食用油聚酯包装的生命周期评价

采用生命周期评价法研究了食用油聚酯(PET)包装的生命周期环境影响,并对不同处置方式的环境影响进行比较评价. 通过现场和资料调研的方式获得所有生命周期阶段的能量物质的输入、输出和环境外排数据. 结果表明:PET包装原料获取阶段的环境影响潜值在全生命周期环境影响潜值中所占比例极高,占处置前环境影响潜值的81.8%. PET包装的全生命周期环境影响类别主要集中在化石燃料、无机物对人体损害和气候变化3个方面;在致癌、生态毒性和酸化/富营养化等方面的影响较小. 3种主要处置方式的环境影响潜值为焚烧＞填埋＞再生,其中焚烧和填埋分别增加PET包装处置阶段前环境影响潜值的5.1%和3.6%,而再生可降低63.9%.      

生命周期评价在我国乙烯行业环境评估中的应用

采用IMPACT 2002+方法对我国的乙烯行业进行了生命周期评价(LCA)研究,分析了包括原油生产、原煤生产、原料生产、乙烯生产和电力生产5个环节在内的13种污染物排放对乙烯行业的环境影响.结果表明,乙烯工业对不可再生能源原油的消耗,对温室效应、呼吸效应和水体酸化等的环境影响潜值最为严重.减少乙烯生产环节和原料生产环节(炼油过程)的SO2、NOx、CO2等气体的排放,以及原油开采过程的CH4逸放,是改善环境影响的关键因素.同时,以石脑油为原料裂解乙烯工艺比以轻烃为原料制乙烯工艺对环境的影响要小.而煤制烯烃工艺对环境影响较大,仍具有一定改进空间.总体来看,经过近十年发展,我国乙烯行业对资源利用效率和缓解尾气排放两方面都有显著的提升.     

A comparative study on milk packaging using life cycle assessment: from PA-PE-Al laminate and polyethylene in China

A Life Cycle Assessment (LCA) approach was used to compare the environmental impacts in the life cycle of two milk packaging systems, PA-PE-Al laminate—a laminated foil made from paper, polyethylene and aluminum foil—and polyethylene. The data for the mass, energy fluxes and environmental emissions were obtained from published literature and from site investigations, for the two systems being analyzed for environmental impacts. The application of LCA using Eco-Indicator 99 has made the comparison of the environmental impacts of the two milk packages possible. The results of this LCA study are discussed and the results reveal that the composite packaging has a slightly higher environmental impact than the plastic one. In addition, the environmental impact of raw material extraction is the highest in all of the life cycle stages except for disposal. The environmental impact of composite packaging mainly comes from the fossil fuels, land use and respiratory inorganics categories, while the plastic packaging mainly comes from the fossil fuels category. However, the composite packaging has a greater environmental impact because it has not been well recycled and reused. This environmental impact could be decreased by developing the technology to separate out polyethylene and aluminum from the packaging.     

北京市衍生燃料法处置低品质塑料包装的环境影响

采用生命周期评价法对北京市2种衍生燃料(RDF)法处置低品质塑料包装废物的环境影响进行评价,并与填埋和焚烧处置进行比较. 通过现场及资料调研获得所有生命周期阶段的能量物质输入、输出和环境外排数据. 发电量计算是通过实地调查生活垃圾中低品质塑料包装废物组成特性,用氧弹式量热计测定各组分热值后折算成单位热值,再与北京市生活垃圾焚烧厂G单位热值生活垃圾发电量的调研结果类比,得出其对应的发电量. 结果表明:低品质塑料包装废物的4种处置方式环境影响潜值为直接作为RDF焚烧发电<干燥热压RDF焚烧发电<焚烧<填埋,这4种处置方式的环境影响潜值分别为－0.064 9,0.009 0,0.024 1和0.152 8 Pt. 直接作为RDF处置方式的环境影响主要集中在无机物对健康损害方面;干燥热压RDF处置的环境影响主要集中在无机物对健康损害和化石燃料方面;焚烧和填埋的环境影响主要集中在气候变化和致癌方面.      

