Molecular Weight Distribution of Dissolved Organic Matter in Lake Hongfeng Determined by High Performance Size Exclusion Chromatography (HPSEC) With On-Line UV-Vis Absorbance and Fluorescence Detection

The molecular weight distribution (MWD) of dissolved organic matter (DOM) in lake waters from Lake Hongfeng was examined using high performance size exclusion chromatography (HPSEC) with UV-vis absorbance and fluorescence detection. The elution curves obtained by absorbance and fluorescence techniques expressed similar patterns, with the exception of diminishing of large fraction and the peaks behind several seconds in fluorescence chromatograms. According to its molecular weight (MW), DOM in water samples is divided into several fractions: large ({>3.5} kDa); medium-large ({3.5}-{2.0} kDa); medium ({2.0}-{1.0} kDa) and small ({<1.0} kDa). The average molecular weight was calculated using the elution curve detected by UV-vis absorbance and fluorescence detection techniques. The results showed that the weight-average molecular weight (Mw) and number-average molecular weight (Mn) calculated by UV-vis absorbance techniques range from 1750 to 2050 Dalton and from 1450 to 1850 Dalton, respectively. And the Mw and Mn obtained by fluorescence detection are lower by 50 to 400 Dalton. As a reference, the molecular weight of Fluka humic acid (FHA) is larger than that of water samples by about 200 Dalton. The average molecular weight of DOM for water samples collected in March and July was compared. The results revealed that the molecular weight is lower for water samples obtained in July than that obtained in March, indicating the ambient environment has an influence on the molecular weight, including photo-degradation and biological activity.

A review of physicochemical properties of dissolved organic carbon and its impact over mountain glaciers

Investigating the characteristics and transformation of water-soluble carbonaceous matter in the cryosphere regions is important for understanding biogeochemical process in the earth system.Water-soluble carbonaceous matter is a heterogeneous mixture of organic compounds that is soluble in aquatic environments.Despite its importance,we still lack systematic understanding for dissolved organic carbon(DOC)in several aspects including exact chemical composition and physical interactions with microorganisms,glacier meltwater.This review presents the chemical composition and physical properties of glacier DOC deposited through anthropogenic emission,terrestrial,and biogenic sources.We present the molecular composition of DOC and its effect over snow albedo and associated radiative forcings.Results indicate that DOC in snow/ice is made up of aromatic protein-like species,fulvic acid-like materials,and humic acid-like materials.Light-absorbing impurities in surface snow and glacier ice cause considerable albedo reduction and the associated radiative forcing is definitely positive.Water-soluble carbonaceous matter dominated the carbon transport in the high-altitude glacial area.Owing to prevailing global warming and projected increase in carbon emission,the glacial DOC is expected to release,which will have strong underlying impacts on cryosphere ecosystem.The results of this work have profound implications for better understanding the carbon cycle in high altitude cryosphere regions.A new compilation of globally distributed work is required,including large-scale measurements of glacial DOC over high-altitude cryosphere regions,to overcome and address the scientific challenges to constrain climate impacts of light-absorbing impurities related processes in Earth system and climate models.

Effect of Dissolved Organic Matter on Titanium Dioxide Nanoparticles in Aquatic Environment:Molecular Weight Fractions

At present,a growing number of consumer products contain engineered nanoparticle TiO2(nano⁃TiO2),which has resulted in the consequences of nano⁃TiO2 entering the aquatic environment directly or indirectly at some stage.The fate of nano⁃TiO2 in the aquatic environment has become the key factor which affects its safety application and nanoecotoxicology.This paper aims to investigate how the dissolved organic matters(DOM),especially the molecular weight fractions in the aquatic environment,affect the aggregation,stability,and fate of nano⁃TiO2,and the interaction mechanism of DOM and nano⁃TiO2.Results of dynamic light scattering(DLS)showed that the molecular weight of DOM molecules caused different aggregation rates of nano⁃TiO2 in aqueous solution.Fourier Transform infrared spectroscopy(FTIR)results indicated the molecular structure is characteristics of DOM fractions and the mechanisms of bonds formation between DOM and nano⁃TiO2.Results of three⁃dimensional excitation⁃emission matrices(3D⁃EEM)confirmed the FTIR results and implied the increase of the stability of theπ-πconjugated system in the presence of DOM.In addition,low molecular weight of DOM fractions appeared to show more affinity with nano⁃TiO2 than high molecular weight fractions.

