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Volatile Organic Compounds (VOCs) in China: Progress and Prospects of Research on Treatment Technologies and Policy Provisions
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作者 Lixia Wu Yu Zhu +2 位作者 Jing Yuan Xiaozhong Guo Qianfeng Zhang 《Journal of Materials Science and Chemical Engineering》 2024年第9期1-43,共43页
Volatile organic compounds (VOCs) are an atmospheric pollutant with a boiling point of 50˚C - 260˚C at room temperature and pressure. They are precursors of sulfur dioxide and ozone, which can seriously pollute the at... Volatile organic compounds (VOCs) are an atmospheric pollutant with a boiling point of 50˚C - 260˚C at room temperature and pressure. They are precursors of sulfur dioxide and ozone, which can seriously pollute the atmosphere and endanger human health. After the “14th Five-Year Plan”, VOCs, instead of SO2, became one of the five indicators of China’s atmospheric governance. As a result, the government’s efforts to control VOCs have increased significantly. VOCs governance mustn’t be delayed. This paper provides a comprehensive summary and analysis of VOCs governance, covering the classification of VOCs, analysis of VOC governance technology (with a focus on end-of-pipe governance technology), national policy regulations, current governance shortcomings, and a forward-looking perspective on the future direction of VOCs governance, emphasizing healthy and sustainable development. 展开更多
关键词 volatile organic compounds vocs End-of-Pipe Treatment Technology Policy Regulations
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Modern approaches for detection of volatile organic compounds in metabolic studies focusing on pathogenic bacteria:Current state of the art 被引量:1
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作者 Karolina Zuchowska Wojciech Filipiak 《Journal of Pharmaceutical Analysis》 SCIE CAS CSCD 2024年第4期483-505,共23页
Pathogenic microorganisms produce numerous metabolites,including volatile organic compounds(VOCs).Monitoring these metabolites in biological matrices(e.g.,urine,blood,or breath)can reveal the presence of specific micr... Pathogenic microorganisms produce numerous metabolites,including volatile organic compounds(VOCs).Monitoring these metabolites in biological matrices(e.g.,urine,blood,or breath)can reveal the presence of specific microorganisms,enabling the early diagnosis of infections and the timely implementation of tar-geted therapy.However,complex matrices only contain trace levels of VOCs,and their constituent com-ponents can hinder determination of these compounds.Therefore,modern analytical techniques enabling the non-invasive identification and precise quantification of microbial VOCs are needed.In this paper,we discuss bacterial VOC analysis under in vitro conditions,in animal models and disease diagnosis in humans,including techniques for offline and online analysis in clinical settings.We also consider the advantages and limitations of novel microextraction techniques used to prepare biological samples for VOC analysis,in addition to reviewing current clinical studies on bacterial volatilomes that address inter-species in-teractions,the kinetics of VOC metabolism,and species-and drug-resistance specificity. 展开更多
关键词 volatile organic compounds Pathogenic bacteria metabolites Metabolomics Microextraction techniques Gas chromatography-mass spectrometry In vivo breath analysis In vitro model