LCA of comprehensive pig manure management incorporating integrated technology systems

Increased and intensified pig production has raised the needs for proper management systems of pig manure in order to reduce negative environmental impacts. The objectives of this study were to identify the most significant environmental impacts from pig manure management considering a wide range of impact categories and to determine which integrated technology system at which handling stage can achieve the highest impact reduction. Twelve scenarios applying various treatment, storage and land application systems were developed and compared. Life cycle assessment (LCA) with the aim of capturing the actual consequences of the considered scenarios was selected as the tool for impact quantification. The most important impact categories in this investigation are global warming (GWP), aquatic eutrophication (AEP), respiratory inorganics (RIP), and terrestrial eutrophication (TEP). The two latter impacts, caused by ammonia emissions, have not been widely considered in most of previous LCA studies on pig manure management. The main keys for the effective impact reduction are the integration of treatment technology systems aiming at energy recovery with high nutrient recovery and control of greenhouse gas, ammonia, and nitrate emissions at every handling stage. For GWP and AEP, the anaerobic digestion-based scenario with natural crust storage achieves the highest impact reduction because of high efficiencies in energy and nutrient recovery with restricted emissions of GHG and nitrate. For RIP and TEP, the incineration and thermal gasification based scenarios and the scenario without a treatment system applying the deep injection method yield the highest impact minimisation due to the lowest ammonia emissions. This study further indicates the need to consider all significant impacts to decide the best management options taking into consideration local conditions.     

纸塑铝复合包装处置方式的生命周期评价

采用生命周期评价(LCA)法研究了纸塑铝复合包装的全生命周期环境影响,并在处置阶段对不同处置方式的环境影响进行评价. 通过现场和资料调研的方式,获得所有生命周期阶段能量物质的输入/输出和环境外排数据. 结果表明:纸塑铝复合包装生命周期阶段中环境影响比重最大的是原料获取阶段,占75%以上. 纸塑铝复合包装的全生命周期环境影响主要集中在化石燃料、土地占用和无机物对人体损害3个方面,在矿产资源、气候变化、酸化富营养化和生态毒性方面影响稍小. 3种处置方式对环境影响由大到小依次为填埋＞焚烧＞再生,其中填埋和焚烧处置分别比纸塑铝复合包装处置阶段前的环境影响增加11%和7%,再生可降低23%,而进一步降低环境影响的方式为发展铝塑分离技术.      

Leaching of styrene and other aromatic compounds in drinking water from PS bottles

Bottled water may not be safer, or healthier, than tap water. The present studies have proved that styrene and some other aromatic compounds leach continuously from polystyrene （PS） bottles used locally for packaging. Water sapmles in contact with PS were extracted by a preconcentration technique called as ＂purge and trap＂ and analysed by gas chromatograph-mass spectrometer （GC/MS）. Eleven aromatic compounds were identified in these studies. Maximum concentration of styrene in PS bottles was 29.5 μg/L. Apart from styrene, ethyl benzene, toluene and benzene were also quantified but their concentrations were much less than WHO guide line values. All other compounds were in traces. Quality of plastic and storage time were the major factor in leaching of styrene. Concentration of styrene was increased to 69.53 μg/L after one-year storage. In Styrofoam and PS cups studies, hot water was found to be contaminated with styrene and other aromatic compounds. It was observed that temperature played a major role in the leaching of styrene monomer from Styrofoam cups. Paper cups were found to be safe for hot drinks.     

Environmental life-cycle impacts of CRT and LCD desktop computer displays

Final impact results from an industry-wide environmental life-cycle assessment of cathode ray tube (CRT) and liquid crystal display (LCD) computer monitors are presented for 20 environmental impact categories. Considering the entire life cycle of each monitor, water eutrophication and aquatic ecotoxicity impacts for the baseline analysis were greater for the LCD while all other impact categories (e.g., resource use, energy, ozone depletion, landfill space use, human health toxicity) were greater for the CRT. Energy inputs from CRT glass manufacturing, for which there was some uncertainty in the data, drive many of the CRT impacts. Modifying the glass energy data based on comparison to secondary data resulted in nine of the 20 impact categories having greater relative life-cycle impacts for the LCD than the CRT. When comparing the manufacturing stages of each monitor type in the baseline scenario, the LCD has greater relative burdens on the environment in eight categories. Energy, global warming, and human health toxicity impacts are also presented in greater detail, showing contributions from each life-cycle stage. This study's results can allow industry to focus on frit manufacturing, PWB manufacturingimprovements can be made.     

