paper burning regulators meet the industry requirment and they can significantly reduce the delivry of CO of cigarettes.
该研究紧紧围绕我省降低卷烟主流烟气中一氧化碳释放量的需求,具体根据我省产品实际情况——卷烟香气充足、一氧化碳和焦油递送量的差距较大(一般一氧化碳递送量高于焦油递送量2mg左右)等特点,从最新的减害降焦技术、卷烟纸添加剂和烟丝添加剂等方面入手,开发低一氧化碳卷烟的综合配套技术。
本研究遵循综合考虑的原则,运用多因素分析法、比例法、对比法等技术方法,在降焦、降一氧化碳(Co)和保持卷烟抽吸品质两方面寻求平衡点;论文选择了38种不同牌号的卷烟,系统研究了卷烟烟丝燃烧调节剂以及卷烟纸燃烧调节剂,同时为了考查其工业化可行性,对所筛选添加剂进行了中试放样和工业化验证等实验,实验结果表明所开发的烟丝和卷烟纸燃烧调节添加剂在满足工业化的前提下,能够显著降低卷烟一氧化碳递送量。
Carbon monoxide (CO), produced in a burning cigarette, is one of the main components of tobacco maimstream smoke, which have negative effect on human body. And this issue is always one of the key problems to tobacco scientists to reduce the yield from cigarette. However, it is every difficul to reduce CO with chemical technology because there was lack of fundamental research.
This dissertation focuses on the reduction of CO emissions in cigarette mainstream of Yunnan tobacco industry, Based on the characteristics of cigarette products of HTG, which means that the cigarette was aroma adequacy and has a high rate of CO to Tar (general, CO delivery is2mg/cig higher than that of Tar), new technologies, such as cigarette paper additives, tobacco additives and other aspects for reducing deliveries of Tar and other harmful components, have to be studied and their applications in tobacco industry should also be tested.
This study followed the comprehensive consideration of the principle, using factor analysis method, ratio method, comparative method and other techniques, drop in the tar, carbon monoxide (CO) and keep the quality of smoking the cigarette two seek balance point; the choice of38different brands of cigarettes,In order to reduce the delivery of CO in mainstream smoke, additives for shredded tobacco and cigarette paper, the burning regulator especially, were investigated systematicly. At the same time, in order to test the feasibility of industrialization, the additives were tested in pilot-plant and the experimental results showed that the tobacco and cigarette paper burning regulators meet the industry requirment and they can significantly reduce the delivry of CO of cigarettes.
引文
[1]Brandy Fisher. Reducing Risk. Tobacco Reporter,2000,(June):56-61
[2]The Lancet Oncology[M].2001.4.
[3]张广周.浅谈开发低焦油卷烟的农业环节之措施[J].黑龙江烟草,2001,(7):6.
[4]采用热交换器烘烤烟叶可减少烟叶中有害成分[N].东方烟草报,1999-12-24(3).
[5]美烤烟新技术降低烟草毒害[J].亚洲烟草,1999,(7):68.
[6]英国Dikinson工程公司开发出新型在线式全配方膨胀和干燥系统[J].烟草信息.1999,(7):9-10.
[7]处理烟草的方法[J].烟业通讯,2000,(9):72.
[8]Lane Kerry Scott. Method and system for assay and removal of harmful toxins during processing of tobacco products[P]. US:6058940,2000-05-09.
[9]重大的宣布[J].烟业通讯.2001(1):58-59.
[10]Stavridis Ioannis Stavridis. Removal of noxious oxidants and carcinogenic volatile nitrosocompounds from cigarette smoke using biological substances[P]. US:5909736,1999-06-08.
[11]戴亚.血红蛋白的提取及降低卷烟烟气中N-亚硝胺含量的初步实验[J].烟草科技,2001,(1):19-21.
[12]南京生化研究所发现降低焦油新方法[EB/OL].http://www.tobaccochina oneline, 2001-07-11.
[13]宝鸡KJT生物滤棒、 生物特种卷烟纸研发取得重大突破[EB/OL].http://www.tobaccochina oneline,2001-07-18.
[14]Emami Imam. Cigarette filters containing free radical scavengers to reduce carcinogenicity[P]. France:2772561,1999-06-25.
[15]北京烟厂与中科院共同开展降低卷烟有害成分的研究[N].北京晚报,2002-05-24.
[16]李丛民,田卫群.类胡萝卜素清除焦油中自由基的研究[J].烟草科技,2000(8):22-23.
[17]郭灿城.烟草生物降焦剂[P].中国专利:99115651.X,2000-05-10.
[18]马林.利用生物技术改变烟叶化学组分提高其吸食品质和安全性的研究[J].郑州工程学院学报,2001,(3):40-42,45.
[19]梅州烟厂“五叶神”减害技术再获奖[N].深圳商报,2003-04-22.
[20]保健产品再“扩军”青州烟厂瞄准“绿色” 天津烟厂推出“江山”[N].东方烟草报,2000-11-24.
[21]柯亨林.降低卷烟烟气中多环芳烃和自由基的中药添加剂[J].华东理工大学学报,2002,(1):74-78.
[22]南昌大学.一种降低卷烟焦油中多环芳烃的添加剂及多环芳烃含量较低的卷烟[P].中国专利:98113546.3,1999-11-17.
[23]恽之瑜.沸石在去除卷烟烟气中亚硝胺的应用[J].应用化学,2000,(3):276-279.
[24]刘建福.低焦油、低自由基、富硒烤烟型卷烟的研制[J].中国烟草学报,2001,(3):11-14.
[25]崔文艳.一种新型复合滤棒添加剂的研究[q.卷烟降焦技术国际研讨会论文集,1999.199-202.
[26]王晓葵.不同脱乙酰度的壳聚糖对降低卷烟焦油和烟碱释放量的作用[J].郑州轻工业学院学报(自然科学版),2002,(2):104-107.
[27]贾鹏.低自由基低焦油卷烟的研制开发[J].北京烟草,1999,(4):20-21.
[28]李丛民.钼酸盐对卷烟燃烧氧化反应的催化作用[J].化学通报,2002,(3):201-204.
[29]胡有持,赵明月,李绍民,等.利用新型NaY分子筛降低卷烟烟气中的有害成分[C].中国烟草学会2002年学术年会论文集(上册),2002.140-148.
[30]兰州康达生化技术有限公司.选择性消除烟气中致癌物质的香烟嘴棒添加剂[P].中国专利:99117698.7,2001-02-28.