Characteristics and distribution of low molecular weight organic acids in the sediment porewaters in Bosten Lake, China

The composition and vertical profiles of low molecular-weight organic acids （LMWOAs） and the contribution of them to dissolved organic matter （DOM） in sediment porewaters in Bosten Lake, Xinjiang, China were investigated. The results showed that total concentration of LMWOAs was up to 94.5 μmol/L and their proportion in DOM was 5.6%, suggesting that LMWOAs were important chemical components in DOM in lake sediment porewaters. Among the seven LMWOAs, pyruvic and acetic acid had the highest concentrations with 26.30 and 8.31 μmol/L, accounting for 51.4% and 14.92% of LMWOAs, respectively. Trifluoroacetic and sorbic acid had the lowest concentrations, indicating that the compositions of LMWOAs in relative reducing environments were largely different from those reported in glacier, atmosphere and soils. The concentrations of lactic, acetic, formic, sorbic and oxalic acid decreased with increasing depth, probably relating to stronger microbial activities in the initial stage of early diagenesis. Trifluoroacetic acid was mainly anthropogenic with its concentration, showing a diusive trend from the surface to bottom sediments. The concentrations of lactic acid and nitrate generally showed a consistent profile. The increasing concentration of pyruvic acid in the vertical profile was just opposite to that of sulfate, revealing a significant negative relationship between them. Oxalic acid remained constant except for an obvious peak at 6 cm depth. The results indicated the diversities in sources and behaviors for various LMWOAs during early diagenesis in sediments.

Characterization of dissolved organic matter fractions from Lake Hongfeng, Southwestern China Plateau

With XAD-series and ion exchange resins, dissolved organic matter （DOM） from Lake Hongfeng in Southwestern China Plateau was isolated into 6 fractions, i.e., humic acid （HA）, fulvic acid （FA）, hydrophobic neutrals （HON）, hydrophilic acids （HIA）, hydrophilic bases （HIB） and hydrophilic neutrals （HIN）. Those fractions were characterized by high performance size exclusion chromatography, fluorescence spectroscopy and UV absorbance. Among the 6 fractions, FA was predominant and accounted for 51% of the total DOM. The weight-average （Mw） and number-averaged （Mn） molecular weight of these fractions ranged from 1688 to 2355 Da and from 1338 to 1928 Da, respectively. A strong correlation was observed between specific UV absorbance at 280 nm, E2/E3 （absorbance at 250 nm to 365 nm）, and the molecular weight for DOM fractions. UV-Vis fulvic-like fluorescence peaks were found in all fractions. Proteinlike fluorescence peaks existed in HON may indicate that microbial activity was severely in Lake Hongfeng. There was a significant relationship between fluorescence intensities and specific UV absorbance at 254 nm for those DOM fractions, suggesting their similar luminescence characteristics. The values of fluorescence index （f450/500） indicated that hydrophobic fractions may derive from terrestrial sources, and the hydrophilic fractions from microbial and terrestrial origins. Those results suggest that there were inter-relationships between molecular weight, fluorescence and absorbance characteristics, and also subtle consistencies between the hydrophilic and hydrophobic properties and the sources for these 6 fractions from Lake Hongfeng.

Fluorescence characteristics of water soluble organic carbon in eastern China

Fluorescence excitation and average molecular weight of 46 water soluble organic matter (WSOC) samples extracted from 20 soil types in eastern China were determined. It was found all samples shared similar spectroscopy. A good linear relationship existed between total organic carbon and excitation in the range of 350 to 450 nm though the content of organic carbon and pH of the samples vary in a wide range. No significant correlation between relative excitation intensity and average molecular weight of WSOC and FA was found, but the partial correlation became significant with pH as the controlling factor for WSOC samples. The relative excitation intensity showed a general trend of increasing from south to north in the study area. The pH value might play an important role in regulating the fluorescent spatial variation of WSOC. S153 A

Compression Molded Ultra High Molecular Weight Polyethylene-Hydroxyapatite-Aluminum Oxide-Carbon Nanotube Hybrid Composites for Hard Tissue Replacement

