产品生命周期评价体系探讨

生命周期评价（ＬＣＡ）是一个相对罗新的概念，理论上生命周期评价具有将环境质量融入决策过程的特点，生命周期评价是对产品和过程相关的环境干扰进行定量分析和评估的方法，本文介绍了ＬＣＡ的要领和内容，探讨了ＬＣＡ的技术框架和实施方案，并着重介绍ＬＣＡ的核心－－影响分析的主人指标，提出了ＬＣＡ有待发展完善的方面。     

产品生命周期评价方法的改进策略评价

本文从环境保护及经济成本的角度评价了当前生命周期评价方法在数据质量与数据收集成本方面的影响和弊端,并探讨了国内外对其改进的策略,以及其对企业的潜在贡献.     

生命周期评价

介绍了一种全新的环境评价方法和全面的环境管理工具——生命周期评价的概念，并对其主要环节及意义进行分析。     

中国生命周期参考数据库的建立方法与基础模型

缺乏完善的本地化LCA(Life Cycle Assessment)数据库是国内广泛开展LCA研究与应用的主要障碍.本文总结提出了建立中国生命周期参考数据库(Chinese Reference Life Cycle Database,CLCD)的基本方法,包括环境影响类型与物质名录的选择、单元过程清单数据的收集与审核、生命周期清单数据的建模与计算、CLCD数据库的建立等4个方面.按照上述方法,以电力、煤炭、燃油、运输等基础性产品为核心,初步建立了可扩展的中国基础工业系统的生命周期模型,收集了单元过程的全国平均清单数据,通过模型计算获得了这些基础性产品的生命周期清单数据,从而得到了CLCD基础数据库,为下一步扩展为更完善的CLCD数据库提供了方法与模型基础.     

生态标志和产品的生命周期评价

获得生态标志，是对产品环境性能的肯定，表明其整个生命周期的环境性能达到了特定的要求，消费者也可直接根据生态标志图案购得自己喜好的环境友好产品，生命周期评价是一中评价产品，工艺或活动从原料采掘到生产、运输、分销、使用，回用，维护，循环和最终处置的整个生命周期阶段相关环境负荷的过程，大多数生态标志标准的确定都采用了生命周期的评价的方法，文章对生态标志的概念、发展状况、标准的确定性和生命周期评价等作了简     

产品的生命周期评价浅析

对产品的生产活动全过程的资源消耗和环境污染、全面综合的了解，所需要的系统地分析工具就是生命周期评价。     

生命周期评价研究

介绍了LCA的基本定义、技术框架及目前的研究方法，指出LCA方法局限性，提出应该发展实用的LCA。     

产品的生命周期评价浅析

对产品的生产活动全过程的资源消耗和环境污染、全面综合的了解,所需要的系统地分析工具就是生命周期评价.     

电子信息产品的生命周期评价

电子信息产品的大量生产与使用造成严重的环境污染,影响着人类健康和生态安全。利用生命周期评价技术对电子信息产品的原材料获取、生产、销售运输和使用阶段进行环境影响分析,并得出电子产品在使用阶段的环境影响最为重要。生产商不但要关注生产过程中的环境影响,更应该注重生产低能耗产品。     

Chinese life cycle impact assessment factors

ＩｎｔｒｏｄｕｃｔｉｏｎＬｉｆｅｃｙｃｌｅａｓｓｅｓｓｍｅｎｔ(ＬＣＡ)ｉｓａｎｅｎｖｉｒｏｎｍｅｎｔａｌｍａｎａｇｅｍｅｎｔｔｏｏｌｔｈａｔｉｓｕｓｅｄｔｏｅｘａｍｉｎｅａｎｄｅｖａｌｕａｔｅｔｈｅｅｎｖｉｒｏｎｍｅｎｔａｌｉｍｐａｃｔｓａｓｓｏｃｉａｔｅｄｗｉｔｈｔｈｅｅｘｉｓｔｅｎｃｅｏｆｐｒｏｄｕｃｔｓ(Ｊｅｎｓｅｎ,1998;Ｗｅｉｄｅｍａ,1997;Ｗｅｎｚｅｌ,1997).ＴｈｅｆｏｃｕｓｏｆＬＣＡｉｓｏｎｔｈｅｅｎｔｉｒｅｌｉｆｅｃｙｃｌｅｏｆｔｈｅｐｒｏｄｕｃｔ,ｉ.ｅ.ｆｒｏｍｔｈｅｅｘｔｒａｃｔｉ…     