[31]中国科学院西北高原生物研究所.烟草降焦剂[P].中国专利:98104728.9,1999-07-28.
[32]中国科学院大连化学物理研究所.脱除香烟烟气中有害物质用的丙纶丝束[P].中国专利:99122539.2,2001-05-30.
[33]南京大学.降低卷烟烟雾中亚硝胺含量的添加剂及含该添加剂的卷烟[P].中国专利:99114106.7,1999-09-22.
[34]聂聪,吕功煊,刘建福,等.应用纳米催化材料降低卷烟烟气中CO研究[C].中国烟草学会2002年学术年会论文集(上册),2002.154-159.
[35]张悠金.纳米材料降低卷烟烟气粒相有害成分的研究[J].化学研究与应用,2001,(6):709-711.
[36]谢笑天.纳米吸附剂在卷烟降焦中的应用研究[J].云南化工,2002,(3):1-3.
[37]史超.保香、助燃、选择降焦的香烟及其生产方法[P].中国专利:99114535.6,2001-03-07.
[38]史超.改善了阴燃率和尼古丁、烟焦油滤除率的香烟及其生产方法[P].中国专利:98111583.7,1999-04-28.
[39]Brandy Fisher. Reducing risk[J]. Tobacco Reporter,2000,(June):56-61.
[40]较安全卷烟的进展[J].烟业通讯.2001,(12):22-25.
[41]Sung,Michael. Method and product for reducing tar and nicotine in cigarettes[P]. US: 6153119,2000-11-28.
[42]魏玉玲.降低烟草特有亚硝胺含量的微波处理方法综述[J].烟草科技,2002,(3):18-19.
[43]南京大学.降低卷烟烟雾中亚硝胺含量的微波处理方法[P].中国专利:00112252.5,2000-10-18.
[44]南京大学.一种其烟雾中低亚硝胺含量的卷烟及其制法[P].中国专利:98111479.2,1999-03-10.
[45]许昌帝豪集团沪新公司研制出目标降焦滤嘴棒[N].东方烟草报,2002-01-09.
[46]王军.烟用醋纤丝束对卷烟降焦影响的分析与研究[C].卷烟降焦技术国际研讨会论文集,1999.19-24.TA,2001.
[47]1990年Philip Morris, Seetharama C. Deevi, Midlothian; Mohammad R. Hajaligol etc,Catalytic Conversion Of Carbon Monoxide From Carbonaceous Heat Sources. US Pat:5240014.
[48]金属炭化物、金属氮化物和金属组成的热源物质.1991年Philip Morris, Seetharama C. Deevi; Sarojini Deevi etc, Composite Heat Source Comprising Metal Carbide, Metal Nitride And Metal. US Pat:5146934.
[49]碳热源.1988年Philip Morris, William S.Nystrom; Leo C.Lanzel, Carbon Heat Source. US Pat:5076296.
[50]产生金属炭化物的方法.1991年Philip Morris, Seetharama C. Deevi; Midlothian etc, Method For Producing Metal Carbide Heat Sources. US Pat:5247949.
[51]碳和金属组成的热源.1991年Philip Morris, Seetharama C. Deevi; Sarojini Deevi etc, Manufacturing Of Composite Heat Sources Containing Carbon And Metal Species. US Pat:5246018.
[52]金属氧化物、金属氮化物和碳组成的化学热源物质.1989年Philip Morris, Incorporated, Mohammad R. Hajaligol, Richmond etc, Chemical Heat Source Comprising Metal Nitride, Metal oxide And Carbon. US Pat.:5188130.
[53]金属氮化物、金属氧化物和碳组成的化学热源. Philip Morris Incorporated Chemical Heat Source Comprising Metal Nitride,Metal Oxide And Carbon. Seetharama C. Deevi; Midlothian etc, US Pat:5443560.
[54]低点火倾向的物质及方法.2001年James Rodney Hammersmith, Materials And Method Of Making Same For Low Ignition Propensity Products. US Pat:6645605 B2
[55]一种低点火特性燃烧物质的组成.2000年DYAKONOV, Alexander, J. Construction Of A Low Ignition Propensity Combustible Material. International Publication Number:WO O:/43513 A1.
[56]降低着火点特性烟气装置.1998年Gary W. Wallace, Macon, Ga. etc; Reduced Ignition Propensity Smokeing Articles. US Pat:6129087.
[57]降低着火点特性烟气装置.2003年Michael A. Zawadzki etc. Reduced Ignition Propensity Smokeing Articles. US Pat:6837248 B2.
[58]YAMAMOTOT, UMEMURAS, KANEKOH. Efect of exogenous potassium on the reduction in tar, nicotine and carbon monoxide deliveries in the mainstream smoke of cigarette[J]. Beitr Tabakfor Int,1990,14(6):379-385.
[59]戴亚,黄瑞,刘少民等.外加钾盐对卷烟焦油释放量的影响《烟草科技》,1998年,第1期,11-12页.
[60]王建民,闫克玉,姚光明等.卷烟燃烧性与助燃剂用量间的关系研究[J].烟草科技,2000(6):10-11.
[61]许萍,宁敏,杨承华,等.添加有机钾盐对卷烟焦油量等的影响[J].合肥工业大学学报(自然科学版),1999:22(3):88-93.
[62]彭斌,翁昔阳,卢秋生,等.碳酸钾对烟丝热分解的影响[C]//2004中国烟草学会烟草化学学组年会暨学术研讨会论文集.2004:110-114.
[63]汪波,屠兢,俞寿明,等.钾盐在烟草燃烧过程中的作用[J].中国科学技术大学学报,2002(4):433—439.
[64]Kazuyo Kaneki,Matsukura,Yoshiaki Ishizu. Role of alkali metals in reduction of carbon monoxide in mainstream smoke[C].International Tobacco Convention in 1990.
[65]Yamamoto T,Suga Y,Kaneki K, et al. Effect of chemical constituents on the formation rate of carbon monoxide in bright tobacco [J]. Beitra. Tabakforsch.Int.,1989,14(3):163-170.
[66]王华 何方《熔融盐循环热载体无烟燃烧技术基础》冶金工业出版社
[67]Ping Li, Donald E.Miser.Shahryar Rabiei,Ramkuber T.Yadav and Mohammad R.Hajaligol. The removal of carbon monoxide by iron oxide nanoparticles. Applied Catalysis B:Environmental 43(2) (2003)p151-162
[68]LaCeCuMn/-Fe2O3纳米稀土催化剂的制备及性能研究 李玉静 张鹏远 陈建峰 北京化工大学学报2005 Vol.32.No.27-30
[69]胡瑞生,付冬,王克冰,沈岳年LaCoO和LaFeO3的催化氧化性能比较研究 内蒙古大学学报(自然科学版)2001 Vol.32 p189-192.