Ultra high molecular weight polyethylene （UHMWPE） is widely used for articulating surfaces in total hip and knee replacements. In the present work, UHMWPE based polymer composites were synthesized by synergistic reinforcing of bioactive hydroxyapatite （HA）, bioinert aluminum oxide （Al2O3）, and carbon nanotubes （CNTs） using compression molding. Phase and microstructural analysis suggests retention of UHMWPE and reinforcing phases in the compression molded composites. Microstructural analysis elicited variation in densification due to the size effect of the reinforcing particles. The hybrid composites exhibited hardness, elastic modulus and toughness comparable to that of UHMWPE. The interfacial effect of reinforcement phases has evinced the effectiveness of Al2O3 over HA and CNT reinforcements, depicting synergistic enhancement in hardness and elastic modulus. Weak interfacial bonding of polymer matrix with HA and CNT requires utilization of coupling agents to achieve enhanced mechanical properties without deteriorating cytocompatible properties.

Relationship between fluorescence characteristics and molecular weight distribution of natural dissolved organic matter in Lake Hongfeng and Lake Baihua,China

Dissolved organic matter (DOM) is one of the most interesting and difficult problems in recent years due to its important functions in the ecological and environmental system and the complexity of its chemical composition and structure. It is well ac- cepted that fluorescence characteristics and mo- lecular weight distribution are two important pa- rameters in the DOM characterization. However, the relationship between them is still unknown. In this study, fluorescence and molecular weight distribution of DOM in Lake Hongfeng, Lake Baihua and their rivers, and their relationship were investigated using the combination of fluorescence spectroscopy and high-performance size exclusion chromatography (HPSEC) with on-line UV absorbance and fluores- cence detectors. The results show that there were two obvious humic-like fluorescence peaks (Peaks A and B) in DOM from lake water. But there was an- other obvious protein-like fluorescence peak (Peak C) in DOM from river water. The humic-like fluorescence material consisted of DOM fraction with smaller mo- lecular weight, ranging from 1.0 to 3.0 kDa, while the protein-like fluorescence material mainly consisted of DOM fraction with MW larger than 2.0 kDa. The cal- culation of MW using HPSEC was related to the UV absorbance wavelength chosen.

INVESTIGATIONS ON VINYLENE CARBONATE Ⅰ. PREPARATION AND PROPERTIES OF POLY-(VINYLENEC ARBONATE)

Bulk polymerization of vinylene carbonate using t-butylperoxypivalate at 40℃gave colourless, high molecular weight poly(vinylene carbonate) (PVCA). Solutions of PVCA in acetone and DMF are not stable at 25℃and this degradation was studied. From measurements in DMF with unfractionated PVCA a Mark-Houwink equation was obtained:

好氧堆肥污泥农用后溶解性有机质释放特征

研究污泥农用后溶解有机质(DOM)的释放特征,有助于评价和预测土壤中共存污染物的环境行为和效应。以河南省洛阳市某污泥处理厂好氧堆肥后的市政污泥作为样本,利用扫描电子显微镜(SEM)、总有机碳分析仪、紫外-可见吸收光谱(UV-Vis)、凝胶渗透色谱(GPC)、三维荧光光谱(3D-EEM)、傅里叶变换红外光谱(FTIR)和核磁共振波谱(NMR)等表征技术,研究污泥农用后释放DOM的浓度、分子量、组成和结构等性质的演变特征。结果表明,污泥还田60 d内,释放的DOM微观形貌上存在较大变化,由致密块状物变为不规则松散物质;污泥农用后释放溶解性有机碳(DOC)量在4.25~6.22 mg·g^(-1)污泥范围,呈现先上升后稳步下降的趋势;释放过程中,污泥DOM的分子量和芳香性等性质也存在显著的变化:污泥DOM重均分子量由0.5 d时2674 g·mol^(-1)的逐渐升高为60 d的129026 g·mol^(-1);污泥还田后释放的DOM分子中芳香性物质逐渐积累;3D-EEM结合平行因子分析(PARAFAC)模型分析污泥释放DOM中的荧光物质,发现DOM中荧光物质主要为类富里酸和类腐殖质,释放过程中,类腐殖质逐渐积累,DOM整体上呈现腐殖化趋势;FTIR图谱表征污泥DOM脂肪族烷烃类物质的减少和芳香烃物质生成。污泥还田后释放DOM数量和性质变化,显著改变土壤中共存污染物环境行为和生态效应。该研究可为评估和预测污泥农用后产生的环境影响提供理论依据,也对市政污泥的资源化利用具有一定指导意义。

