汽车维修行业挥发性有机物排放特征及大气化学反应活性

删除或更新信息，请邮件至freekaoyan#163.com(#换成@)

本站小编 Free考研考试/2021-12-31

閻庢鍠掗崑鎾绘⒑椤愶絿顣叉繝鈧幍顔惧崥婵顦糚闂佹寧绋掗惌顔剧博鐎涙ḿ鈻旈柛銉㈡櫓濞兼岸鏌ら弶鍨殶闁绘牜鍎ょ粙澶愬箻閼碱剛鎳濋柣鐘叉处瀹曟﹢锝炵€ｎ偓绱ｉ柟杈鹃檮椤撶懓銆掑铏《婵犫偓閸涘瓨鏅悘鐐插⒔濡层劑鏌￠崼顐㈠幐缂佹顦靛畷姘紣娴ｄ警浼囬梺鍛婂笒濡繈骞愰崼鏇熸櫖濞达綀娅ｉ崡婊堟倵閻㈠灚鍤€闁搞劍绻勭划璇参旂€ｎ剛锛�
547闂佸湱顣介崑鎾绘⒒閸曗晛鐏柣妤€閰ｉ幊鎾诲礃椤忓棗鐓涢梺鍏兼緲閸燁偄鐣烽敓锟�1130缂備礁顦粔鐢碘偓鍨皑閳ь剝顫夌喊宥夊汲閳ь剟鏌℃径瀣婵炲牊鍨垮畷锟犲礃瑜忕粙鍥╃磼婢跺﹦效闁告ǜ鍊栫缓钘壩旈崪浣规瘜闁圭厧鐡ㄩ幐鍫曞焵椤戞寧绁版い顐㈩儐閿涙劙骞嬮婊咁槷濠电偞鍨归弫绋棵烘繝鍥ㄥ殣閺夊牜鍋掗崵鏃堟煏閸℃洝鍏岀紒顔光偓瓒佽鎯斿☉鎺戜壕濞达絿鏅Σ鍫ユ煕閹烘挻鍋犻柍褜鍏涚欢姘跺闯妤ｅ啯鎳氱€广儱鍟犻崑鎾存媴閻戞ê鈧偟鈧鎮堕崕顖炲焵椤戣儻鍏屾い鎾存倐閹爼宕遍幇銊ヤ壕濞达絾浜芥禒锕€霉閸忕厧鎼搁柍褜鍏涘ù鍥磼閵婏箑顕辨慨妯稿劗閸嬫挻鎷呯憴鍕暚闂佺厧寮惰ぐ鍐紦妤ｅ啯鍋犻柛鈩冨姀閸嬫挻鎷呴悿顖氬箑闂佸搫鍊稿ú銏ゅ焵椤戞寧绁板瑙勬崌瀵敻顢涘Ο宄颁壕濞达綀顫夐悡鈧梻鍌氬€介濠勬閸洖绠绘い鎾村閸嬫挻鎷呴崷顓溾偓濠囨倵濞戝疇绀嬮柍褜鍏涚粈浣轰焊閹殿喒鍋撳☉瀹犵闁逞屽厸濞村洭顢橀崫銉т笉婵°倓鐒︾花姘舵煏閸℃洜顦︾€圭ǹ顭峰畷锝囦沪閸屾浜惧ù锝呮啞閸曢箖鏌ｉ悙鍙夘棑闁逞屽厸閻掞箓寮崒姘ｆ煢婵懓娲犻崑鎾存媴閸涘﹥鍣搁柣搴㈠喕鐠愮喖鍩€椤戞寧顦风紓宥咁儔閹虫牠鎳犻鍐炬蕉缂備焦鍐婚幏锟�28缂備緡鍋夐褔顢楅悢铏圭煋闁规惌鍨崇壕锟�

中文关键词汽车维修行业产排污节点挥发性有机物(VOCs)排放特征臭氧生成潜势英文关键词automobile repair industry emission nodes volatile organic compounds emission characteristics ozone formation potential