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Identification of breath volatile organic compounds to distinguish pancreatic adenocarcinoma,pancreatic cystic neoplasm,and patients without pancreatic lesions
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作者 Kasenee Tiankanon Nuttanit Pungpipattrakul +2 位作者 Thanikan Sukaram Roongruedee Chaiteerakij Rungsun Rerknimitr 《World Journal of Gastrointestinal Oncology》 SCIE 2024年第3期894-906,共13页
BACKGROUND Volatile organic compounds(VOCs)are a promising potential biomarker that may be able to identify the presence of cancers.AIM To identify exhaled breath VOCs that distinguish pancreatic ductal adenocar-cinom... BACKGROUND Volatile organic compounds(VOCs)are a promising potential biomarker that may be able to identify the presence of cancers.AIM To identify exhaled breath VOCs that distinguish pancreatic ductal adenocar-cinoma(PDAC)from intraductal papillary mucinous neoplasm(IPMN)and healthy volunteers.METHODS We collected exhaled breath from histologically proven PDAC patients,radiological diagnosis IPMN,and healthy volunteers using the ReCIVA®device between 10/2021-11/2022.VOCs were identified by thermal desorption-gas chromatography/field-asymmetric ion mobility spectrometry and compared between groups.RESULTS A total of 156 participants(44%male,mean age 62.6±10.6)were enrolled(54 PDAC,42 IPMN,and 60 controls).Among the nine VOCs identified,two VOCs that showed differences between groups were dimethyl sulfide[0.73 vs 0.74 vs 0.94 arbitrary units(AU),respectively;P=0.008]and acetone dimers(3.95 vs 4.49 vs 5.19 AU,respectively;P<0.001).After adjusting for the imbalance parameters,PDAC showed higher dimethyl sulfide levels than the control and IPMN groups,with adjusted odds ratio(aOR)of 6.98(95%CI:1.15-42.17)and 4.56(1.03-20.20),respectively(P<0.05 both).Acetone dimer levels were also higher in PDAC compared to controls and IPMN(aOR:5.12(1.80-14.57)and aOR:3.35(1.47-7.63),respectively(P<0.05 both).Acetone dimer,but not dimethyl sulfide,performed better than CA19-9 in PDAC diagnosis(AUROC 0.910 vs 0.796).The AUROC of acetone dimer increased to 0.936 when combined with CA19-9,which was better than CA19-9 alone(P<0.05).CONCLUSION Dimethyl sulfide and acetone dimer are VOCs that potentially distinguish PDAC from IPMN and healthy participants.Additional prospective studies are required to validate these findings. 展开更多
关键词 volatile organic compound PANCREAS ADENOCARCINOMA Pancreatic intraductal neoplasms Breathing
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Towards green asphalt materials with lower emission of volatile organic compounds: A review on the release characteristics and its emission reduction additives
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作者 Xiwen Chang Feng Wang +2 位作者 Rui Wu Chen Wang Yue Xiao 《Journal of Road Engineering》 2024年第3期292-317,共26页