改性玉米秸秆材料的制备及吸油性能的研究

以粉末状玉米秸秆(Raw corn stalks,RCS)为基体,甲基丙烯酸丁酯和苯乙烯为单体,采用悬浮聚合法制备高吸油复合材料(Butylmethacrylate and styrene grafted corn stalks,BMS-CS).实验确定的最佳制备条件为:在50℃,引发剂硝酸铈铵为2.0mmol·L-1,单体甲基丙烯酸丁酯和苯乙烯浓度分别为0.6mol·L-1、0.012mol·L-1,交联剂N,N’-亚甲基双丙烯酰胺质量分数为0.1%(相对于RCS的质量)的前提下反应25h.同时,实验考察了吸附时间、吸附温度及保油时间等对材料吸油性能的影响,并通过傅里叶变换红外光谱仪、X-射线衍射和扫描电镜对改性前后样品的结构进行表征.结果表明,BMS-CS表面变得粗糙且呈毛刺状,具有较多不规则的褶皱;结晶度的下降也印证了粗糙度的增加;红外图谱中新出现的酯基和苯乙烯基的吸收峰说明亲油单体被接枝到RCS表面;两种原因共同促进了改性材料吸油性能的增加.吸油数据显示,常温下RCS和BMS-CS的吸油量分别为5.23g·g-1和20.12g·g-1,后者是前者的3.85倍,即改性后的材料吸油性能明显增加.     

基于LCA的聚乳酸快递包装环境友好性评价

以聚乳酸快递包装为研究对象,运用生命周期评价（LCA）方法对聚乳酸快递包装的原料获取、加工、使用及5种处置情景的环境影响进行比较,并采用累积能源需求（CED）方法对能源消耗情况进行分析.功能单位（1000个规模为25×35cm的聚乳酸快递袋,918kg）快递袋原材料获取、加工及使用阶段的环境影响潜能值分别为1.09×10^-9、5.64×10^-10、1.24×10^-10.海洋水生态毒性是聚乳酸快递袋环境影响的主要类型,占77%;非生物资源耗竭潜能值、人类毒性次之,分别占9%和6%.能源消耗主要类型为不可再生能源,占总能源消耗的89%,其中,快递袋使用阶段为主要贡献阶段,占比为91%.处理阶段5种处置情景中情景Ⅴ（焚烧47%,填埋13%,回收40%）对环境最为友好,通过增加焚烧和回收处置的比例,减少填埋比例对环境有着更为积极的影响.     

基于LCA的聚乳酸快递包装环境友好性评价

以聚乳酸快递包装为研究对象,运用生命周期评价（LCA）方法对聚乳酸快递包装的原料获取、加工、使用及5种处置情景的环境影响进行比较,并采用累积能源需求（CED）方法对能源消耗情况进行分析.功能单位（1000个规模为25×35cm的聚乳酸快递袋,918kg）快递袋原材料获取、加工及使用阶段的环境影响潜能值分别为1.09×10^-9、5.64×10^-10、1.24×10^-10.海洋水生态毒性是聚乳酸快递袋环境影响的主要类型,占77%;非生物资源耗竭潜能值、人类毒性次之,分别占9%和6%.能源消耗主要类型为不可再生能源,占总能源消耗的89%,其中,快递袋使用阶段为主要贡献阶段,占比为91%.处理阶段5种处置情景中情景Ⅴ（焚烧47%,填埋13%,回收40%）对环境最为友好,通过增加焚烧和回收处置的比例,减少填埋比例对环境有着更为积极的影响.     

Application of life cycle assessment to the Portuguese pulp and paper industry

In this paper, the Life Cycle Assessment (LCA) methodology is applied to Portuguese printing and writing paper in order to compare the environmental impact of the use of two kinds of fuels (heavy fuel oil and natural gas) in the pulp and paper production processes. The results of inventory analysis and impact assessment show that the pulp and paper production processes play an important role in almost all of the analysed parameters, which do not always result in an important contribution to the corresponding impact categories. The substitution of heavy fuel oil by natural gas in the pulp and paper production processes seems to be environmentally positive.     