新疆奎屯地区高砷地下水稳定碳同位素特征及其指示意义

地下水稳定碳同位素可以指示微生物作用下有机质降解过程对砷富集的影响.新疆奎屯地区是中国西北干旱区典型原生高砷水分布区,本研究以地下水为研究对象,奎屯河地表水为对照,通过野外采样,并借助原子荧光、稳定同位素分析等技术手段,对地下水的水化学指标、溶解性无机碳(DIC)、溶解性有机碳(DOC)和碳稳定同位素进行测定与分析.结果表明,研究区73%的地下水为高砷水,平均值为60.60μg·L^(-1),呈还原-弱碱性环境,地表水均为低砷水,呈中性和氧化环境.地下水中优势阴阳离子分别为Cl^(-)和Ca^(2+).地下水DIC受多种来源的共同影响,地表水DIC主要来自碳酸盐岩风化作用的影响.地下水δ^(13)C_(DIC)值的范围为-9.13‰—0.58‰,δ^(13)CDOC值的范围在-21.62‰—-13.79‰之间.地下水中除了微生物作用下有机质降解和碳酸盐岩溶解的影响外,还可能存在产甲烷过程对δ^(13)C_(DIC)值的影响.地下水中δ^(13)C_(DIC)-δ^(13)CDOC差值与ρ(As)、ρ(Fe)均呈显著负相关关系,表明微生物参与了铁氧化物的还原性溶解并促进了As的富集.

亚铁活化过硫酸盐体系对水体溶解性有机质分子转化的影响

亚铁活化过硫酸盐(PS/Fe^(2+))高级氧化是修复有机污染水体的常用技术,在修复过程中会诱导水体中溶解性有机质(DOM)分子结构转变。为研究PS/Fe^(2+)体系中DOM的分子转化特性,选取腐殖酸(HA)、富里酸(FA)和天然有机质(NOM)3种不同种类的DOM为研究对象,利用光谱和高分辨率质谱对比分析了PS/Fe^(2+)反应前后DOM的理化特性和分子结构特征。结果表明:①与热或碱活化PS体系相比,PS/Fe^(2+)反应后DOM芳香度、分子数和分子量显著下降。②反应后,DOM中残留了含C、H和O的木质素和单宁类物质,去除了O/C<0.6的低氧化程度分子,生成了富含氮和硫的高氧化程度分子。③PS/Fe^(2+)体系去除了DOM中的不饱和态分子(49.3%~94.0%),生成饱和态物质的数量、类型因DOM种类表现出明显差异。研究显示,PS/Fe^(2+)体系在自由基氧化与络合作用的共同介导下显著增加了DOM的分子转化程度,进而可能影响共存污染物的环境行为。

活性炭/超高分子量聚乙烯耐热性研究

为了提高超高分子量聚乙烯(UHMWPE)的耐热性,采用超级电容活性炭(微米级)对UHMWPE进行填充改性,制备活性炭/UHMWPE复合材料。通过热重(TG/DTG)测试和维卡软化点温度测试分析了复合体系的热性能;同时研究了活性炭含量对UHMWPE的电学性能、冲击性能、表面及摩擦系数的影响。结果表明:活性炭填充可使UHMWPE材料失重5%时的分解温度提高17.44℃,维卡软化点提高了约18℃;且活性炭对UHMWPE复合体系的抗静电性、冲击性能、表面均有比较明显的改善。