Recently, researchers in the road field are focusing on the development of green asphalt materials with loweremission of volatile organic compounds (VOCs). The characterization methodology of asphalt VOCs and theinflu... Recently, researchers in the road field are focusing on the development of green asphalt materials with loweremission of volatile organic compounds (VOCs). The characterization methodology of asphalt VOCs and theinfluencing factors on VOCs release have always been the basic issue of asphalt VOCs emission reduction research.Researchers have proposed a variety of asphalt VOCs characterization methodologies, which also have mutuallyirreplaceable characteristics. Asphalt VOCs volatilization is affected by many factors. In this study, asphalt VOCscharacterization methodologies were summarized, including their advantages, disadvantages, characteristics andapplicable requirements. Subsequently, the influencing factors of VOCs release, such as asphalt types and environment conditions, are summarized to provide theoretical support for the emission reduction research. Theclassification and mechanism of newly-development asphalt VOCs emission reduction materials are reviewed. Thereduction efficiencies are also compared to select better materials and put forward the improvement objective ofnew materials and new processes. In addition, the prospects about development of VOCs release mechanism ofasphalt materials during the full life cycle and feasibility research of high-efficiency composite emission reductionmaterials in the future were put forward. 展开更多
关键词 Asphalt vocs volatile organic compounds Green asphalt materials Reduction efficiency Hazardous emission
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Exhaled volatile organic compounds for diagnosis and monitoring of asthma 被引量:1
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作者 Luisa Savito Simone Scarlata +3 位作者 Andras Bikov Pierluigi Carratù Giovanna Elisiana Carpagnano Silvano Dragonieri 《World Journal of Clinical Cases》 SCIE 2023年第21期4996-5013,共18页
The asthmatic inflammatory process results in the generation of volatile organic compounds(VOCs),which are subsequently secreted by the airways.The study of these elements through gas chromatography-mass spectrometry(... The asthmatic inflammatory process results in the generation of volatile organic compounds(VOCs),which are subsequently secreted by the airways.The study of these elements through gas chromatography-mass spectrometry(GC-MS),which can identify individual molecules with a discriminatory capacity of over 85%,and electronic-Nose(e-NOSE),which is able to perform a quick onboard pattern-recognition analysis of VOCs,has allowed new prospects for non-invasive analysis of the disease in an"omics"approach.In this review,we aim to collect and compare the progress made in VOCs analysis using the two methods and their instrumental characteristics.Studies have described the potential of GC-MS and e-NOSE in a multitude of relevant aspects of the disease in both children and adults,as well as differential diagnosis between asthma and other conditions such as wheezing,cystic fibrosis,COPD,allergic rhinitis and last but not least,the accuracy of these methods compared to other diagnostic tools such as lung function,FeNO and eosinophil count.Due to significant limitations of both methods,it is still necessary to improve and standardize techniques.Currently,e-NOSE appears to be the most promising aid in clinical practice,whereas GC-MS,as the gold standard for the structural analysis of molecules,remains an essential tool in terms of research for further studies on the pathophysiologic pathways of the asthmatic inflammatory process.In conclusion,the study of VOCs through GC-MS and e-NOSE appears to hold promise for the noninvasive diagnosis,assessment,and monitoring of asthma,as well as for further research studies on the disease. 展开更多