[70]Paul IR. Catalytic cigarette smoke cleaning devise and process:US,5671758[P]. 1997-09-30.
[71]Li P, Firooz R, Mohammad H. Manganese oxide mixtures in nanoparticle form to lower the amount of carbon monoxide and/or nitric oxide in the mainstream smoke of a cigarette: US,6782892[P].2004-08-31.
[72]Mohammad H, Li P. Use of oxyhydroxide compounds for reducing carbon monoxide in the mainstream smoke of a cigarette:US,6769437[P].2004-08-03.
[73]Gregorio Marban, Antonio B.Fuertes Highly active and selective CuOx/Ceoa Catalyst prepared by a single-step citrate method for preferential oxidation of carbon monoxide Applied Catalysis B:Environmental 57(2005)43-53
[74]S.Gedevanishvili, S. PalDey and F. Rasouli Effect of manganese-based pigment catalyst on CO removal during biomass pyrolysis Journal of Analytical and Applied Pyrolysis 76 (1-2) P70-79.
[75]Rangaraj Sundar;Sarojini Deevi Philip Morris Prod(CH) WO2005122805.
[76]MCKINNEY P V. Reduction of palladium oxide by carbon monoxide [J]. Amer Chem Soci,1932,54:4498-4504.
[77]BADDOUR R F, MODELL M, Goldsmit}1 R L. Palladi-um-catalyzed. carbon monoxide oxidation. Catalyst "break, in" phenomenon [J]. J Physi Chem,1970,74(8):1787-1796.
[78]THORMAHLEN P, SKOGLUNDH M, FEIDELL E. Low-temperature CO oxidation over platinum and cobalt oxide catalysts[J]. J Catalysis,1999,188:300-310.
[79]SPFVEY J J. Complete catalytic oxidation of volatile organics[J]. Ind Eng Chem Res, 1987,26:2165-2180.
[80]RUTH K. HAYES M, BURCH R. The efects of SO2 on the oxidation of CO and propane on supposed Pt and Au catalysts[J]. Applied Catalysis B:Environmental,2000,24: 133.138.
[81]Seehofer F, Kausch E. Removal of nitric oxide and carbon monoxide from tobacco smoke:US,4182348. [P].1980-01-08.
[82]Robert WC, John JR. Oxidation catalysts and their production:UK, 2042364A[P].1980-01-10.
[83]Noel JA, Robert WC, Michael SE, etal. Supported catalysts and method for their production:US,4450245[P].1984-05-22.
[84]银董红,刘建福,黎成勇等.一种用于脱除卷烟主流烟气中氢氰酸的催化剂及其制备方法和应用:CN 1583257A[P].2005-02-23.
[85]银董红,刘建福,秦亮生等.选择性降低卷烟烟气中一氧化碳含量的催化剂研究[C]//中国烟草学会2004年学术年会论文集.2004:132-136.
[86]LI PING, HAJALIGOL, MOHAMMAD H, PHILIP MORRIS PROD(US) Oxidant/Catalyst Nanoparticles To Reduce Carbon Monoxide In The Mainstream Smoke Of A Cigarette WO03020058.
[87]Xiang Wang and Youchang Xie. The promotion effects of Ba on manganese oxide for CH4 deep oxidation. Catalysis Letters 2001,1-2(72):51-57.
[88]Ogawa Mayumi. Cigarette filter[P].JP Pat:2000210069,2000-08-02.
[89]Dale,Robert W,Rooney,etal.Smoking products[P]. US Pat.:4317460,1982-03-02.
[90]Galaher Ltd.Smoking products[P]. BE Pat.:873600,1979-07-19.
[91]Charalambous John, Haines Leslie Ian Bullin, Morgan J S. Tob. Smoke filter[P]. GB Pat.:2150806,1985-07-10.
[92]吕功煊,聂聪,赵明月等.应用含纳米贵金属催化材料降低卷烟烟气中CO的技术研究[J]。中国烟草学报,2003,9(3):18-27。
[93]贾广慧,马静.添加叶绿素的特殊卷烟滤嘴[J].烟草科技桥,1997(3):24.
[94]李东亮,王玉堂,樊杰.凹凸棒石吸附剂在卷烟滤嘴中的应用实验[J].烟草科技,2003(4):6-8.
[95]韩升熙.制备含黄土粘土矿物香烟的方法以及由其制得的香烟产品:中国,1383764[P].2002.12.11.
[96]郭立民,张谋真,刘勇.壳聚糖一活性炭复合吸附剂在烟草工业中的应用研究[J].化学工程师,2002,(1):17.18.
[97]赵志荣.保健过滤嘴:中国,2260464A[P].1997—08—-27.
[98]YAGIM. Tobacco smoke filter:US,4 414 988[P].1983—11—15.
[99]郭灿成,宋建新,江国防,等.烟草仿生催化降焦研究[C]//卷烟降焦技术国际研讨会论文集.1999:90-91.
[100]约安尼斯·斯塔夫里迪斯,乔治·德里康斯坦丁诺斯.利用生物物质从香烟烟气中除去有害的氧化剂和致癌的挥发性亚硝基化合物:中国,1133550A[P].1996-10-16.
[101]刘士军,金钟国,唐铁斌,等.生物滤棒的研制开发[C]//中国烟草学会2004年学术年会论文集.2004:899-90
[102]PREPARETION OF MIXED OXIDE CATALYSTS FROM NANOSCALE PARTICLES.WO 2005/039331 A2.
[103]TREATMENT OF SMOKE MAINSTRARM SMOKE CONSTITUENTS BY USE OF METAL OXIDES FROM NANOSCALE PARTICLE. WO 2005/025342 Al.
[104]USE OF OXYHYROXIDE COMPOUND FOR REDUCING CARBON MONOXIDE IN THE MAINSTRAM SMOKE OF A CIGARETTE. WO 03/086112 Al.
[105]沙菲,宋洪昌.纳米α-Fe203的制备方法及应用概况.江苏化工,2003,31(5):14-17.
[106]赵克辉,王承权,闫涛等.纳米Fe2O3的制备与气敏性质的研究.化工进展,2002,21(8):579-581.
[107]景苏,鲁新宇.室温固相法合成纳米Fe2OH及Fe=O3制备.南京工业大学学报,24(6):52-53.