作者	单位	E-mail
陈鹏	北京市环境保护科学研究院, 北京 100037	chenp_emma@163.com
张月	北京市环境保护科学研究院, 北京 100037
张梁	北京市门头沟区环境保护监测站, 北京 102300
熊凯	北京市环境保护科学研究院, 北京 100037
邢敏	北京市环境保护科学研究院, 北京 100037
李珊珊	北京市环境保护科学研究院, 北京 100037	liss0502@163.com

中文摘要汽车维修行业挥发性有机物排放是臭氧前体物VOCs的重要来源，但目前汽车维修行业的VOCs减排政策主要基于VOCs的排放量，而没有考虑其化学反应活性，这将影响VOCs减排对改善空气质量的效果.通过分析汽车维修企业不同工段VOCs的产排污节点，结合各工段油漆用量及其VOCs质量分数，采用物料衡算法获得不同工段VOCs产生量及其组分，系统分析末端尾气VOCs的排放特征，并通过计算其臭氧生成潜势评估VOCs各组分的大气反应活性.结果表明，汽车维修行业油漆中产生的VOCs组分主要为苯系物，其中乙酸丁酯和二甲苯的质量分数最高.清漆由于其本身VOCs质量分数较高且用量较大，为汽车维修行业最大的VOCs排放源（92%）.企业采用油性面漆VOCs产生量（22%）比水性面漆（3%）有较大程度增大，采用水性漆对汽修企业减少VOCs排放有显著效果.排气筒尾气中共检测出49种VOCs组分，前10种VOCs组分排放量占总排放量的97.9%，种类相对集中.主要污染物类别为芳香烃类（10种，30.90%~69.30%），主要组分有间/对-二甲苯（2.89%~45.00%）；其次为OVOC （12种）和卤代烃（22种），贡献率分别为8.82%~43.71%和2.40%~25.00%，其他组分相对含量较少.芳香烃是汽车维修企业VOCs排放的最大组分，但是在不同研究中主要VOCs种类差异较大.汽车维修企业排放VOCs的OFP平均值为194.04 mg·m^-3，SR平均值为3.37 g·g^-1.间/对-二甲苯对汽车维修行业OFP贡献率最大（70.24%），为优先控制污染物.芳香烃对OFP的贡献率达到99.29%，是化学反应活性最强的组分.酯类在汽车维修行业VOCs组分中占比较大，但对OFP的贡献率相对较低，因此汽车维修行业应重点控制芳香烃类物质的排放. 英文摘要 Volatile organic compounds (VOCs) emitted by the automobile repair industry are an important source of ozone precursors. However, the current reduction policy generally focuses on the emissions of VOCs, without considering their chemical reactivity. Based on an investigation of the development status of China's automobile repair industry, this study analyzes VOCs emission nodes in different sections of automobile repair enterprises. The amount and VOCs content of paint in each section was determined, and a material balance algorithm was used for sections with different VOCs quantities and compositions to analyze the emission characteristics of exhaust VOCs. The atmospheric reactivity of VOCs components was evaluated by calculating ozone generation potential (OFP). The results show that VOCs components produced by automobile repair paint are mainly benzene homologues, with butyl acetate and xylene the highest. Varnish is the largest contributor to VOCs emissions in automobile repair industries (92%), due to its high VOCs content and high dosage. The VOCs content of solvent-based coatings (22%) is higher than that of water-based coatings (3%). The application of water-based coatings leads to a remarkable reduction in VOCs emissions in automobile repair industries. A total of 49 VOCs components have been detected in gas from exhaust cylinders, with the top 10 VOCs components accounting for 97.9% of the total emissions. The main pollutants are aromatic hydrocarbons (10 types, 30.90%-69.30%), and OVOC (12 types) and halogenated hydrocarbons (22 types) were the second-highest contributors, with contribution rates of 8.82%-43.71% and 2.40%-25.00%, respectively. Aromatic hydrocarbon is the largest VOCs component emitted by automobile repair industries, but the main types of VOCs vary greatly in different studies. VOCs discharged by automobile repair industries have an average OFP value of 194.04 mg ·m^-3 and an average SR value of 3.37 g ·g^-1. The m/p-xylene component contributes the most to OFP (70.24%) and is the preferred pollutant in automobile repair industry. Aromatic hydrocarbons contribute a maximum of 99.29% to the OFP value and are also the most chemically reactive component. Although esters account for a large proportion of VOCs, their contribution to OFP is relatively low. Therefore, the automobile repair industry should focus on controlling the emission of aromatic hydrocarbons.