关键词 ASTHMA volatile organic compounds Gas chromatography-mass spectrometry Electronic-Nose Breathomics Non-invasive diagnosis
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Advanced Technologies for Volatile Organic Compound (VOC) Emission Treatment: An Overview
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作者 Yizhe Li 《Journal of Electronic Research and Application》 2024年第2期1-6,共6页
This paper presents a comprehensive overview of various advanced technologies employed in the treatment of volatile organic compounds(VOCs),which are crucial pollutants in industrial emissions.The study explores diffe... This paper presents a comprehensive overview of various advanced technologies employed in the treatment of volatile organic compounds(VOCs),which are crucial pollutants in industrial emissions.The study explores different methods,including direct combustion,thermal combustion,catalytic combustion,low-temperature plasma purification,photocatalytic purification,membrane separation,and adsorption methods.Each technology is critically analyzed for its operational principles,efficiency,and applicability under different conditions.Special attention is given to adsorption concentration and catalytic combustion parallel method,highlighting its efficiency in treating low-concentration,high-volume VOC emissions.The paper also delves into the advantages and limitations of each method,providing insights into their effectiveness in various industrial scenarios.The study aims to offer a detailed guide for selecting appropriate VOC treatment technologies,contributing to enhanced environmental protection and sustainable industrial practices. 展开更多
关键词 volatile organic compounds(vocs) Emission treatment technologies Catalytic combustion Adsorption methods Environmental protection
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Effective technology for processing industrial volatile organic compounds by the atmospheric pressure microwave plasma torch
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作者 Da-Shuai Li Ling Tong 《Journal of Electronic Science and Technology》 EI CAS CSCD 2023年第2期87-94,共8页
In this study,we investigated the abatement of volatile organic compounds(VOCs)by the atmospheric pressure microwave plasma torch(AMPT).To study the treatment efficiency of AMPT,we used the toluene and water-based var... In this study,we investigated the abatement of volatile organic compounds(VOCs)by the atmospheric pressure microwave plasma torch(AMPT).To study the treatment efficiency of AMPT,we used the toluene and water-based varnish to simulate VOCs,respectively.By measuring the compounds and contents of the mixture gas before/after the microwave plasma process,we have calculated the treatment efficiency of AMPT.The experimental results show that the treatment efficiency of AMPT for toluene with a concentration of 17.32×10^(4) ppm is up to 60 g/kWh with the removal rate of 86%.For the volatile compounds of water-based varnish,the removal efficiency is up to 97.99%.We have demonstrated the higher potential for VOCs removal of the AMPT process. 展开更多
关键词 Atmospheric microwave plasma Industrial volatile organic compounds(vocs)processing Spectroscopic diagnostic
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Remove volatile organic compounds(VOCs) with membrane separation techniques 被引量:1