[108]嘎日迪,宝迪,乌云等.均相沉淀法制备α-Fe2O3纳米晶的研究.内蒙古师范大学学报自然科学(汉文)版,2004,33(2):17-177.
[109]邱春喜,姜继森,赵振杰等.固相法法制备α-Fe2O3纳米粒子.无机材料学报,2001,16(5):957-960.
[110]姜国华, 姜继森.棒状γ-Fe2O3纳米粒子的制备.无机材料学报,2005,20(5),1066-1070.[23]姜国华,姜继森.γ-Fe2O3纳米粒子的(湿)固相研磨法制备研究.高等学校化学学报,2004,25(3),405-408.
[111]肖曙阳,施利毅.纳米氧化铁黄颜料的制备和表征.上海大学学报(自然科学版),2002,8(3):251-254.
[112]赵纯寅,宋红艳,龚汉卿等.超细透明氧化铁黄颜料的制法.涂料工业,1996,(4):26-27.
[113]张强,张彰.纳米氧化铁粉体分散技术研究进展.化学工业与工程发展,2004,25(5):41-44.
[114]姜继森,高濂,杨燮龙等.α-Fe2O3纳米微粒的制备及其MZssbauer谱研究.物理化学学报,2000,16(4):312-316.
[115]郭广生,张九龄,高晓云等.激光气相法制备Fe2O3超微粒子.无机材料学报,1993,8(3):377-381.
[116]贾振斌,魏雨,王洪敏.纳米相铁红的液相制备.无机材料学报,2000,15(5):926-928.
[117]许颖琦,朱苏康TiO2、ZnO纳米混合粉体的分散工艺研究.东华大学学报(自然科学版),2009,32(2):12-15.
[118]万德立,王勇,白清东.纳米粉体在水性介质中的分散及改性技术.国防建材科技,2005,26(1):25-28.
[119]Meng-Fei Luo,Jing-Meng Ma,Ji-Qing Lu et al."High-surface area CuO-CeO2catalysts prepared by a surfactant-templated method for low-temperature CO oxidedation".Journal of Catalysts 246(2009) 52-59.
[120]M. Hajime, et.al., JP 59/029036,1984
[121]S. Kenichiro, Y. Masaru, H. Ikuo et.al., US Patent 4845065,1989
[122]P.A. Tooley, J.H. Kolts, US Patent 4956330,1990
[123]D.J. Elliott, J.H. Kolts, US Patent 4940686,1990
[124]C.K. Banerjee, T.B. Nestor, J.S. Gentry, et.al., US Patent 5839449,1998
[125]吕功煊,聂聪,赵明月,等,中国烟草学报,2003,9(3):16-27
[126]B. Hammer, J.K. Norskov, Nature 376 (1995) 238.
[127]M. Haruta, N. Yamada, T. Kobayashi, S. Iijima, J. Catal.115 (1989) 301.
[128]M. Haruta, S. Tsubota, T. Kobayashi, H. Kageyama, M.J.Genet, B. Delmon, J. Catal. 144 (1993) 175.
[129]M. Haruta, M. Date, Appl. Catal. A:Gen.222 (2001) 427
[130]M. Valden, X. Lai, D.W. Goodman, Science 281 (1998) 1647.
[131]A.I. Kozlov, A.P. Kozlova, H. Liu, Y. Iwasawa, Appl. Catal.A:Gen.182 (1999) 9
[132]M.J. Kahlich, H.A. Gasteiger, R.J. Behm, J. Catal.182 (1999) 430.
[133]PC. Biswas, Y. Nodasaka, M. Enyo, M. Haruta, J. Electroanal. Chem.381 (1995) 167
[134]T. Hayashi, K. Tanaka, M. Haruta, J.Catal.178 (1998) 566
[135]E.E. Stangland, K.B. Stavens, R.P. Andres, W.N. Delgass, Stud. Surf. Sci. Catal.130 (2000) 827.
[136]D. Andreeva, V. Idakiev, T. Tabakova, A. Andreev, J. Catal.158 (1996) 354.
[137]M.M. Mohamed, T.M. Salama, M. Ichikawa, J. Colloid Interface Sci.224 (2000) 336.
[138]P. Claus, A. Bruckner, C. Mohr, H. Hofmeister, J. Am. Chem. Soc.122 (2000) 11430.
[139]F. Porta, L. Prati, M. Rossi, S. Coluccia, G. Martra, Catal. Today 61 (2000) 165.
[140]M. Haruta, B.S. Uphade, S. Tsubota, A. Miyamoto, Res. Chem. Intermed.24 (1998) 329.
[141]M. Okumura, S. Tsubota, M. Haruta, J. Mol. Catal. A:Chem.199 (2003) 73
[142]U. Heiz, W.D. Schneider, J. Phys. D:Appl. Phys.33 (2000) R85.
[143]N.M. Gupta, A.K. Tripathi, J. Catal.187 (1999) 342.
[144]C. Qi, T. Akita, M. Okumura, K. Kuraoka, M. Haruta, Appl. Catal. A.253 (2003) 75
[145]Q. Fu, S. Kudriavtseva, H. Saltsburg, M. Flytzani-Stephanopoulos, Chem. Engineering J.93 (2003) 41
[146]P. Fornasiero, R. DiMonte, G.R. Rao, J. Kaspar, S. Meriani, A. Tro-varelli, M. Graziani, J. Catal.151 (1995) 168.
[147]F. Boccuzzi, A. Chiorino, M. Manzoli, P. Lu, T. Akita, S. Ichikawa, M. Haruta, J. Catal. 202(2001)256
[148]Orito Y., Imai S. and Niwa S., J.Chem. Soc. Jpn., (1979) 1118; (1980) 670; (1982) 137
[149]任军林;李小斌;杜红梅;雷仲夏.壳聚糖在卷烟滤嘴中的应用《烟草科技》2005.5.P32-33
[150]王进;杨占平;曹建华;堵国成;陈坚.壳聚糖改性醋纤滤嘴对烟碱和焦油的吸附效果《无锡轻工大学学报》2004.23(5)P34-37
[151]王晓葵;夏文水.壳聚糖对卷烟烟气中低相对分子质量醛类物质的特殊作用 《无锡轻工大学学报》2002.21(4).P397-399.
[152]郭立民;张谋真;刘勇壳聚糖-活性炭复合吸附剂在烟草工业中的应用研究《化学工程师》2002.1.P17-18.
[153]陈坚等.用于卷烟过滤嘴的吸附添加剂壳聚糖-Cu配合物及其制备CN1596783.