PDF全文下载地址:

https://www.hjkx.ac.cn/hjkx/ch/reader/create_pdf.aspx?file_no=20210804&flag=1&journal_id=hjkx&year_id=2021

婵炴垶鎸撮崑鎾绘煛婢舵ê鐏犻柕鍫濈埣閹崇娀宕滄担鍦殸闂備浇妫勫畷顒€顫濋妸鈺佺煑妞ゆ牗鐟ょ花鏉库槈閺冣偓濠㈡﹢宕哄畝鍕殌闁告劦浜為崺鈥斥槈閹惧瓨灏紒妤冨枔閹风娀骞戦幇顔哄亽闂佸搫鍊归悷杈╂閿燂拷
2婵炴垶鎸稿ú銊╋綖閹烘鍤€闁告劦浜為崺锟犳煟閵忋倖娑ч柣鈩冪懄缁嬪﹪鏁傞懖鈺冾槱婵☆偆澧楅敋缂併劑浜舵俊瀛樻媴缁涘缍婃俊顐ゅ閸垶鍩€椤戣法顦﹂柛娆忕箲缁鸿棄螖閸曨厹鍋掗梺鍝勫€归悷杈╂濮樿泛鐭楀┑鐘插€搁崸濠冾殽閻愬樊鍤熸繝鈧埄鍐跨矗婵鐗忕粈澶嬬箾閹寸姵鏆╂繛璇ф嫹547闂佸湱顣介崑鎾绘⒒閸曗晛鐏柣妤嬫嫹4婵炴垶鎸稿ú锝囩礊閹寸偟鈻旀い蹇撴礌閸嬫捇宕橀鍡楃厸闂佸吋婢橀崯顐㈢暦閵夛妇鈻旈柟鎹愬皺閻熷湱绱掓径瀣仼婵炶弓鍗虫俊瀛樻媴鐟欙絽浜鹃柛鎰典簽閸╋繝鏌涜箛锝呭闁告瑱绱曢幏鐘诲箻閸涱垳顦╅梺琛″亾闁圭ǹ绨肩粭澶愭煠閺勫繒绨挎い鏇樺灲瀵偊寮跺▎鎯уΤ闂佹寧绋戦ˇ顓㈠焵椤掑﹥瀚�40缂備礁顦粔宕囩箔閹惧鈻旀慨姗€纭搁弫瀣熆鐠団€充壕缂佽鲸鐟╅弻宀勫箣閿濆洠鍋撻搹瑙勫厹闁哄洨鍎戠槐婊堟煏閸℃洖绨籅A闂侀潧妫旂粈浣该瑰Δ鍛挃闁告侗鍘藉▍宀勬煕閺冩挾纾挎い銏＄缁旂喖顢曢悩顐壕濞达綀顫夐悡鈧梻鍌氬€介濠勬閸洖绠绘い鎾跺閺佸顭跨拠鈥充簴闁逞屽厸閼冲爼濡甸悙鏉戭嚤婵﹩鍏涚槐锝吤归敐鍡欑煂妞ゃ垺纰嶇粩鐔碱敃閵堝洦鎯ｉ梺鎸庣☉椤︻參鍩€椤掑﹥瀚�28缂備緡鍋夐褔骞冮幘鍓侀┏濠㈣泛饪撮崝鍛存煕閺冣偓缁嬫捇寮悽鍨厹闁哄洦姘ㄩ悷鈺佲槈閹炬潙鎼搁柍褜鍓ㄩ幏锟�1130缂備礁顦粔鍓佸垝閿熺姴绀傞柛娑橈攻濞堝矂鏌℃径瀣闁逞屽墾閹凤拷