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作者 ZhanL WangHX 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2002年第2期181-187,共7页
Membrane separation, a new technology for removing VOCs including pervaporation, vapor permeation, membrane contactor, and membrane bioreactor was presented. Comparing with traditional techniques, these special techni... Membrane separation, a new technology for removing VOCs including pervaporation, vapor permeation, membrane contactor, and membrane bioreactor was presented. Comparing with traditional techniques, these special techniques are an efficient and energy saving technology. Vapor permeation can be applied to recovery of organic solvents from exhaust streams. Membrane contactor could be used for removing or recovering VOCs from air or wastewater. Pervaporation and vapor permeation are viable methods for removing VOCs from wastewater to yield a VOC concentrate which could either be destroyed by conventional means, or be recycled for reuse. 展开更多
关键词 volatile organic compounds(vocs) membrane separation techniques REMOVE
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Research Progress on Environmental Ecology and Human Health Benefits of Biogenic Volatile Organic Compounds(BVOCs)
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作者 CHEN Hua LIANG Rui 《Journal of Landscape Research》 2020年第6期30-34,共5页
Biogenic volatile organic compounds(BVOCs)have positive impact on environmental ecology and human physical and mental health.In this paper,the collection methods and components analysis,dynamic release mechanism,ecolo... Biogenic volatile organic compounds(BVOCs)have positive impact on environmental ecology and human physical and mental health.In this paper,the collection methods and components analysis,dynamic release mechanism,ecological function and the impact on human health of BVOCs were summarized.The purpose of this paper is to provide reference and suggestions for further study on the infl uence mechanism of BVOCs on human health,and to provide a theoretical basis for its application in landscape environment. 展开更多
关键词 Biogenic volatile organic compounds(Bvocs) Ecological function Human health Dynamic release
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Adsorptive and catalytic properties in the removal of volatile organic compounds over zeolite-based materials 被引量:47
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作者 章凌 彭悦欣 +3 位作者 张娟 陈龙 孟祥举 肖丰收 《Chinese Journal of Catalysis》 SCIE EI CAS CSCD 北大核心 2016年第6期800-809,共10页
Volatile organic compounds(VOCs) are a major component in air pollutants and pose great risks to both human health and environmental protection. Currently, VOC abatement in industrial applications is through the use... Volatile organic compounds(VOCs) are a major component in air pollutants and pose great risks to both human health and environmental protection. Currently, VOC abatement in industrial applications is through the use of activated carbons as adsorbents and oxide-supported metals as catalysts. Notably, activated carbons easily adsorb water, which strongly hinders the adsorption of VOCs; conventional oxides typically possess relatively low surface areas and random pores, which effectively influence the catalytic conversion of VOCs. Zeolites, in contrast with activated carbons