[154]刘志华等.含有天然植物吸附材料的复合滤嘴产品、制备方法及应用CN1864567
[155]胡群等.卷烟辅料研究.云南科技出版社[M].2001,153-265.
[156]许宗保.通风技术对卷烟内在质量的影响[J].芜湖职业技术学院学报.2004,6(2):90-93.
[157]于川芳,罗登山,王芳,等.卷烟”三纸一棒”对烟气特征及感官质量的影响(一)[J].中国烟草学报.2001,7(2):1-7.
[158]于川芳,罗登山,王芳,等.卷烟”三纸一棒”对烟气特征及感官质量的影响(二)[J].中国烟草学报.2001,7(3):6-10.
[159]冯群芝.滤嘴通风稀释技术的降焦效果实验分析[J].烟草科技2000,(7):10-11.
[160]胡群等.卷烟辅料研究.云南科技出版社,2001,106-110
[161]许宗保.通风技术对卷烟内在质量的影响.芜湖职业技术学院学报,20046(2):90-93
[162]戴亚;周学政;殷允然.低透气度盘纸对焦油等烟气成分的影响.重庆烟草,2000(5):37-38,31
[163]胡群,顾波,马静等.卷烟纸自然透气度对卷烟物理性能及烟气量的影响.烟草科技,2002(8):7-10.
[2]The Lancet Oncology[M].2001.4.
[3]张广周.浅谈开发低焦油卷烟的农业环节之措施[J].黑龙江烟草,2001,(7):6.
[4]采用热交换器烘烤烟叶可减少烟叶中有害成分[N].东方烟草报,1999-12-24(3).
[5]美烤烟新技术降低烟草毒害[J].亚洲烟草,1999,(7):68.
[6]英国Dikinson工程公司开发出新型在线式全配方膨胀和干燥系统[J].烟草信息.1999,(7):9-10.
[7]处理烟草的方法[J].烟业通讯,2000,(9):72.
[8]Lane Kerry Scott. Method and system for assay and removal of harmful toxins during processing of tobacco products[P]. US:6058940,2000-05-09.
[9]重大的宣布[J].烟业通讯.2001(1):58-59.
[10]Stavridis Ioannis Stavridis. Removal of noxious oxidants and carcinogenic volatile nitrosocompounds from cigarette smoke using biological substances[P]. US:5909736,1999-06-08.
[11]戴亚.血红蛋白的提取及降低卷烟烟气中N-亚硝胺含量的初步实验[J].烟草科技,2001,(1):19-21.
[12]南京生化研究所发现降低焦油新方法[EB/OL].http://www.tobaccochina oneline, 2001-07-11.
[13]宝鸡KJT生物滤棒、 生物特种卷烟纸研发取得重大突破[EB/OL].http://www.tobaccochina oneline,2001-07-18.
[14]Emami Imam. Cigarette filters containing free radical scavengers to reduce carcinogenicity[P]. France:2772561,1999-06-25.
[15]北京烟厂与中科院共同开展降低卷烟有害成分的研究[N].北京晚报,2002-05-24.
[16]李丛民,田卫群.类胡萝卜素清除焦油中自由基的研究[J].烟草科技,2000(8):22-23.
[17]郭灿城.烟草生物降焦剂[P].中国专利:99115651.X,2000-05-10.
[18]马林.利用生物技术改变烟叶化学组分提高其吸食品质和安全性的研究[J].郑州工程学院学报,2001,(3):40-42,45.
[19]梅州烟厂“五叶神”减害技术再获奖[N].深圳商报,2003-04-22.
[20]保健产品再“扩军”青州烟厂瞄准“绿色” 天津烟厂推出“江山”[N].东方烟草报,2000-11-24.
[21]柯亨林.降低卷烟烟气中多环芳烃和自由基的中药添加剂[J].华东理工大学学报,2002,(1):74-78.
[22]南昌大学.一种降低卷烟焦油中多环芳烃的添加剂及多环芳烃含量较低的卷烟[P].中国专利:98113546.3,1999-11-17.
[23]恽之瑜.沸石在去除卷烟烟气中亚硝胺的应用[J].应用化学,2000,(3):276-279.
[24]刘建福.低焦油、低自由基、富硒烤烟型卷烟的研制[J].中国烟草学报,2001,(3):11-14.
[25]崔文艳.一种新型复合滤棒添加剂的研究[q.卷烟降焦技术国际研讨会论文集,1999.199-202.
[26]王晓葵.不同脱乙酰度的壳聚糖对降低卷烟焦油和烟碱释放量的作用[J].郑州轻工业学院学报(自然科学版),2002,(2):104-107.
[27]贾鹏.低自由基低焦油卷烟的研制开发[J].北京烟草,1999,(4):20-21.
[28]李丛民.钼酸盐对卷烟燃烧氧化反应的催化作用[J].化学通报,2002,(3):201-204.
[29]胡有持,赵明月,李绍民,等.利用新型NaY分子筛降低卷烟烟气中的有害成分[C].中国烟草学会2002年学术年会论文集(上册),2002.140-148.
[30]兰州康达生化技术有限公司.选择性消除烟气中致癌物质的香烟嘴棒添加剂[P].中国专利:99117698.7,2001-02-28.
[31]中国科学院西北高原生物研究所.烟草降焦剂[P].中国专利:98104728.9,1999-07-28.
[32]中国科学院大连化学物理研究所.脱除香烟烟气中有害物质用的丙纶丝束[P].中国专利:99122539.2,2001-05-30.
[33]南京大学.降低卷烟烟雾中亚硝胺含量的添加剂及含该添加剂的卷烟[P].中国专利:99114106.7,1999-09-22.
[34]聂聪,吕功煊,刘建福,等.应用纳米催化材料降低卷烟烟气中CO研究[C].中国烟草学会2002年学术年会论文集(上册),2002.154-159.
[35]张悠金.纳米材料降低卷烟烟气粒相有害成分的研究[J].化学研究与应用,2001,(6):709-711.
[36]谢笑天.纳米吸附剂在卷烟降焦中的应用研究[J].云南化工,2002,(3):1-3.
[37]史超.保香、助燃、选择降焦的香烟及其生产方法[P].中国专利:99114535.6,2001-03-07.
[38]史超.改善了阴燃率和尼古丁、烟焦油滤除率的香烟及其生产方法[P].中国专利:98111583.7,1999-04-28.
[39]Brandy Fisher. Reducing risk[J]. Tobacco Reporter,2000,(June):56-61.
[40]较安全卷烟的进展[J].烟业通讯.2001,(12):22-25.
