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Carbon and chlorine isotope fractionation during aerobic oxidation and reductive dechlorination of vinyl chloride and cis-1,2-dichloroethene

机译：氯乙烯和顺式 -1,2-二氯乙烯的好氧氧化和还原脱氯过程中的碳和氯同位素分馏

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The study investigated carbon and chlorine isotope fractionation during aerobic oxidation and reductive dechlorination of vinyl chloride (VC) and -1,2-dichloroethene (cDCE). The experimental data followed a Rayleigh trend. For aerobic oxidation, the average carbon isotope enrichment factors were -7.2‰ and-8.5‰ for VC and cDCE, respectively, while average chlorine isotope enrichment factors were only -0.3‰ for both compounds. These values are consistent with an initial transformation by epoxidation for which a significant primary carbon isotope effect and only a small secondary chlorine isotope effect is expected. For reductive dechlorination, larger carbon isotope enrichment factors of -25.2‰ for VC and -18.5‰ for cDCE were observed consistent with previous studies. Although the average chlorine isotope enrichment factors were larger than those of aerobic oxidation (-1.8‰ for VC, -1.5‰ for cDCE), they were not as large as typically expected for a primary chlorine isotope effect suggesting that no cleavage of C-Cl bonds takes place during the initial ratelimiting step. The ratio of isotope enrichment factors for chlorine and carbon were substantially different for the two reaction mechanisms suggesting that the reaction mechanisms can be differentiated at the field scale using a dual isotope approach. 展开▼

机译：该研究调查了氯乙烯（VC）和-1,2-二氯乙烯（cDCE）的需氧氧化和还原脱氯过程中的碳和氯同位素分馏。实验数据遵循瑞利趋势。对于好氧氧化，VC和cDCE的平均碳同位素富集因子分别为-7.2‰和-8.5‰，而两种化合物的平均氯同位素富集因子仅为-0.3‰。这些值与环氧化的初始转化相一致，对于环氧化的初始转化，预期其具有显着的初级碳同位素效应而仅具有较小的次级氯同位素效应。对于还原性脱氯，观察到较大的碳同位素富集因子，VC为-25.2‰，cDCE为-18.5‰，与先前的研究一致。尽管平均氯同位素富集因子大于有氧氧化因子（VC为-1.8‰，cDCE为-1.5‰），但它们不如通常的一次氯同位素效应预期的大，表明C-Cl不会裂解在最初的限速步骤中发生键合。对于两种反应机理，氯和碳的同位素富集因子之比基本不同，这表明可以使用双同位素方法在田间规模上区分反应机理。展开▼

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Abe, Yumiko; Aravena, Ramon; Zopfi, Jakob; Shouakar-Stash, O; Cox, E; Roberts, J.D; Hunkeler, Daniel;
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1. Carbon And Chlorine Isotope Fractionation During Aerobic Oxidation And Reductive Dechlorination Of Vinyl Chloride And Cis-1,2-dichloroethene [J] . Y. ABE, R. ARAVENA, J. ZOPFI, Environmental Science & Technology . 2009,第1期

机译：氯乙烯和顺式1,2-二氯乙烯的有氧氧化和还原脱氯过程中的碳和氯同位素分馏

2. Growth kinetics and stable carbon isotope fractionation during aerobic degradation of cis-1,2-dichloroethene and vinyl chloride [J] . Andreas Tiehm, Kathrin R. Schmidt, Brigitte Pfeifer, Water Research . 2008,第10a11期

机译：有氧降解顺式1,2-二氯乙烯和氯乙烯的生长动力学和稳定的碳同位素分级

3. Comparison of 1,2-dichloroethane, dichloroethene and vinyl chloride carbon stable isotope fractionation during dechlorination by two Dehalococcoides strains [J] . Marie Schmidt, Sascha Lege, Ivonne Nijenhuis Water Research . 2014,第apra1期

机译：两种Dehaloccocoides菌株脱氯过程中1,2-二氯乙烷，二氯乙烯和氯乙烯碳稳定同位素分馏的比较

4. Carbon Isotope Analysis of Trichloroethene, cis-1,2-Dichloroethene, and Vinyl Chloride as Evidence for Natural Biodegradation(ABSTRACT) [C] . Elizabeth L. Reece, Julie K. Sueker International Conference on Remediation of Chlorinated and Recalcitrant Compounds . 2012

机译：三氯乙烯，顺式-1,2-二氯乙烯和氯乙烯作为天然生物降解的证据的碳同位素分析（摘要）

5. Assessment of reductive dechlorination of vinyl chloride and characterization of enrichments that grow on vinyl chloride as the sole carbon and energy source. [D] . Gu, Zhongchun April. 2003