and oxides, can be designed to have very uniform and controllable micropores, in addition to tailored wettability properties, which can favor the selective adsorption of VOCs. In particular, zeolites with selective adsorptive properties when combined with catalytically active metals result in zeolite-supported metals exhibiting significantly improved performance in the catalytic combustion of VOCs compared with conventional oxide-supported catalysts. In this review, recent developments on VOC abatement by adsorptive and catalytic techniques over zeolite-based materials have been briefly summarized. 展开更多
关键词 Air pollution volatile organic compound ZEOLITE Supported catalyst Catalytic combustion
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Catalytic removal of volatile organic compounds using ordered porous transition metal oxide and supported noble metal catalysts 被引量:27
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作者 刘雨溪 邓积光 +2 位作者 谢少华 王治伟 戴洪兴 《Chinese Journal of Catalysis》 SCIE EI CAS CSCD 北大核心 2016年第8期1193-1205,共13页
Most of volatile organic compounds (VOCs) are harmful to the atmosphere and human health. Cata‐lytic combustion is an effective way to eliminate VOCs. The key issue is the availability of high per‐formance catalys... Most of volatile organic compounds (VOCs) are harmful to the atmosphere and human health. Cata‐lytic combustion is an effective way to eliminate VOCs. The key issue is the availability of high per‐formance catalysts. Many catalysts including transition metal oxides, mixed metal oxides, and sup‐ported noble metals have been developed. Among these catalysts, the porous ones attract much attention. In this review, we focus on recent advances in the synthesis of ordered mesoporous and macroporous transition metal oxides, perovskites, and supported noble metal catalysts and their catalytic oxidation of VOCs. The porous catalysts outperformed their bulk counterparts. This excel‐lent catalytic performance was due to their high surface areas, high concentration of adsorbed oxy‐gen species, low temperature reducibility, strong interaction between noble metal and support and highly dispersed noble metal nanoparticles and unique porous structures. Catalytic oxidation of carbon monoxide over typical catalysts was also discussed. We made conclusive remarks and pro‐posed future work for the removal of VOCs. 展开更多
关键词 volatile organic compound Catalytic combustion Porous transition metal oxide Perovskite-type oxide Supported noble metal catalyst
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胶黏剂产品中VOCs含量与类别的检测方法 被引量:1
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作者 高燕 《塑料助剂》 CAS 2024年第3期38-42,共5页
可靠、高效的检测方法,能够准确测定胶黏剂产品中挥发性有机化合物(VOCs)的含量及类别,进而为胶黏剂产品生产提供参考,不断提升胶黏剂产品的环保安全性。一般采用气相色谱法、气相色谱-检测器联用法、气相色谱-质谱法,通过优化顶空条件... 可靠、高效的检测方法,能够准确测定胶黏剂产品中挥发性有机化合物(VOCs)的含量及类别,进而为胶黏剂产品生产提供参考,不断提升胶黏剂产品的环保安全性。一般采用气相色谱法、气相色谱-检测器联用法、气相色谱-质谱法,通过优化顶空条件、色谱柱选择和质谱参数,实现对目标VOCs的高灵敏度、高选择性检测。这些方法能够有效分离和定量分析胶黏剂产品中的多种VOCs,包括烷烃、烯烃、芳香烃、醛类、酮类等,获得了VOCs含量和类别分布的详细数据,为胶黏剂产品中VOCs含量和类别的检测提供了一种可靠、高效的解决方案,可用于评估胶黏剂产品的环境友好性,并为制定相关标准和法规提供技术支持。 展开更多
关键词 胶黏剂 挥发性有机化合物检测 气相色谱法 气相色谱-检测器联用法 气相色谱-质谱法
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苹果等6种经济林不同时期果实BVOCs成分分析
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作者 李少宁 于迪 +4 位作者 李绣宏 赵娜 徐晓天 陈明侠 鲁绍伟 《西北林学院学报》 CSCD 北大核心 2024年第3期110-117,共8页