[41]Sung,Michael. Method and product for reducing tar and nicotine in cigarettes[P]. US: 6153119,2000-11-28.
[42]魏玉玲.降低烟草特有亚硝胺含量的微波处理方法综述[J].烟草科技,2002,(3):18-19.
[43]南京大学.降低卷烟烟雾中亚硝胺含量的微波处理方法[P].中国专利:00112252.5,2000-10-18.
[44]南京大学.一种其烟雾中低亚硝胺含量的卷烟及其制法[P].中国专利:98111479.2,1999-03-10.
[45]许昌帝豪集团沪新公司研制出目标降焦滤嘴棒[N].东方烟草报,2002-01-09.
[46]王军.烟用醋纤丝束对卷烟降焦影响的分析与研究[C].卷烟降焦技术国际研讨会论文集,1999.19-24.TA,2001.
[47]1990年Philip Morris, Seetharama C. Deevi, Midlothian; Mohammad R. Hajaligol etc,Catalytic Conversion Of Carbon Monoxide From Carbonaceous Heat Sources. US Pat:5240014.
[48]金属炭化物、金属氮化物和金属组成的热源物质.1991年Philip Morris, Seetharama C. Deevi; Sarojini Deevi etc, Composite Heat Source Comprising Metal Carbide, Metal Nitride And Metal. US Pat:5146934.
[49]碳热源.1988年Philip Morris, William S.Nystrom; Leo C.Lanzel, Carbon Heat Source. US Pat:5076296.
[50]产生金属炭化物的方法.1991年Philip Morris, Seetharama C. Deevi; Midlothian etc, Method For Producing Metal Carbide Heat Sources. US Pat:5247949.
[51]碳和金属组成的热源.1991年Philip Morris, Seetharama C. Deevi; Sarojini Deevi etc, Manufacturing Of Composite Heat Sources Containing Carbon And Metal Species. US Pat:5246018.
[52]金属氧化物、金属氮化物和碳组成的化学热源物质.1989年Philip Morris, Incorporated, Mohammad R. Hajaligol, Richmond etc, Chemical Heat Source Comprising Metal Nitride, Metal oxide And Carbon. US Pat.:5188130.
[53]金属氮化物、金属氧化物和碳组成的化学热源. Philip Morris Incorporated Chemical Heat Source Comprising Metal Nitride,Metal Oxide And Carbon. Seetharama C. Deevi; Midlothian etc, US Pat:5443560.
[54]低点火倾向的物质及方法.2001年James Rodney Hammersmith, Materials And Method Of Making Same For Low Ignition Propensity Products. US Pat:6645605 B2
[55]一种低点火特性燃烧物质的组成.2000年DYAKONOV, Alexander, J. Construction Of A Low Ignition Propensity Combustible Material. International Publication Number:WO O:/43513 A1.
[56]降低着火点特性烟气装置.1998年Gary W. Wallace, Macon, Ga. etc; Reduced Ignition Propensity Smokeing Articles. US Pat:6129087.
[57]降低着火点特性烟气装置.2003年Michael A. Zawadzki etc. Reduced Ignition Propensity Smokeing Articles. US Pat:6837248 B2.
[58]YAMAMOTOT, UMEMURAS, KANEKOH. Efect of exogenous potassium on the reduction in tar, nicotine and carbon monoxide deliveries in the mainstream smoke of cigarette[J]. Beitr Tabakfor Int,1990,14(6):379-385.
[59]戴亚,黄瑞,刘少民等.外加钾盐对卷烟焦油释放量的影响《烟草科技》,1998年,第1期,11-12页.
[60]王建民,闫克玉,姚光明等.卷烟燃烧性与助燃剂用量间的关系研究[J].烟草科技,2000(6):10-11.
[61]许萍,宁敏,杨承华,等.添加有机钾盐对卷烟焦油量等的影响[J].合肥工业大学学报(自然科学版),1999:22(3):88-93.
[62]彭斌,翁昔阳,卢秋生,等.碳酸钾对烟丝热分解的影响[C]//2004中国烟草学会烟草化学学组年会暨学术研讨会论文集.2004:110-114.
[63]汪波,屠兢,俞寿明,等.钾盐在烟草燃烧过程中的作用[J].中国科学技术大学学报,2002(4):433—439.
[64]Kazuyo Kaneki,Matsukura,Yoshiaki Ishizu. Role of alkali metals in reduction of carbon monoxide in mainstream smoke[C].International Tobacco Convention in 1990.
[65]Yamamoto T,Suga Y,Kaneki K, et al. Effect of chemical constituents on the formation rate of carbon monoxide in bright tobacco [J]. Beitra. Tabakforsch.Int.,1989,14(3):163-170.
[66]王华 何方《熔融盐循环热载体无烟燃烧技术基础》冶金工业出版社
[67]Ping Li, Donald E.Miser.Shahryar Rabiei,Ramkuber T.Yadav and Mohammad R.Hajaligol. The removal of carbon monoxide by iron oxide nanoparticles. Applied Catalysis B:Environmental 43(2) (2003)p151-162
[68]LaCeCuMn/-Fe2O3纳米稀土催化剂的制备及性能研究 李玉静 张鹏远 陈建峰 北京化工大学学报2005 Vol.32.No.27-30
[69]胡瑞生,付冬,王克冰,沈岳年LaCoO和LaFeO3的催化氧化性能比较研究 内蒙古大学学报(自然科学版)2001 Vol.32 p189-192.
[70]Paul IR. Catalytic cigarette smoke cleaning devise and process:US,5671758[P]. 1997-09-30.
[71]Li P, Firooz R, Mohammad H. Manganese oxide mixtures in nanoparticle form to lower the amount of carbon monoxide and/or nitric oxide in the mainstream smoke of a cigarette: US,6782892[P].2004-08-31.
[72]Mohammad H, Li P. Use of oxyhydroxide compounds for reducing carbon monoxide in the mainstream smoke of a cigarette:US,6769437[P].2004-08-03.
[73]Gregorio Marban, Antonio B.Fuertes Highly active and selective CuOx/Ceoa Catalyst prepared by a single-step citrate method for preferential oxidation of carbon monoxide Applied Catalysis B:Environmental 57(2005)43-53
[74]S.Gedevanishvili, S. PalDey and F. Rasouli Effect of manganese-based pigment catalyst on CO removal during biomass pyrolysis Journal of Analytical and Applied Pyrolysis 76 (1-2) P70-79.
[75]Rangaraj Sundar;Sarojini Deevi Philip Morris Prod(CH) WO2005122805.
