多晶硅光伏组件生产可持续性评价

分别采用了全生命周期评价软件、全生命周期成本法、社会性指数评价法,对我国多晶硅光伏组件生产阶段的环境影响、经济性和社会性影响进行了定量评估.结果表明:多晶硅生产、多晶硅电池片生产、电池组装3个阶段的环境影响相对较大,其中多晶硅生产阶段对气候变化的贡献率在50%以上.经济成本分析显示,原料和劳动力的成本占总成本的70%以上.多晶硅电池片生产阶段的成本在光伏组件生产过程的5个阶段中所占的比重最大.社会性影响分析结果显示,在光伏组件生产中,劳动岗位增加的贡献指数值为0.72,劳动力就业贡献较大,而生产能力提高的贡献指数值仅为0.18,显示生产能力提高的贡献较小.研究显示,为提高多晶硅光伏组件的可持续性,在生产过程中需寻找清洁能源、寻找环保替代材料以降低环境影响;积极鼓励支持企业进行技术研发创新,着力提高电池转换效率以降低生产成本;通过市场良性竞争提高多晶硅光伏行业的社会贡献.      

生命周期方法在天然气基汽车燃料评价中的运用

运用生命周期评价方法,对以天然气为原料生产压缩天然气、甲醇、二甲醚、柴油4种汽车代用燃料系统进行生命周期的能源、环境和经济评价,评价结果是：压缩天然气系统生命周期内的能耗相对少,总成本相对低,对生态环境更友好,压缩天然气是富含天然气地区一段时期内汽车代用燃料的优先选择．     

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.     

制造企业生产过程环境影响评估系统研究

制造企业生产过程环境影响评估系统是对产品车间生产过程绿色性进行评估的系统,通过分析产品在生产过程各阶段以及整体的资源消耗和环境排放情况,来评定产品的生产制造过程是否符合绿色制造要求,以及应该在哪些方面进行改进,它是绿色生产过程得以实现的关键之一。研究制造企业生产过程环境影响评估系统的结构,基于生命周期评价(LCA)及生态指数Eco-indicators99方法建立环境影响评估模型,探讨生产过程环境影响评估的理论及方法,最后通过在车间中电弧焊接过程为实例分析验证了评价模型的可行性。     

基于生命周期评价的船舶环境影响行为研究

运用目前环境管理的一种有效工具——生命周期评价方法（LCA）,探讨船舶在其生命周期内对环境的影响行为。结果表明：船舶生命周期内对环境的影响主要是光化学烟雾,其次是酸化和全球变暖;而在船舶生命周期各个阶段中,营运阶段对各环境类型的贡献最大,原材料制造阶段、运输阶段和船舶制造阶段对环境影响较小。     

华北高产粮区夏玉米生命周期环境影响评价

以山东省桓台县夏玉米生产体系为例,应用生命周期评价方法,以单位产量为评价功能单元,把夏玉米生命周期分为原料开采与运输、农资生产与运输、作物种植3个生产阶段,对不同施氮水平下夏玉米生命周期的资源消耗与污染物排放进行了清单分析和影响评价.结果表明,随着施氮量的增加,夏玉米生命周期环境影响呈指数上升趋势,其中,主要影响类型为水资源耗竭,这与农作物需水量较大、水分生产率较低有关.在低氮量条件下,主要污染影响类型是全球变暖,随着施氮量的增加,富营养化上升为主要污染影响类型.提高作物种植阶段水肥利用效率是控制夏玉米生命周期环境影响的关键,它可减少夏玉米对水资源和氮肥的需求,从而直接减少农田氮素损失污染影响,也间接降低了上游生产环节的资源消耗与污染物排放影响,进而有助于降低夏玉米生命周期环境影响总潜力.     

Environmental evaluation of new technology: printed electronics case study

The environmental evaluation of new technology faces many challenges, but at the same time it is an opportunity to take proactive measures to prevent possible negative effects on the environment. Examination of environmental issues using the life cycle approach should form an integrated part of comprehensive technology and product development. The aim of this study was to assess the environmental issues related to a rising technology, printed electronics. Printing is an additive process, having no need for extra material and corrosive chemicals. On the basis of an evaluation made for a prototype product, i.e. a wristband, it was observed that more information on the new materials and further optimization of the process are required before electronics printing can be claimed to be environmentally friendly.     