多次低剂量应用草酸促进芹菜减磷生产

针对蔬菜作物生长期一次性低剂量应用草酸土壤磷素活化作用时效短和一次性高剂量应用草酸风险较大的缺点,选用多次低剂量灌溉应用草酸的方法,以期持续、安全地活化设施菜地土壤盈余磷素,推动设施蔬菜减磷生产。选用速效磷含量分别为88.6和46.1mg·kg^(−1)的两个设施菜地土壤(分别简称土壤A和土壤B)开展室内浅层土壤(深度为1 cm)培养试验、无植物和种植芹菜的盆栽土壤(深度17 cm)温室试验,探究多次低剂量应用草酸活化土壤磷素及促进芹菜生产效果。土壤培养试验揭示多次低剂量灌溉应用草酸(每次草酸应用0.36 g·kg^(−1),共5次,每次间隔10 d)均可以持续、平稳地提高土壤A和土壤B的水溶性无机磷(DIP)的含量。无植物的盆栽土壤试验则显示在土壤A中多次低剂量灌溉应用草酸的土壤磷素活化作用集中在0~10 cm土层,特别是0~5 cm土层。盆栽芹菜试验多次应用草酸(芹菜定植30 d应用草酸4次,每次0、0.18或者0.36 g·kg^(−1),每次间隔10 d)的结果显示,土壤A和土壤B施磷分别减量70%和54%的前提下,两个草酸应用剂量均提高芹菜收获时两个土壤0~5 cm土层的DIP含量,在土壤A中增幅显著(分别为92.0%和165%),在土壤B中仅较高草酸剂量下显著增加64.5%;较高草酸剂量的芹菜增产效果不明显,较低草酸剂量的增产效果显著(20.0%~33.6%,P<0.05),在土壤B中更为明显。多次低剂量灌溉应用草酸在其它土壤-蔬菜系统中的效果及风险有待研究。

飞行保护头盔用复合材料结构吸收碰撞能量性能研究

针对碳纤维头盔和超高分子量聚乙烯(PE)头盔,采用坠落式冲击试验台和基于冲击加速度及头部损伤指数(HIC)评价方法,系统研究了材料种类、缓冲垫密度和服役环境温度对头盔吸收碰撞能量的影响。结果表明:随着缓冲垫密度的增加,两种头盔在低温(-20℃)条件下的冲击加速度幅值均表现出增加趋势,在常温(20℃)及高温(50℃)下,碳纤维和PE头盔壳体的冲击加速度幅值均表现出明显的降低趋势。升高温度有利于降低头盔的加速度幅值,对于80g/L和90g/L的缓冲垫,两种头盔的冲击加速度幅值随温度升高都表现出降低趋势。缓冲垫密度和温度显著影响头部损伤指数,随着温度从-20℃升高至50℃,PE头盔的头部损伤指数均表现出增加趋势,然而,碳纤维头盔在50℃表现出与常温和低温相反的趋势,即随着缓冲垫密度增加,其头部损伤指数逐渐降低,但PE头盔的头部损伤指数数值低于碳纤维头盔。两种材料在冲击载荷下的损伤形貌不同:PE头盔有明显的基体凹陷形变特征但均无裂纹形成,而碳纤维头盔均表现出明显的基体开裂及纤维断裂。碳纤维由于其高刚度,在冲击力大于破坏强度后容易产生裂纹,无法通过结构系统塑性形变吸收冲击能量,是导致其在不同缓冲垫密度和不同温度条件下,头部损伤指数以及加速度幅值均高于PE的主要原因。PE具有较高的缓冲作用和吸收冲击能量能力,因此,虽然均表现出较大基体凹陷,但均无裂纹形成,采用PE头盔,头部损伤指数和加速度幅值都低于同等条件下的碳纤维头盔。

Effect of different molecular weight organic components on the increase of microbial growth potential of secondary effluent by ozonation

Ozonation has been widely applied in advanced wastewater treatment. In this study, the effect of ozonation on assimilable organic carbon （AOC） levels in secondary effluents was investigated, and AOC variation of different molecular weight （MW） organic components was analyzed. Although the removal efflciencies were 47%-76% and 94%-100% for UV2s4 and color at ozone dosage of 10 mg/L, dissolved organic carbon （DOC） in secondary effluents was hardly removed by ozonation. The AOC levels increased by 70%-780% at an ozone dosage range of 1-10 mg/L. AOC increased significantly in the instantaneous ozone demand phase, and the increase in AOC was correlated to the decrease in UV254 during ozonation. The results of MW distribution showed that, ozonation led to the transformation of larger molecules into smaller ones, but the increase in low MW （〈1 kDa） fraction did not contribute much to AOC production. The change of high MW （〉100 kDa and 10-100 kDa） fractions itself during ozonation was the main reason for the increase of AOC levels. Furthermore, the oxidation of organic matters with high MWs （〉 100 kDa and 10-100 kDa） resulted in more AOC production than those with low MWs （1-10 kDa and 〈1 kDa）. The results indicated that removing large molecules in secondary effluents could limit the increase of AOC during ozonation.

