[1]黄世杰,杨泽恩,吕阳波,等. 中支卷烟丝束加香酯类和醇类单体香料的逐口转移行为[J]. 烟草科技,2023,56 (8):63‑73.
HUANG S J,YANG Z E,LÜ Y B,et al. Puff‑by‑puff transfer of ester and alcoholic monomer flavors from tow of
demi‑slim cigarettes[J]. Tobacco Science & Technology,2023,56(8):63‑73.
[2]李强,张果,李俊,等. 不同形态梗丝的热解燃烧特性及动力学参数差异分析[J]. 轻工学报,2022,37(3):94‑100.
LI Q,ZHANG G,LI J,et al. Study on the pyrolysis/combustion characteristics and reaction kinetics parameters of cut stems with different morphology[J].Journal of Light Industry,2022,37(3):94‑100.
[3] 吴若昕,张春涛,李登科,等. 加速溶剂萃取-气相色谱- 串联质谱法测定烟丝中5种羧酸苯乙酯的含量及对烟丝加香的均匀性评价[J]. 理化检验(化学分册),2020,56(1):7‑13
WU R X,ZHANG C T,LI D K,et al. Determination of 5 phenyl ethyl carboxylates in cut tobacco by GC‑MS/MS with accelerated solvent extraction and evaluation on uniformity evalution of the aromatizing process[J].Physical Testing and Chemical Analysis(Part B:Chemical Analysis),2020,56(1):7‑13.
[4] 易灵,彭群,叶之壮,等. 微胶囊粒径对甜橙油中D-柠檬烯释放特性的影响[J]. 食品与发酵工业,2020,46(21):90‑97.
YI L,PENG Q,YE Z Z ,et al. Effect of microcapsule size on the release characteristics of D‑limonene from sweet
orange oil[J]. Food and Fermentation Industries,2020,46 (21):90‑97.
[5] 陈凤明,张峰,高飞,等. 热脱附-冷阱系统-气相色谱- 质谱法同时测定卷烟烟丝中7种生物碱和9种香精成分[J]. 分析化学,2021,49(1):128‑136.
CHEN F M,ZHANG F,GAO F,et al. Thermal desorption‑cooled injection system‑gas chromatography‑mass
spectrometry for simultaneous determination of seven kinds of alkaloids and nine kinds of flavor compounds in cigarette[J]. Chinese Journal of Analytical Chemistry,2021,49(1):128‑136.
[6] 蒋薇,司晓喜,张凤梅,等. 酸类香料在不同加香方式制备卷烟中的感官贡献度研究[J]. 轻工学报,2022,37(1):95‑102,117.
JIANG W,SI X X,ZHANG F M,et al. Study on sensory contribution of acid flavoring in cigarette preparation by
different flavoring methods[J]. Journal of Light Industry,2022,37(1):95‑102,117.
[7] 姚力文,蒋薇,朱瑞芝,等. 滤棒特性对18种爆珠香味成分转移行为的影响[J]. 烟草科技,2023,56(3):51‑60.
YAO L W,JIANG W,ZHU R Z,et al. Influences of filter rod characteristics on transfer of 18 aroma components in
breakable capsule[J]. Tobacco Science & Technology,2023,56(3):51‑60.
[8] 吴秉宇,俞森文,费婷,等. 不同加香方式下细支卷烟中烟用香精转移行为研究[J]. 轻工学报,2022,37(5):91‑97.
WU B Y,YU S W,FEI T,et al. Study on the transfer behavior of tobacco flavor in slim cigarettes with different
flavoring methods[J]. Journal of Light Industry,2022,37 (5):91‑97.
[9] 刘雯,余玉梅,王道铨,等. 基于滤嘴抽吸温度的载香凝胶滤棒开发与应用[J]. 烟草科技,2022,55(6):71‑79.
LIU W,YU Y M,WANG D Q,et al. Development and application of flavoring gel filter rod based on filter temperature during puffing [J]. Tobacco Science & Technology,2022,55(6):71‑79.
[10] 王猛,杨乾栩,杨莹,等. 复合香料植物颗粒的制备及在卷烟中的应用[J]. 精细化工,2016,33(3):326‑332.
WANG M,YANG Q X,YANG Y,et al. Preparation of composite aromatic plants granules and its application in cigarette[J]. Fine Chemicals,2016,33(3):326‑332.