机译：评估氯乙烯的还原性脱氯作用，并表征以氯乙烯为唯一碳和能源的浓缩物的特性。

6. Reductive Dechlorination of Tetrachloroethene to cis-12-Dichloroethene by a Thermophilic Anaerobic Enrichment Culture [O] . Servé W. M. Kengen, Caroline G. Breidenbach, Andreas Felske, 1999

机译：嗜热厌氧富集培养将四氯乙烯还原脱氯为顺式12-二氯乙烯

7. Carbon Isotope Fractionation during Microbial Dechlorination of Trichloroethene,cis-1,2-Dichloroethene, and Vinyl Chloride: Implications for Assessment of Natural Attenuation [O] . Bloom, Y, Aravena, R, Hunkeler, Daniel, 2017

机译：三氯乙烯，顺式-1,2-二氯乙烯和氯乙烯微生物脱氯过程中的碳同位素分馏：对自然衰减评估的意义

8. Characterization of the Aerobic Oxidation of cis-Dichloroethene and Vinyl Chloride in Support of Bioremediation of Chloroethene-Contaminated Sites; Final technical rept [R] . Gossett, J. M., Mattes, T. E., Sills, D. L., 2004

机译：顺式二氯乙烯和氯乙烯的有氧氧化表征支持氯乙烯污染场地的生物修复;最后的技术部门

1. 气相色谱法同时测定地表水中1,1-二氯乙烯和1,2-二氯乙烯 [J] . 唐楠 . 污染防治技术 . 2017,第003期

2. 毛细管气相色谱法测定水中1,1-二氯乙烯,1,2-二氯乙烯 [J] . 郭英 . 科技信息（学术版） . 2011,第014期

3. 2,2-双(对氯苯基)-1-氯乙烯稳定氯同位素组成测定的氧化脱氯前处理方法 [J] . 张亚男 ,田芹 ,宋淑玲 . 农药学学报 . 2016,第6期

4. 1,2-二氯乙烷氧氯化制四氯乙烯反应研究 [J] . 方丽 ,袁向前 ,宋宏宇 . 天然气化工 . 2017,第002期

5. 三、四氯乙烯低沸物中反式1,2-二氯乙烯的提取及稳定化处理 [J] . 付炳伟 ,郭晶 ,张继梁 . 氯碱工业 . 2021,第001期

6. 二氧化锰吸附硒氧离子过程中的硒同位素分馏 [C] . 徐文坡 ,朱建明 ,谭德灿 . 中国矿物岩石地球化学学会第17届学术年会 . 2019

7. 氧空位镍铁尖晶石和铜铁复合氧化物负载铜铁对三氯乙烯的还原脱氯研究 [A] . 翟得斌 . 2015

1. 含有1,1,2－三氯乙烷、反式1,2－二氯乙烯或顺式1,2－二氯乙烯和氟化氢的共沸或类共沸组合物 [P] . 中国专利： CN113677651A . 2021-11-19

2. 1，1-二氯-1，2-二氟乙烷和反-1，2-二氯乙烯与甲醇、乙醇或异丙醇的三元共沸混合物 [P] . 中国专利： CN1051387A . 1991-05-15

3. Manufacture of 1,2-dichloroethane to produce vinyl chloride, by subjecting hydrocarbon source to cracking, conveying fractions to (oxy)chlorination reactor, separating 1,2-dichloroethane, and subjecting heavy fraction to pyrolysis [P] . 外国专利： FR2883872A1 . 2006-10-06

机译：通过将烃源进行裂化，将馏分输送至（氧）氯化反应器，分离1,2-二氯乙烷，并对重馏分进行热解来制造1,2-二氯乙烷以生产氯乙烯

4. The method of separating the carbon dioxide from the source includes that magnesium chloride reacts with water to form milligram (OH) chlorine and hydrogen chloride, and then water reacts with magnesium chloride to form magnesium hydroxide, Magnesium dioxide is then mixed with calcium chloride and carbon dioxide to form calcium carbonate. [P] . 外国专利： CL2014001842A1 . 2015-05-08

机译：从源中分离二氧化碳的方法包括：氯化镁与水反应生成毫克氯（OH）和氯化氢，然后水与氯化镁反应生成氢氧化镁，然后将二氧化镁与氯化钙和碳混合二氧化碳形成碳酸钙。

5. Chlorine production from hydrogen chloride, e.g. by-product from phosgenation, vinyl chloride or polycarbonate production or recycling PVC, uses ionic liquid as catalyst and solvent in oxidation with molecular oxygen [P] . 外国专利： DE10327128A1 . 2004-12-30

机译：由氯化氢生产氯气，例如由光气化，氯乙烯或聚碳酸酯生产或回收PVC产生的副产品，使用离子液体作为催化剂和溶剂与分子氧氧化

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Carbon and chlorine isotope fractionation during aerobic oxidation and reductive dechlorination of vinyl chloride and cis-1,2-dichloroethene

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