Application of Fourier transform ion cyclotron resonance mass spectrometry in molecular characterization of dissolved organic matter

Dissolved organic matter(DOM)plays an important role in the global carbon cycle,and an in-depth analysis of its chemical composition is fundamental to the study of its environmental and biogeochemical behavior and significance.DOM is a complex mixture of organic substances,and determining its molecular composition is a long-standing challenge in the field of analytical chemistry.The development and application of Fourier transform ion cyclotron resonance mass spectrometry(FT-ICR MS)has enabled the identification of the chemical composition of DOM at the molecular level.This paper summarizes progress made in the molecular characterization of DOM based on the FT-ICR MS technique,including DOM sample pretreatment methods,mass spectrometry ionization techniques,data acquisition,data processing and presentation,and molecular structure characterization.Focusing on the work done by the instrument at the State Key Laboratory of Heavy Oil Processing in the China University of Petroleum,Beijing,we introduce applications of FT-ICR MS in the fields of earth science,environmental science and engineering,and look ahead to further research directions in the future.

蘑菇渣和稻秸堆肥中不同分子量水溶性有机物含量分布和光谱特征

分子量(MW)是影响堆肥溶解性有机物(DOM)化学性质和环境行为等的重要因素,目前关于堆肥DOM的MW分布等认识仍不清晰。以蘑菇渣堆肥(MRC)和水稻秸秆堆肥(RSC)中DOM为研究对象,采用超滤分级技术对堆肥DOM中不同MW组分进行分级定量和化学表征,进而探究不同堆肥DOM中MW组分的分布和光谱特征。DOC结果显示,MRC和RSC中DOM均以>10 kDa的高分子量(HMW)组分组成为主,分别富集有80%和71%的DOC(溶解性有机碳),而中等分子量(5~10 kDa,MMW)和低分子量(<5 kDa,LMW)组分分别占总DOC的12%~15%和9%~15%,表明HMW是决定腐熟堆肥DOM的化学组成和分子结构的关键物质。光谱特征参数(如SUVA_(254)、E_(2)/E_(3)和HIX)结果显示,不同MW的DOM的芳香化程度和腐殖化程度均呈现相同的趋势,即HMW>MMW>LMW;而BIX和FI值则呈现与之相反的分布规律。结果表明堆肥DOM中HMW(高分子组分)组分富集了较多的芳香环等不饱和共轭结构,而MMW和LMW组分具有更高的自生源贡献。三维荧光-平行因子分析结果显示,堆肥DOM及其MW组分主要由3种类腐殖质(C1—C3)和1种类蛋白质(C4)构成。其中,MRC和RSC中的HMW组分均以长波类腐殖酸(C3)组成为主,其含量分别占HMW组分总荧光强度的34%和85%;而两类堆肥中MMW和LMW组分则以类富里酸(C1,41%~53%)和短波类腐殖酸(C2,25%~36%)组成为主。红外光谱(FTIR)结果表明,堆肥DOM中HMW组分含有更多的疏水性苯环结构,而MMW和LMW组分则具有较多的亲水性含氧官能团(如羰基、羧基等)。研究结果促进了对堆肥DOM化学组成和分子结构的认识,为进一步评价堆肥腐熟和稳定化程度及其环境行为等提供了重要的数据参考。

碳中和背景下水体溶解有机质碳汇潜力解析的实验设计

该文将科技前沿和实验教学相结合,设计了水体DOM碳汇潜力解析探索型实验。该实验设计采集典型水体的DOM样品,开展生物降解培养实验,综合运用总有机碳分析仪、紫外-可见吸收光谱仪和分子荧光光谱仪,定量分析总体溶解有机碳(DOC)的生物可降解性,解析DOM中有色组分和不同类型荧光组分的降解转化特征。实验结果可用于环境DOM的碳汇潜力评估和机理解析。该实验有助于学生理解碳中和前沿科学理论,掌握现代仪器分析技术的原理、操作和数据处理分析方法,培养创新思维和实践能力。

超高分子质量聚乙烯生产全过程VOCs减排措施与效果分析

以某超高分子质量聚乙烯(UHMWPE)生产企业为例进行研究,对挥发性有机物(VOCs)产生和排放环节进行筛选,采用源头削减、过程控制、末端治理的全过程减排措施,通过2条生产线单位产品溶剂油消耗量、单位产品非甲烷总烃排放量等评价指标的对比,分析减排效果,可为同类企业开展减排工作提供参考。