[76]MCKINNEY P V. Reduction of palladium oxide by carbon monoxide [J]. Amer Chem Soci,1932,54:4498-4504.
[77]BADDOUR R F, MODELL M, Goldsmit}1 R L. Palladi-um-catalyzed. carbon monoxide oxidation. Catalyst "break, in" phenomenon [J]. J Physi Chem,1970,74(8):1787-1796.
[78]THORMAHLEN P, SKOGLUNDH M, FEIDELL E. Low-temperature CO oxidation over platinum and cobalt oxide catalysts[J]. J Catalysis,1999,188:300-310.
[79]SPFVEY J J. Complete catalytic oxidation of volatile organics[J]. Ind Eng Chem Res, 1987,26:2165-2180.
[80]RUTH K. HAYES M, BURCH R. The efects of SO2 on the oxidation of CO and propane on supposed Pt and Au catalysts[J]. Applied Catalysis B:Environmental,2000,24: 133.138.
[81]Seehofer F, Kausch E. Removal of nitric oxide and carbon monoxide from tobacco smoke:US,4182348. [P].1980-01-08.
[82]Robert WC, John JR. Oxidation catalysts and their production:UK, 2042364A[P].1980-01-10.
[83]Noel JA, Robert WC, Michael SE, etal. Supported catalysts and method for their production:US,4450245[P].1984-05-22.
[84]银董红,刘建福,黎成勇等.一种用于脱除卷烟主流烟气中氢氰酸的催化剂及其制备方法和应用:CN 1583257A[P].2005-02-23.
[85]银董红,刘建福,秦亮生等.选择性降低卷烟烟气中一氧化碳含量的催化剂研究[C]//中国烟草学会2004年学术年会论文集.2004:132-136.
[86]LI PING, HAJALIGOL, MOHAMMAD H, PHILIP MORRIS PROD(US) Oxidant/Catalyst Nanoparticles To Reduce Carbon Monoxide In The Mainstream Smoke Of A Cigarette WO03020058.
[87]Xiang Wang and Youchang Xie. The promotion effects of Ba on manganese oxide for CH4 deep oxidation. Catalysis Letters 2001,1-2(72):51-57.
[88]Ogawa Mayumi. Cigarette filter[P].JP Pat:2000210069,2000-08-02.
[89]Dale,Robert W,Rooney,etal.Smoking products[P]. US Pat.:4317460,1982-03-02.
[90]Galaher Ltd.Smoking products[P]. BE Pat.:873600,1979-07-19.
[91]Charalambous John, Haines Leslie Ian Bullin, Morgan J S. Tob. Smoke filter[P]. GB Pat.:2150806,1985-07-10.
[92]吕功煊,聂聪,赵明月等.应用含纳米贵金属催化材料降低卷烟烟气中CO的技术研究[J]。中国烟草学报,2003,9(3):18-27。
[93]贾广慧,马静.添加叶绿素的特殊卷烟滤嘴[J].烟草科技桥,1997(3):24.
[94]李东亮,王玉堂,樊杰.凹凸棒石吸附剂在卷烟滤嘴中的应用实验[J].烟草科技,2003(4):6-8.
[95]韩升熙.制备含黄土粘土矿物香烟的方法以及由其制得的香烟产品:中国,1383764[P].2002.12.11.
[96]郭立民,张谋真,刘勇.壳聚糖一活性炭复合吸附剂在烟草工业中的应用研究[J].化学工程师,2002,(1):17.18.
[97]赵志荣.保健过滤嘴:中国,2260464A[P].1997—08—-27.
[98]YAGIM. Tobacco smoke filter:US,4 414 988[P].1983—11—15.
[99]郭灿成,宋建新,江国防,等.烟草仿生催化降焦研究[C]//卷烟降焦技术国际研讨会论文集.1999:90-91.
[100]约安尼斯·斯塔夫里迪斯,乔治·德里康斯坦丁诺斯.利用生物物质从香烟烟气中除去有害的氧化剂和致癌的挥发性亚硝基化合物:中国,1133550A[P].1996-10-16.
[101]刘士军,金钟国,唐铁斌,等.生物滤棒的研制开发[C]//中国烟草学会2004年学术年会论文集.2004:899-90
[102]PREPARETION OF MIXED OXIDE CATALYSTS FROM NANOSCALE PARTICLES.WO 2005/039331 A2.
[103]TREATMENT OF SMOKE MAINSTRARM SMOKE CONSTITUENTS BY USE OF METAL OXIDES FROM NANOSCALE PARTICLE. WO 2005/025342 Al.
[104]USE OF OXYHYROXIDE COMPOUND FOR REDUCING CARBON MONOXIDE IN THE MAINSTRAM SMOKE OF A CIGARETTE. WO 03/086112 Al.
[105]沙菲,宋洪昌.纳米α-Fe203的制备方法及应用概况.江苏化工,2003,31(5):14-17.
[106]赵克辉,王承权,闫涛等.纳米Fe2O3的制备与气敏性质的研究.化工进展,2002,21(8):579-581.
[107]景苏,鲁新宇.室温固相法合成纳米Fe2OH及Fe=O3制备.南京工业大学学报,24(6):52-53.
[108]嘎日迪,宝迪,乌云等.均相沉淀法制备α-Fe2O3纳米晶的研究.内蒙古师范大学学报自然科学(汉文)版,2004,33(2):17-177.
[109]邱春喜,姜继森,赵振杰等.固相法法制备α-Fe2O3纳米粒子.无机材料学报,2001,16(5):957-960.
[110]姜国华, 姜继森.棒状γ-Fe2O3纳米粒子的制备.无机材料学报,2005,20(5),1066-1070.[23]姜国华,姜继森.γ-Fe2O3纳米粒子的(湿)固相研磨法制备研究.高等学校化学学报,2004,25(3),405-408.
[111]肖曙阳,施利毅.纳米氧化铁黄颜料的制备和表征.上海大学学报(自然科学版),2002,8(3):251-254.
[112]赵纯寅,宋红艳,龚汉卿等.超细透明氧化铁黄颜料的制法.涂料工业,1996,(4):26-27.
[113]张强,张彰.纳米氧化铁粉体分散技术研究进展.化学工业与工程发展,2004,25(5):41-44.
[114]姜继森,高濂,杨燮龙等.α-Fe2O3纳米微粒的制备及其MZssbauer谱研究.物理化学学报,2000,16(4):312-316.