以晶体硅太阳能电池产业为例的产业生命周期评价初探

面对日益复杂的环境问题和精细化环境管理需求,为了将生命周期评价在产业结构调整、发展方式转变中更好地发挥作用,对在产业层面开展生命周期评价的方法进行了探索研究.产业生命周期评价是在产品生命周期评价的基础上增加了:①基于“可拆解可组合”生态设计理念的功能单位和系统边界确定;②质量评估和数据整合的数据收集过程;③以不确定性分析来验证数据的合理性.选择晶体硅太阳能电池产业进行了产业生命周期评价的案例应用.结果表明:晶体硅太阳能电池产业可分为4个产品单元和11个工艺单元.基于上述产品单元和工艺单元的资源能源投入和污染物排放数据进行收集,在数据质量评估之后通过数据整合形成了产业生命周期数据清单.产业生命周期环境影响主要集中在呼吸系统影响（41.94%）、化石燃料（25.20%）、致癌（14.89%）和气候变化（8.80%）4个环境影响类别;减少环境影响的精准化途径是减少高纯多晶硅、硅片、电池片产品的电耗,组件产品中焊带消耗,硅片产品中的砂浆消耗和组件产品的铝合金边框消耗.蒙特卡洛分析结果显示,高纯多晶硅生命周期评价结果不确定性较高,与数据质量评估的结果较为一致.案例应用结果说明,产品生命周期评价可将生命周期评价从产品层面提升到产业层面,可为国家产业发展提供科学支撑.      

Development and environmental improvements of plastics for hydrophilic catheters in medical care: an environmental evaluation

Single-use medical devices have been under close scrutiny for several years, especially the choice of plastic materials. Many different requirements such as medical safety, treatment functionality and efficiency, environmental performance, etc. have to be fulfilled. Today, the most commonly used materials for hydrophilic urinary catheters are polyvinylchloride (PVC) and thermoplastic polyurethane (TPU). In this research study, these two materials' environmental performance was evaluated. In light of the knowledge gained in that study a new plastic material for use in urinary catheters was developed. The aim of the development of this new material was to design a high performance material with superior environmental performance. The newly developed plastic material is a polyolefin-based elastomer. The ecological environmental performance of the new material was evaluated and compared to the existing plastic materials. The study focused exclusively on the choice of plastic materials and their ecological environmental performance.The analysis has been performed using a system perspective and a life cycle assessment (LCA) methodology. The functional unit has been set to the treatment of one patient during one year. The results from the LCA models have been presented both in terms of direct inventory data, such as energy use and formed emissions, and in terms of the results from four different impact assessment methods. Analysis of the results based on direct inventory data, i.e. common inventory results such as energy resource uses and emissions of CO₂, NO_x and SO₂ show an overall better environmental performance for the new polyolefin-based elastomer compared to the existing PVC and TPU plastic materials. The normalization and weighting steps in the analyzes have indicated the importance of energy resource uses and global warming as indicator for the environmental performance even if other impact categories also can play a role. In the environmental impact assessment, the polyolefin-based elastomer showed a clearly better environmental performance than the TPU material. Compared to PVC plastic material the new polyolefin-based elastomer showed an almost equivalent environmental performance. This can be mainly explained by the different materials' energy use. The new material has thus also shown to be an environmentally good alternative to PVC if a PVC-free material is requested. Basing the plastic formula, on simple bulk plastics with low energy use in the production of single-use medical devices, has been shown to be a successful method of producing high quality products with superior environmental performance.     

Model-based topology analysis for environmentally conscious power plant operation

Plant operation is tightly linked with plant topology. Each operation task is executed in one or more structure units, which might be associated with negative environmental impacts. In order to design and manage environmentally conscious plant operation it is essential to provide systematic mechanism to model plant topology with respect to environmental measures. The selection of plant topology to perform certain operation requires understanding and evaluation of life cycle activities. In this research, model-based topology analysis is proposed and used to evaluate different operation scenarios in view of life cycle assessment and applied on a case study thermal power plant.     

Integration of environmental aspects in product development: a stepwise procedure based on quantitative life cycle assessment

Significant environmental improvements can often be achieved by integrating environmental properties as an optimisation parameter in product development together with more traditional values such as production costs, functionality, aesthetics etc. This paper presents a professional method intended for managers based on quantitative life cycle assessment to identify environmental ‘hot spots’ in a reference product's life cycle and to select new environmentally optimised solutions for a new product. The paper takes its starting point in traditional procedures for product development (idea, analysis, goal definition, concept development and detail development) and shows step by step how the environmental properties of the new product can be optimised and thus contribute to the overall competitiveness of the new product.     

磷酸铁锂电池不同应用场景的生命周期评价

为评估磷酸铁锂(LFP)电池梯次应用的生命周期环境影响,设定直接应用和梯次应用2个应用场景,采用生命周期评价(LCA)方法,对应用场景生命周期各阶段的环境影响及其贡献进行分析.功能单位设定为应用总容量1GWh的LFP电池作为通讯基站(CBS)储能电池,循环寿命为800次.结果表明,2个应用场景的环境影响热点均为储能应用...     

Normative ethics and methodology for life cycle assessment

Prospective life cycle assessment (LCA) provides information on the environmental consequences of individual actions. Retrospective LCA provides information about the environmental properties of the life cycle investigated and of its subsystems. In this paper we analyse the links between the choice of methodology and different theories of normative moral philosophy. The choice of electricity data in an LCA of a conference site with local hydropower production is discussed as an illustration. The two types of LCA can be related to different theories on the characteristics of a good action. Each type of LCA, as well as each of the moral theories, can be criticised from the alternative point of departure. Decisions based on retrospective LCA can have environmentally undesirable consequences. On the other hand, prospective LCA can appear unfair and result in environmentally sub-optimised systems. Both types of LCA also have methodological limitations. We cannot conclude that one type is superior to the other, but the choice of methodology should be consistent with the information sought in the LCA.     