为探究常见经济林树种不同时期果实在自然状态下释放植物源挥发性有机物(BVOCs)组成成分差异,并分析其香气类型,选取苹果、桃、李、梨、山楂和枣6种经济林树种为研究对象,采用动态顶空采集法收集释放的BVOCs,结合自动热脱附-气相色谱/... 为探究常见经济林树种不同时期果实在自然状态下释放植物源挥发性有机物(BVOCs)组成成分差异,并分析其香气类型,选取苹果、桃、李、梨、山楂和枣6种经济林树种为研究对象,采用动态顶空采集法收集释放的BVOCs,结合自动热脱附-气相色谱/质谱联用技术进行BVOCs分析。结果表明,6种果实膨大期和成熟期均检测出12类BVOCs,组分总数量前者(305)大于后者(275),2个时期果实释放烷烃类、烯烃类、芳香烃类、酯类和醛类BVOCs占比最大;不同时期6种果实有10种共有BVOCs为2,2,4,6,6-五甲基庚烷、正十九烷、a-柏木烯、正戊醛、庚醛、辛醛、天然壬醛、癸醛、苯乙酮和庚胺醇;苹果、桃、李和梨随着果实生长发育BVOCs成分数量减少;不同时期6种果实香韵涵盖香型有差异,并随果实生长发育,青草香、果香、檀木香、醛香和柑橘香占比明显增加。表明不同时期6种经济林植物果实释放BVOCs组成成分和相对含量差异明显,在果实成熟期,主要香气BVOCs成分相对含量较高,是果实香精开发的最佳时期。 展开更多
关键词 经济林 果实 植物源挥发性有机物(Bvocs) 香气类型
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山楂和枣释放BVOCs组分生长季动态变化特征研究
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作者 李少宁 李绣宏 +3 位作者 柳学强 赵娜 徐晓天 鲁绍伟 《经济林研究》 北大核心 2024年第1期87-98,共12页
【目的】探究北京地区经济林树种山楂和枣不同时期释放植物源挥发性有机物(BVOCs)组成成分的变化规律,以及两者释放有益BVOCs特征。【方法】采用动态顶空采集法收集释放的BVOCs,结合自动热脱附-气相色谱/质谱联用技术进行分析。【结果... 【目的】探究北京地区经济林树种山楂和枣不同时期释放植物源挥发性有机物(BVOCs)组成成分的变化规律,以及两者释放有益BVOCs特征。【方法】采用动态顶空采集法收集释放的BVOCs,结合自动热脱附-气相色谱/质谱联用技术进行分析。【结果】在整个生长季从山楂叶中共检测出12类328种BVOCs,从枣叶中共检测出12类301种BVOCs,枣叶释放类别的数量与山楂叶相同,释放种类少于山楂叶,两树种均在9月释放类别最多;山楂叶和枣叶主要释放烷烃类、烯烃类和芳香烃类、酯类和醇类BVOCs;枣叶主要释放烷烃类、烯烃类、芳香烃类、酯类、醛类和醇类BVOCs,其中天然壬醛山楂叶和枣叶每月都有释放,但枣叶每月释放BVOCs的种类更加丰富;山楂是烯烃类夏季高释放量树种,枣是春季芳香烃高释放量树种;从山楂叶中共检测出烯烃类、芳香烃类、酯类、醛类、有机酸类、酮类、醇类和酰胺类8类43种有益成分,而枣叶不释放酮类,释放种类总数量比山楂叶多。【结论】两个树种释放烯烃类有益BVOCs在总有益BVOCs成分中占比最大,以释放对薄荷-1(7),3-二烯、α-蒎烯、罗汉柏烯、3-蒈烯、右旋萜二烯为主,夏季是山楂叶和枣叶释放有益BVOCs组分的主要季节,两者均在7月达到最大值。总之,树种释放BVOCs成分呈明显的季节性变化,尤其是山楂叶释放总有益BVOCs最大值超过60%。 展开更多
关键词 山楂 植物源挥发性有机物(Bvocs) 有益成分 生长季 释放动态
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添加剂对堆肥过程中挥发性有机物(VOCs)的减排效果 被引量:3
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作者 李新荣 田壮 +4 位作者 杨金凤 郭旋 杜连凤 王悦 成卫民 《农业环境科学学报》 CAS CSCD 北大核心 2024年第5期1171-1179,共9页
为明确添加剂对堆肥挥发性有机物(Volatile organic compounds,VOCs)排放的减排效果和影响因素,通过文献筛选出吸附类添加剂(活性炭和沸石)与有机酸类添加剂(柠檬酸和草酸)开展实验研究。在鸡粪-玉米秸秆堆肥实验中,设置5个处理,分别为... 为明确添加剂对堆肥挥发性有机物(Volatile organic compounds,VOCs)排放的减排效果和影响因素,通过文献筛选出吸附类添加剂(活性炭和沸石)与有机酸类添加剂(柠檬酸和草酸)开展实验研究。在鸡粪-玉米秸秆堆肥实验中,设置5个处理,分别为对照(CK)、添加活性炭、添加沸石、添加柠檬酸和添加草酸处理。研究对象包括115种VOCs、三甲胺和6种含硫有机挥发气体(二甲硫醚、二甲基二硫醚、二甲基三硫醚、甲硫醇、乙硫醇、乙硫醚)。结果表明:在28 d的好氧发酵中,所有处理均达到50℃并维持7 d,满足无害化标准。检出110种VOCs、三甲胺和3种含硫有机挥发气体(二甲硫醚、二甲基二硫醚,二甲基三硫醚)。VOCs的排放集中在前9 d,在第3天时VOCs达到峰值。5个处理在堆肥第3天检测到的VOCs浓度范围为169.22~548.26 mg·m^(-3)。4种添加剂对各类VOCs均有减排效果。在第3天,活性炭、沸石、柠檬酸和草酸对烷烃类的减排效率分别为79%、26%、77%和46%,对卤烃类的减排效率分别为96%、38%、93%和97%,对芳香烃类的减排效率分别为28%、11%、24%和53%。从堆肥第6天开始只有沸石对各类VOCs有减排效果,最高减排效率为30%。针对含硫有机挥发气体减排,减排效果依次是草酸>柠檬酸>沸石>活性炭。4种添加剂对含硫有机挥发气体均有减排效果,但是对三甲胺没有减排效果。综合堆肥前9 d VOCs的减排情况,4种添加剂中沸石对各类VOCs减排效果最好。堆肥过程中添加沸石有利于VOCs和其他气体的协同减排,并且对土壤和农作物不存在风险,所以沸石在堆肥工程中有广阔的应用前景。 展开更多
关键词 堆肥 挥发性有机物(vocs) 含硫有机挥发性气体 添加剂 沸石
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碱处理改性ZSM-5分子筛孔结构对VOCs吸附性能的影响 被引量:3
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作者 牛成 赵洋 +5 位作者 钱程 娄悦 姜豪 安阳 沈本贤 孙辉 《石油学报(石油加工)》 EI CAS CSCD 北大核心 2024年第1期37-45,共9页
采用氢氧化钠和四丙基氢氧化铵混合碱溶液处理制备一系列改性ZSM-5分子筛,通过X射线衍射(XRD)、扫描电子显微镜(SEM)、N_(2)吸附、水接触角测定等手段对改性样品进行了分析表征,采用固定床吸附器对比评价5A、NaY和不同碱改性ZSM-5分子... 采用氢氧化钠和四丙基氢氧化铵混合碱溶液处理制备一系列改性ZSM-5分子筛,通过X射线衍射(XRD)、扫描电子显微镜(SEM)、N_(2)吸附、水接触角测定等手段对改性样品进行了分析表征,采用固定床吸附器对比评价5A、NaY和不同碱改性ZSM-5分子筛吸附剂对正己烷和乙酸乙酯的动态吸附性能。结果表明:氢氧化钠和四丙基氢氧化铵摩尔浓度均为0.2 mol/L的碱改性ZSM-5-G-3样品的比表面积及总孔体积分别为425 m^(2)/g和0.585 cm^(3)/g,比改性前高硅ZSM-5-G-1样品分别提高了17.7%和174.6%,介孔比表面积增加8.6倍,达到317 m^(2)/g,介孔体积增加12.3倍,达到0.531 cm^(3)/g;随着碱溶液浓度的增加,改性分子筛材料水接触角减小;25℃时,正己烷和乙酸乙酯在ZSM-5-G-3吸附剂床层上的穿透吸附量分别为76.99和101.08 mg/g,比改性前ZSM-5-G-1吸附剂床层分别提高了40.3%和17.4%。改性ZSM-5-G-3样品对挥发性有机化合物(VOCs)吸附性能的显著提高主要归因于碱改性提供了更多的吸附位和介孔结构。 展开更多