典型水环境因素对聚酯微塑料沉降的影响机制研究

以聚酯（聚对苯二甲酸乙二醇酯,简称PET）微塑料为主要对象,研究电解质浓度,电解质类型及pH值等典型水环境因素对其沉降行为的影响机制.结果表明：水环境中PET微塑料的沉降随电解质浓度的升高而不断增强,其悬液标准化浓度（C/C₀）最低可降至0.64;同一类型电解质对水环境中PET微塑料沉降行为的影响程度相似,而与1-1型电解质（NaCl及KCl）相比,水环境中1-2型电解质（CaCl₂及MgCl₂）的存在能够显著促进PET微塑料的沉降;水环境中PET微塑料的沉降随pH值的增加而降低,随着pH值由10降至4,PET微塑料悬液的C/C₀由最高0.98下降至最高0.76.一阶动力学沉降模型能够较好的拟合水环境中PET微塑料的沉降行为.此外,DLVO （Derjaguin-Landau-Verwey-Overbeek）理论能够反映出PET微塑料沉降行为的变化趋势,其计算结果与实验结果吻合度较高.本研究结果有助于提高对微塑料环境行为的认识程度,同时能够为评估微塑料环境风险提供理论依据.     

水泥窑共处置低品质包装废物的生命周期评价

以低品质包装废物为典型固体废物开展水泥窑共处置试烧试验. 以生命周期评价(LCA)方法为研究手段,对水泥窑共处置技术的环境影响进行评价,并且与常规水泥熟料生产过程进行比较. 通过试验和资料调研,获得所有生命周期阶段的能量和物质输入、输出以及环境外排数据,利用SimaPro7.1软件进行处理,得出相应的环境影响潜值. 结果表明:①在水泥熟料生产的全生命周期过程中,对环境影响所占比重最大的是生产阶段,共处置低品质包装废物可以使环境影响潜值降低10.65%（从263 Pt降至235 Pt）,主要表现在无机物对人体的损害和酸化/富营养化方面. ②从全生命周期来看,共处置低品质包装废物使环境影响潜值降低了8.68%（从334 Pt降至305 Pt）,主要表现在无机物对人体的损害和酸化/富营养化方面的降低,二者的环境影响潜值分别降低了11.00%和15.70%.      

废聚酯醇解条件的研究

研究了废PET(聚对苯二甲酸乙二醇酯)的醇解条件对产物的羟值及平均分子量的影响,表明在196～198℃时,m(乙二醇) m(PET)=2,催化剂醋酸锌用量为PET质量的1%,醇解3～3 5h,聚酯PET降解很彻底,产物羟值(以KOH计)可达368mg g以上,平均分子量在305以下,主要成分是对苯二甲酸二乙二醇酯(BHET)单体及其低聚物。DSC和IR验证了产物的组成。      

Additional steps in mechanical recyling of PET

This study presents the laboratory scale results of an extra step in Poly (ethylene terephthalate) – PET mechanical recycling (grinding, washing, drying and reprocessing): a chemical washing after the conventional one. Cooking oil PET bottle flakes were washed in water and then subjected to a reaction with an aqueous solution of sodium hydroxide 5 M at 90 °C for 10 min (chemical washing). After rinsing and drying, the flakes were characterized by thermogravimetry, gas chromatography and elemental analysis tests. The results indicated that the chemically washed material had higher purity than PET washed only with water: 99.3% and 96.7%, respectively, which undoubtedly implies properties, applications and prices closer to those of virgin resin. The production of purified terephthalic acid (TPA) from the chemical washing residue was optimized and reached a purity of 99.6%. Despite the results, the use of chemically washed PET and of TPA obtained is not recommended for direct contact with food, since they still contain some impurities.     