基于GaBi软件的钢材生命周期评价

基于生命周期评价方法,采用GaBi4．3软件分析了生产1kg普通钢材过程中的物料消耗、能源消耗以及时环境的排放,并利用软件提供的CML2001方法评价了生产过程中造成的环境影响。分析结果表明：能源消耗是造成环境影响的主要因素;水循环利用率低造成大量淡水资源浪费;生产过程中产生的主要环境影响为温室效应和环境酸化。     

Environmental impacts of disposable cups with special focus on the effect of material choices and end of life

Life cycle thinking is emphasised in EU policies and legislation. All products have environmental impacts during their production, use and disposal. It is important to ensure that environmental impacts are considered throughout the life-cycle and it will be more and more important for the industry to understand the meaning of the life cycle thinking and to adopt it.The environmental impacts of an industrial disposable cup concept were studied with help of life-cycle assessment method. The objective of the study was to create new knowledge about the life cycle effects of the carton based cup concept. The scope of the study was to compare the effects of material choices and different end-of-life scenarios. The paper focuses on the global warming potential of the cup concept. The carton based products were covered either with polyethene or polylactide. In addition, the environmental impacts of the carton-based cups were compared to the estimated environmental impacts of polymer-based cups. The polymer based cups were made of polyethylene terephthalate. The paper shows that significant improvements can be achieved with help of the choice of materials and optimal end of life.     

瓦楞纸箱全生命周期环境影响评价研究

分析了瓦楞纸箱从原材料生产、产品加工到使用后的废物处置整个全生命周期的物耗、能耗及向环境中的排放;根据ISO14040系列标准制定的技术框架,建立了全生命周期评价(Life Cycle Assessment,LCA)模型,采用Eco-indicator 99方法,对瓦楞纸箱进行了整体和基于流程的全生命周期环境影响分析,得出其全生命周期和原料生产、产品加工、废物管理3个流程的主要环境影响类型和对应指标值,以及造成各流程主要环境影响类型的原因.为改善瓦楞纸箱的环境性能,针对其设计、生产加工、使用、废物处理等方面提出了改进建议;并对全生命周期环境影响评价研究中存在的不足进行了总结.      

Results of the first adapted design for sustainability project in a South Pacific small island developing state: Fiji

With high population densities concentrated in predominately coastal zones, the South Pacific will, in this century, be heavily impacted by global temperature and sea level rises. Small island developing states do have a number of unique problems, namely, small scale economic development together with environmental sustainability. This paper presents the lessons learnt from the implementation of the first cleaner production and design initiative project conducted in a Pacific small island developing state(s) (SIDS) using the design for sustainability (D4S) methodology. The final product was analysed using the life cycle assessment (LCA) method. Implemented within a medium-sized enterprise operating in Fiji, the Cook Islands, and Samoa, the project focused on improving an existing product and its associated life cycle to make it more environmentally friendly to manufacture, retail, and dispose of. The project outcomes revealed that D4S provides a suitable tool for a country like Fiji to pursue more intensively an eco-friendly manufacturing agenda. However, when combined with LCA, the qualitative nature of D4S shows that not all solutions produce the best overall result. Specifically, the “improved” design, whilst being less impactful on Fiji in terms of disposal, has a higher impact globally due to the production and manufacture of the new materials used. For this reason designers need to address the impact criteria and decide whether a domestic or international agenda is of greater concern within the SIDS context.     

加氢脱硫废金属催化剂回收生产过程生命周期评价

基于生命周期评价法(LCA)评价加氢脱硫废金属催化剂回收生产过程的环境影响,将回收生产过程分为6个阶段,选取了12种关键环境影响类型,通过建立物质投入及排放清单,基于eBalance软件进行建模和计算。结果表明:回收1 t废催化剂的总环境影响为1.11E-08,其中,全球变暖效应潜值(GWP)是废催化剂回收生产过程中最大的环境影响贡献类型。焙烧阶段的环境影响贡献最大,其次为提取钴镍阶段、浓缩蒸发阶段、提取钼钒阶段,预处理阶段、运输阶段的环境影响贡献很小。基于生命周期评价法提出能源替代方案,清洁能源替代方案的环境影响为4.98E-09,较回收工艺环境影响削减了55.16%的环境影响。     

生命周期评价

生命周期评价是一种评价产品、工艺过程或活动从原材料的采集和加工到生产、运输、销售、使用、回收、养护、循环利用和最终处理整个生命周期系统有关的环境负荷的过程.生命周期评价既可以作为评价产品生产全过程的有效手段,又可以作为一种环境管理工具,现已在国际上广泛应用.文章从生命周期评价的概念入手,介绍了生命周期评价产生背景、技术框架、评价方法、应用及其展望.