关键词 ZSM-5分子筛 碱改性 孔结构 吸附 挥发性有机化合物(vocs)
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加油站及周边空气中VOCs物种构成与示踪特征 被引量:1
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作者 毕申雨 宋立来 +5 位作者 尹思涵 舒秦 姚璐 朱静 毕晓辉 冯银厂 《中国环境科学》 EI CAS CSCD 北大核心 2024年第2期620-628,共9页
选择典型城市区域加油站,在汽柴油加油口及周边开展VOCs样品采集与物种构成分析,探究加油站排放VOCs的标识性物种,根据加油站周边区域VOCs物种浓度与比值在空间梯度上的变化评估关键物种的示踪作用与转化规律.结果表明:加注汽油排放VOC... 选择典型城市区域加油站,在汽柴油加油口及周边开展VOCs样品采集与物种构成分析,探究加油站排放VOCs的标识性物种,根据加油站周边区域VOCs物种浓度与比值在空间梯度上的变化评估关键物种的示踪作用与转化规律.结果表明:加注汽油排放VOCs主要组分为烷烃(70%~72%)、烯烃(13%~14%)和含氧有机物(11%~12%),主要物种为异戊烷(20%~24%),其它C4~C6类烷烃也是高占比物种;加注柴油排放VOCs中烷烃是主要成分,占VOCs总量的70%~72%,其次是烯烃和含氧有机物,分别贡献13%~14%和11%~12%,芳香烃占比为2%~3%,异戊烷(17%~21%)和正丁烷(15%~17%)含量较高,低碳C2~C4类烷烯烃和较重高碳C7~C12烷烃的比例高于汽油.加油站下风向受体区域受加油站排放影响明显,与单一物理扩散模型的结果对比,发现烯烃类物种在实际传输过程中已发生明显光化学反应,特征物种比值在距离加油站大于70m的区域外开始接近机动车尾气的比值范围并趋于稳定,超出此范围加油站排放贡献影响可能较小. 展开更多
关键词 加油站 挥发性有机物(vocs) 臭氧生成潜势(OFP) 示踪特征
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催化氧化VOCs催化剂中毒机制研究进展 被引量:3
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作者 霍浩淼 臧文丽 +2 位作者 国洁 张丁超 王欣 《化工环保》 CAS CSCD 北大核心 2024年第2期166-171,共6页
催化氧化法是目前处理挥发性有机物(VOCs)最有效的治理技术之一,但催化剂中毒问题阻碍着催化剂的应用与催化氧化技术的发展。本文介绍了催化氧化VOCs催化剂中毒机制,综述了进行VOCs催化氧化反应的活性测试以及对失活的催化剂进行分析表... 催化氧化法是目前处理挥发性有机物(VOCs)最有效的治理技术之一,但催化剂中毒问题阻碍着催化剂的应用与催化氧化技术的发展。本文介绍了催化氧化VOCs催化剂中毒机制,综述了进行VOCs催化氧化反应的活性测试以及对失活的催化剂进行分析表征两种研究催化剂中毒方法的研究进展。指出:设计出针对性强、抗中毒性能良好且具有大规模工业应用前景的催化剂将是未来的研究方向。 展开更多
关键词 挥发性有机物 催化氧化 催化剂中毒 机制
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杭州市大气VOCs组成特征及二次污染生成贡献 被引量:3
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作者 钱思瑶 关净文 +4 位作者 关璐 张天 王蕴赟 沈建东 于兴娜 《中国环境科学》 EI CAS CSCD 北大核心 2024年第4期1921-1928,共8页
利用2021年1~12月杭州市城区大气VOCs的观测数据,分析了VOCs化学组成及其污染特征,运用正交矩阵因子分解法(PMF)进行VOCs来源解析,并利用最大增量反应活性(MIR)和气溶胶生成系数(FAC)估算VOCs的臭氧生成潜势(OFP)和二次有机气溶胶生成潜... 利用2021年1~12月杭州市城区大气VOCs的观测数据,分析了VOCs化学组成及其污染特征,运用正交矩阵因子分解法(PMF)进行VOCs来源解析,并利用最大增量反应活性(MIR)和气溶胶生成系数(FAC)估算VOCs的臭氧生成潜势(OFP)和二次有机气溶胶生成潜势(AFP),量化评估其二次污染生成贡献.结果显示,观测期间杭州市大气VOCs体积分数均值为30.65×10^(-9),烷烃和卤代烃是其主要组分,分别占49.23%和24.47%,浓度排名前10的VOCs物种主要为C_(2)~C_(4)的烷烃、C_(7)~C_(8)的芳香烃和乙烯.源解析结果显示杭州市VOCs主要来源为燃烧源、溶剂使用源、工业排放源、油气挥发源和机动车尾气排放源.杭州市大气VOCs的总OFP为50.56×10^(-9),其中乙烯、1-乙基-3-甲基苯和甲苯是其主要贡献组分.芳香烃对AFP的贡献达到91.52%,是最重要的SOA前体物.因此,控制机动车尾气排放和溶剂使用过程中产生的VOCs对防控O_(3)污染以及SOA污染具有重要意义. 展开更多
关键词 杭州 挥发性有机物(vocs) 臭氧生成潜势(OFP) 二次有机气溶胶生成潜势(AFP)
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成都市餐饮源VOCs排放特征 被引量:1
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作者 胡秋萍 费怡 +5 位作者 陈耀 周子航 张雷 杨亮 王斌 陈茁 《环境化学》 CAS CSCD 北大核心 2024年第2期600-613,共14页
为研究成都市餐饮源VOCs排放特征,建立成都市餐饮源114种VOCs成分谱,本研究选择11个监测对象进行VOCs组分分析,并探索餐饮源VOCs全组分特征.结果表明,餐饮源VOCs中烷烃占比为23.12%—30.29%,烯烃占比为8.61%—25.78%,芳香烃占比为0.16%... 为研究成都市餐饮源VOCs排放特征,建立成都市餐饮源114种VOCs成分谱,本研究选择11个监测对象进行VOCs组分分析,并探索餐饮源VOCs全组分特征.结果表明,餐饮源VOCs中烷烃占比为23.12%—30.29%,烯烃占比为8.61%—25.78%,芳香烃占比为0.16%—5.86%,卤代烃占比为0.86%—13.82%,OVOCs占比为28.02%—63.77%,其他占比为2.02%—8.26%.OVOCs、烷烃和烯烃3类占比最高,3类污染物累计质量浓度百分比在75%以上,是餐饮源重要的污染物类型.餐饮源排名前10的VOCs分别是丙烯醛(11.12%)、乙烷(9.87%)、乙醛(9.51%)、丙酮(9.34%)、乙烯(7.86%)、正戊烷(5.74%)、乙炔(5.01%)、丁二烯(4.64%)、顺式-1,3-二氯-1-丙烯(3.40%)和乙酸乙酯(3.04%),是餐饮源的特征污染物.餐饮源全组分分析得到OVOCs的代表性物质为反式茴香脑和芳樟醇等,烯烃代表性物质为长叶烯和柠檬烯等,烷烃代表性物质为正十五烷和正庚烷等,为完善餐饮源成分谱物种、探寻餐饮源特征污染物的研究提供参考.采用FAC法计算餐饮源VOCs二次有机气溶胶生成潜势.餐饮源SOA生成潜势为1220.7μg·m^(-3),芳香烃SOA生成潜势贡献率为93.1%,烷烃SOA生成潜势贡献率为6.9%. 展开更多
关键词 餐饮源 成分谱 挥发性有机物(vocs) 成都市
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