[11] 张云龙,孙军,张鹏飞,等. 植物颗粒在纸质滤棒中的应用[J]. 纸和造纸,2019,38(4):37‑42.
ZHANG Y L,SUN J,ZHANG P F,et al. Application of plant granules in filter rods of paper cigarette[J].Paper and Paper Making,2019,38(4):37‑42.
[12] 沈兆敏. 我国柑橘生产现状及未来发展预测[J]. 果农之友,2019(2):1‑4.
SHEN Z M. Curent situation and future development forecast of citrus production in China[J]. Friends of Fruit Growers,2019(2):1‑4.
[13] 吴浩钦.“压榨和蒸馏”橘皮精油提取实验的优化探究[J]. 生物学教学,2020,45(9):61‑62.
WU H Q. Optimization of“pressing and distillation”experiment for the extraction of orange peel essential oi[l J]. Biology Teaching,2020,45(9):61‑62.
[14] 李靓,朱涵彬,李长滨,等. 正交法优化超声波提取橘皮果胶的工艺研究[J]. 中国调味品,2022,47(2):173‑176.
LI L,ZHU H B,LI C B,et al. Optimization of ultrasonic extraction technology of orange peel pectin by orthogonal tes[t J]. China Condiment,2022,47(2):173‑176.
[15] 李靓,朱涵彬,李长滨,等. 响应面法优化超声波提取橘皮黄色素的工艺研究[J]. 中国调味品,2021,46 (11):155‑160.
LI L,ZHU H B,LI C B,et al. Study on optimization of ultrasonic‑assisted extraction process of yellow pigment from orange peel by response surface methodology[J].China Condiment,2021,46(11):155‑160.
[16] 张梁,周杰,朱蔚,等. HPLC-DAD-ESI-MSn和GC-MS 比较陈皮、橘皮和霉变橘皮中的化学成分[J]. 食品与发酵工业,2013,39(4):192‑199.
ZHANG L,ZHOU J,ZHU W,et al. Comparative analysis on the chemical components of pericarpium citri reticulatae,citrus peels and fermented citrus peels with HPLC‑DAD‑ESI‑MSn and GC‑MS[J]. Food and Fermentation Industries,2013,39(4):192‑199.
[17] 马颖,陈琛,郑雅,等. 橘皮汤降逆止呕作用机制的网络药理学分析[J]. 中药新药与临床药理,2021,32 (2):226‑233.
MA Y, CHEN C, ZHENG Y, et al. Network pharmacology analysis on the mechanism of adjusting reversed flow of qi and prevent vomiting by jupi decoction[J]. Traditional Chinese Drug Research and Clinical Pharmacology,2021,32(2):226‑233.
[18] AUTA M,MUSA U,TSADO D G,et al. Nwanisobi optimization of orange peels D‑limonene extraction using solvent‑free microwave green technology[J].Chemical Engineering Communications,2018,205(6):789‑796.
[19] 蓝宏彦,吴燕飞,何玉清. 橘皮精油中d-柠檬烯HPLC 法分析[J]. 山东化工,2020,49(24):94‑96.
LAN H Y,WU Y F,HE Y Q. Analysis of d‑limonene in orange peel essential oil by HPLC[J]. Shandong Chemical Industry,2020,49(24):94‑96.
[20] 饶先立,郭宏霞,孙胜南. 巴西苦橙精油和苦橙花精油的挥发性成分分析及卷烟应用效果[J]. 化工技术与开发,2019,48(4):34‑39.
RAO X L,GUO H X,SUN S N. Volatile constituents of peel and flowers essential oils of Citrus aurantium L. from Brazil and their application effects in cigarette [J]. Technology & Development of Chemical Industry,2019,48(4):34‑39.
[21] 刘洋,吉燕华,雒珂昕,等. 柠檬烯应用的研究现状[J]. 中药药理与临床,2021,37(5):244‑248.
LIU Y,JI Y H,LUO K X,et al. Research status of limonene application[J]. Pharmacology and Clinics of Chinese Materia Medica,2021,37(5):244‑248.
[22] 许克静,黄珂,梁淼,等. 不同干燥温度下橘皮的干燥特性及香味变化[J]. 现代食品科技,2022,38(2):256‑265.
XU K J,HUANG K,LIANG M,et al. The drying characteristics and aroma changes of orange peel at different drying temperatures[J]. Modern Food Science and Technology,2022,38(2):256‑265.