石油类污染物淡水短期水质基准研究及其对我国标准修订的意义

环境管理、应急处置和水质标准修订工作亟需石油类污染物淡水水质基准研究作为支撑. 本文筛选整理了大量本土物种毒性数据,利用SSD (物种敏感度分布法)和TPR (毒性百分数排序法)分析了5种典型石油类污染物(原油、苯、甲苯、乙苯和二甲苯)的淡水水生生物急性毒理数据,获得了保护我国淡水水生生物的短期水质基准值. 通过综合对比分析,认为利用SSD获得的基准值可作为石油类污染物的短期水质基准推荐阈值,原油和BTEX(苯系物,包括苯、甲苯、乙苯、二甲苯)的短期水质基准值分别为0.065、2.000、2.340、1.295和1.595 mg/L. 结果表明:①原油的毒性远大于BTEX,这可能是由于毒性的联合作用使得石油的毒性变强. ② 绿水螅对原油最敏感,原因可能是水螅更容易通过摄食或直接摄取获得原油WAF(水溶性组分)的有毒成分;鱼类相较于其他物种对苯更为敏感,而对其他BTEX而言,最敏感物种为节肢动物,原因可能是鱼类和节肢动物器官分化程度以及试验时的龄期选择存在差异,鱼类更易在短时间内将苯代谢为有毒的代谢产物. ③ 不同BTEX的敏感物种虽存在一定差异,但基准值未有数量级的差异. 研究显示,我国现行地表水环境质量标准中石油类标准未单独针对保护水生生物制定,BTEX标准的保护目标是基于人体健康而非水生生物,研究结果对我国石油类污染物环境管理、突发油类污染物对水生生物的危害及风险评估以及淡水水生生物特别是本土物种保护的水质标准制修订工作具有重要的借鉴作用.      

分层湖库温跃层溶解氧极值现象研究进展

分层湖库温跃层溶解氧(DO)极值现象包括温跃层DO极小(metalimnetic oxygen minimum, MOM)和温跃层DO极大(metalimnetic oxygen maximum)两类. 本文通过系统调研国内外文献,详细梳理了两类极值现象的研究历程、形成原因、研究方法,及其对生态环境造成的影响,比较分析了两类极值现象的异同. 结果表明:①成因方面. MOM的主要成因为浮游生物呼吸耗氧、有机物分解耗氧、边坡沉积物耗氧、DO垂向输移等自然因素,以及温跃层或温跃层下部取水、混合层或滞温层人工增氧等人为因素;温跃层DO极大现象的主要成因为浮游植物的生物作用. ②研究方法方面. 两类现象的研究方法主要为试验方法和模型方法. ③对生态环境的影响方面. MOM会降低捕食者的捕食效率、阻碍水生生物垂向迁移、改变温室气体的垂向分布和释放过程等;温跃层DO极大现象会导致鱼类等水生动物患气泡病甚至死亡. 基于当前研究进展,认为未来研究方法上应强化三维水动力-生物地球化学耦合数学模型的应用,研究内容上应进一步从多维度(垂向和水平)研究分层湖库DO的动力学过程,探究气候变化、极端天气、复合型极端气候事件对DO分层结构变化的影响.      

生物技术处理冀东油田含油土壤

实验采用生物技术处理冀东油田含油土壤。采用加菌、加水、增加土壤孔隙度等措施,处理从1998年5月4日到11月3日,历程183 d。土壤原油浓度从85 g/kg下降到16 g/kg,降解率为81.6%,7块试验田原油日平均降解速率为0.15～0.49 g/(kg.d),加降解菌、加水、增加土壤孔隙度等措施均采取的降解效果最好。土壤的油降解率与土壤细菌的呼吸强度有一定正相关,淋滤的部分相对较少。      

Environmental performance comparison of wet and thermal routes for phosphate fertilizer production using LCA – A Brazilian experience

Life cycle assessment (LCA) was applied to perform an environmental comparison between the phosphate fertilizers fused magnesium phosphate (FMP) and triple superphosphate (TSP). In order to perform the comparison a functional unit (FU) of 41.66 kg P₂O₅, which corresponds to 208 kg FMP (20% P₂O₅) and 93 kg TSP (45% P₂O₅) was defined. Concerning the product systems a “cradle to gate” approach was used in both cases. In order to perform the life cycle impact assessment (LCIA) the impact categories: global warming potential (GWP), ozone depletion potential (ODP), human toxicity potential (HTP), fresh water aquatic ecotoxicity potential (FWAETP), acidification potential (AP) and eutrophication potential (EP) were selected. The development of this step was accomplished using CML 2 baseline 2000 method, with the help of the computational tool SimaPro 5, version 5.1.0.21. The study identified that in the case of FMP, the extensive electricity dependence is the main source of potential negative environmental impacts. On the other hand, for the TSP, the great distances between the phosphate rock mines and the main manufacture centers for both H₃PO₄ and TSP together with the transportation model adopted in this country appear as the main causes of environmental impacts.