[115]郭广生,张九龄,高晓云等.激光气相法制备Fe2O3超微粒子.无机材料学报,1993,8(3):377-381.
[116]贾振斌,魏雨,王洪敏.纳米相铁红的液相制备.无机材料学报,2000,15(5):926-928.
[117]许颖琦,朱苏康TiO2、ZnO纳米混合粉体的分散工艺研究.东华大学学报(自然科学版),2009,32(2):12-15.
[118]万德立,王勇,白清东.纳米粉体在水性介质中的分散及改性技术.国防建材科技,2005,26(1):25-28.
[119]Meng-Fei Luo,Jing-Meng Ma,Ji-Qing Lu et al."High-surface area CuO-CeO2catalysts prepared by a surfactant-templated method for low-temperature CO oxidedation".Journal of Catalysts 246(2009) 52-59.
[120]M. Hajime, et.al., JP 59/029036,1984
[121]S. Kenichiro, Y. Masaru, H. Ikuo et.al., US Patent 4845065,1989
[122]P.A. Tooley, J.H. Kolts, US Patent 4956330,1990
[123]D.J. Elliott, J.H. Kolts, US Patent 4940686,1990
[124]C.K. Banerjee, T.B. Nestor, J.S. Gentry, et.al., US Patent 5839449,1998
[125]吕功煊,聂聪,赵明月,等,中国烟草学报,2003,9(3):16-27
[126]B. Hammer, J.K. Norskov, Nature 376 (1995) 238.
[127]M. Haruta, N. Yamada, T. Kobayashi, S. Iijima, J. Catal.115 (1989) 301.
[128]M. Haruta, S. Tsubota, T. Kobayashi, H. Kageyama, M.J.Genet, B. Delmon, J. Catal. 144 (1993) 175.
[129]M. Haruta, M. Date, Appl. Catal. A:Gen.222 (2001) 427
[130]M. Valden, X. Lai, D.W. Goodman, Science 281 (1998) 1647.
[131]A.I. Kozlov, A.P. Kozlova, H. Liu, Y. Iwasawa, Appl. Catal.A:Gen.182 (1999) 9
[132]M.J. Kahlich, H.A. Gasteiger, R.J. Behm, J. Catal.182 (1999) 430.
[133]PC. Biswas, Y. Nodasaka, M. Enyo, M. Haruta, J. Electroanal. Chem.381 (1995) 167
[134]T. Hayashi, K. Tanaka, M. Haruta, J.Catal.178 (1998) 566
[135]E.E. Stangland, K.B. Stavens, R.P. Andres, W.N. Delgass, Stud. Surf. Sci. Catal.130 (2000) 827.
[136]D. Andreeva, V. Idakiev, T. Tabakova, A. Andreev, J. Catal.158 (1996) 354.
[137]M.M. Mohamed, T.M. Salama, M. Ichikawa, J. Colloid Interface Sci.224 (2000) 336.
[138]P. Claus, A. Bruckner, C. Mohr, H. Hofmeister, J. Am. Chem. Soc.122 (2000) 11430.
[139]F. Porta, L. Prati, M. Rossi, S. Coluccia, G. Martra, Catal. Today 61 (2000) 165.
[140]M. Haruta, B.S. Uphade, S. Tsubota, A. Miyamoto, Res. Chem. Intermed.24 (1998) 329.
[141]M. Okumura, S. Tsubota, M. Haruta, J. Mol. Catal. A:Chem.199 (2003) 73
[142]U. Heiz, W.D. Schneider, J. Phys. D:Appl. Phys.33 (2000) R85.
[143]N.M. Gupta, A.K. Tripathi, J. Catal.187 (1999) 342.
[144]C. Qi, T. Akita, M. Okumura, K. Kuraoka, M. Haruta, Appl. Catal. A.253 (2003) 75
[145]Q. Fu, S. Kudriavtseva, H. Saltsburg, M. Flytzani-Stephanopoulos, Chem. Engineering J.93 (2003) 41
[146]P. Fornasiero, R. DiMonte, G.R. Rao, J. Kaspar, S. Meriani, A. Tro-varelli, M. Graziani, J. Catal.151 (1995) 168.
[147]F. Boccuzzi, A. Chiorino, M. Manzoli, P. Lu, T. Akita, S. Ichikawa, M. Haruta, J. Catal. 202(2001)256
[148]Orito Y., Imai S. and Niwa S., J.Chem. Soc. Jpn., (1979) 1118; (1980) 670; (1982) 137
[149]任军林;李小斌;杜红梅;雷仲夏.壳聚糖在卷烟滤嘴中的应用《烟草科技》2005.5.P32-33
[150]王进;杨占平;曹建华;堵国成;陈坚.壳聚糖改性醋纤滤嘴对烟碱和焦油的吸附效果《无锡轻工大学学报》2004.23(5)P34-37
[151]王晓葵;夏文水.壳聚糖对卷烟烟气中低相对分子质量醛类物质的特殊作用 《无锡轻工大学学报》2002.21(4).P397-399.
[152]郭立民;张谋真;刘勇壳聚糖-活性炭复合吸附剂在烟草工业中的应用研究《化学工程师》2002.1.P17-18.
[153]陈坚等.用于卷烟过滤嘴的吸附添加剂壳聚糖-Cu配合物及其制备CN1596783.
[154]刘志华等.含有天然植物吸附材料的复合滤嘴产品、制备方法及应用CN1864567
[155]胡群等.卷烟辅料研究.云南科技出版社[M].2001,153-265.
[156]许宗保.通风技术对卷烟内在质量的影响[J].芜湖职业技术学院学报.2004,6(2):90-93.
[157]于川芳,罗登山,王芳,等.卷烟”三纸一棒”对烟气特征及感官质量的影响(一)[J].中国烟草学报.2001,7(2):1-7.
[158]于川芳,罗登山,王芳,等.卷烟”三纸一棒”对烟气特征及感官质量的影响(二)[J].中国烟草学报.2001,7(3):6-10.
[159]冯群芝.滤嘴通风稀释技术的降焦效果实验分析[J].烟草科技2000,(7):10-11.
[160]胡群等.卷烟辅料研究.云南科技出版社,2001,106-110
[161]许宗保.通风技术对卷烟内在质量的影响.芜湖职业技术学院学报,20046(2):90-93
[162]戴亚;周学政;殷允然.低透气度盘纸对焦油等烟气成分的影响.重庆烟草,2000(5):37-38,31
[163]胡群,顾波,马静等.卷烟纸自然透气度对卷烟物理性能及烟气量的影响.烟草科技,2002(8):7-10.