[23] 国家烟草质量监督检验中心. 卷烟用常规分析用吸烟机测定总粒相物和焦油:GB/T 19609—2004[S]. 北京:中国标准出版社,2004.
China Tobacco Quality Supervision and Test Center.Cigarette—Determination of total and nicotine‑free dry particulate matter using a routine analytical smoking machine:GB/T 19609—2004[S]. Beijing:Standards
Press of China,2004.
[24] 国家烟草质量监督检验中心. 卷烟总粒相物中烟碱的测定气相色谱法:GB/T 23355—2009[S]. 北京:中国标准出版社,2009.
China Tobacco Quality Supervision and Test Center.Cigarettes—Determination of nicotine in smoke condensates—Gas‑chromatographic method: GB/T 23355—2009[S]. Beijing:Standards Press of China,2009.
[25] 国家烟草质量监督检验中心. 卷烟总粒相物中水分的测定第1部分:气相色谱法:GB/T 23203. 1—2013 [S]. 北京:中国标准出版社,2013.
China Tobacco Quality Supervision and Test Center.Cigarettes—Determination of water in smoke condensates—Part 1:Gas‑chromatographic method:GB/T 23203. 1—2013 [S]. Beijing:Standards Press of China,2013.
[26] 国家烟草质量监督检验中心. 常规分析用吸烟机定义和标准条件:GB/T 16450—2004[S]. 北京:中国标准出版社,2004.
China Tobacco Quality Supervision and Test Center.Routine analytical cigarette‑smoking machine—Definitions and standard conditions:GB/T 16450—2004[S]. Beijing:Standards Press of China,2004.
[27] 刘秀彩,蓝洪桥,林艳,等. 薄荷类爆珠卷烟中薄荷醇的分布与转移[J]. 中国烟草学报,2020,26(6):25‑31.
LIU X C,LAN H Q,LIN Y,et al. Distribution and transfer of menthol in mentholated cigarette with breakable capsule in filter[J]. Acta Tabacaria Sinica,2020,26(6):25‑31.
[28] 崔春,孟祥士,纪朋,等. 陈皮爆珠对卷烟常规理化指标和感官品质的影响[J]. 轻工学报,2019,34(5):40‑46.
CUI C,MENG X,JI P,et al. Effect of tancerine essence breakable capsule on reaular physicochemical characteristics and sensory quantity of cigarettes[J].Journal of Light Industry,2019,34(5):40‑46.
[29] 崔春,孟祥士,纪朋,等. 爆珠滤棒设计参数对卷烟通风率及主流烟气成分的影响[J]. 烟草科技,2022,55 (3):74‑80.
CUI C,MENG X S,JI P,et al. Effects of filter rod design parameters with breakable capsules on ventilation rate and cigarette mainstream smoke components[J]. Tobacco Science&Technology,2022,55 (3):74‑80.
[30] 楚文娟,孟祥士,纪朋,等. 爆珠中柠檬、薄荷醇在卷烟中的转移行为[J]. 烟草科技,2020,53(8):59‑64.
CHU W J,MENG X S,JI P,et al. Transfer behavior of limonene and menthol in breakable capsules during cigarette smoking[J]. Tobacco Science&Technology,2020,53(8):59‑64.
[31] 宁振兴,张玎婕,杨龙彦,等. P&T-GC-MS法测定丝束加香滤棒中特征成分及其转移行为[J]. 包装工程,2022,43(1):158‑166.
NING Z X,ZHANG D J,YANG L Y,et al.Determination of characteristic components in tow flavored filter sticks by P&T‑GC‑MS and their transfer behavior[J]. Packaging Engineering,2022,43(1):158‑166.
[32] 古君平,陶红,汪军霞,等. 卷烟滤嘴设计对爆珠单体香料成分释放行为的影响[J]. 烟草科技,2021,54 (1):32‑45.
GU J P,TAO H,WANG J X,et al. Effects of cigarette filter design on release behavior of monomer flavor in breakable capsule[J]. Tobacco Science & Technology,2021,54(1):32‑45.
[33] 沈靖轩,肖维毅,何雪峰,等. 卷烟抽吸过程中香线滤棒内含致香成分逐口转移的研究[J]. 湖北农业科学,2017,56(15):2931‑2934.
SHEN J X,XIAO W Y,HE X F,et al. Puff‑by‑puf transfer ratios of aroma components in fragrance line filter rod during tobacco smoking [J]. Hubei Agricultural Sciences,2017,56(15):2931‑2934.
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