生命周期影响评价方法及本地化研究进展

为推动我国生命周期影响评价方法的构建,采用文献梳理法对生命周期影响评价方法及本地化研究的现状与未来发展方向进行分析。首先回顾了生命周期评价的起源与发展,探讨了生命周期评价在我国取得的进展与存在的不足;其次对生命周期影响评价理论与方法进行了介绍,并利用文献计量学方法分析了我国学者在生命周期评价时所使用的方法,结果显示77%的研究均采用国外的影响评价方法;最后梳理了我国生命周期影响评价方法的本地化研究进展,分析了现阶段生命周期影响评价方法的3点不足,包括所选取的指标及基准值亟须更新,模型系统性和完整性需要加强,模型深入研究有待展开,并提出要探索构建适合我国国情的完整全面的生命周期影响评价方法以及相应的参数基准值,从而提高我国生命周期评价结果的真实性、准确性,为环境政策制定以及相关产业发展提供决策支持。

     

General principles for life cycle assessment databases

This paper examines the minimum essential requirements that must be satisfied when a database is established for life cycle inventory calculations. It shows that the format of the database is governed by the physical requirements of the system being examined, by the need to include iterative calculations within the analysis and by the demands of the final data presentation.     

Screening life cycle assessment (LCA) of tomato ketchup: a case study

A screening life cycle assessment (LCA) of tomato ketchup has been carried out. The purpose was to identify ‘hot-spots', that is parts of the life-cycle that are important to the total environmental impact. The system investigated includes agricultural production, industrial refining, packaging, transportation, consumption and waste management. Energy use and emissions were quantified and some of the potential environmental effects assessed. Packaging and food processing were found to be hot-spots for many, but not all, of the impact categories investigated. For primary energy use, the storage time in a refrigerator (household phase) was found to be a critical parameter.     

典型复合包装的全生命周期环境影响评价研究

采用生命周期评价法研究了牛奶纸塑铝复合包装的全生命周期环境影响,并与塑料包装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整个生命周期的能量物质的输入输出和环境外排的数据.结果表明,纸塑铝复合包装和塑料包装的环境影响值分别为5.225, 4.670Pt,在整个生命周期中,环境影响比重最大的是原材料获取阶段,两者均在80%左右.塑料包装在化石资源消耗方面是纸塑铝复合包装的2倍多,由于化石资源消耗是不可再生的,因此其对环境的影响无法通过相关途径降低.纸塑铝复合包装的环境影响较大的原因是其尚未得到很好的回收再生利用,通过发展铝塑分离再生技术和提高纸塑铝复合包装回收率可以降低其环境影响.     

生命周期评价在玉米种植及深加工产品中的应用

对LCA在玉米种植环境影响研究中的目标与范围定义、清单分析、环境影响指标与计算方法、结果解释等方面的研究进行了梳理分析,其中大部分文献均对碳足迹进行了计算,CML（Institute of Environmental Sciences of the University of Leiden）、ReCiPe（许多LCA领域研究人员共同开发）和IPCC（Intergovernmental Panel on Climate Change）方法是应用最多的3种方法,经分析计算得到国外玉米种植单位产量碳足迹均值为0.50kg CO₂-eq/kg,我国的均值为0.58kg CO₂-eq/kg.同时本文也对LCA在玉米深加工产品中的研究进展进行了分析整理,对今后LCA应用于玉米种植及深加工产品中的发展方向进行了展望.     

The application of life cycle assessment to design

This paper explores the practical application of life cycle assessment (LCA) to product system development. While life cycle assessment methods have been studied and demonstrated extensively over the last two decades, their application to product design and development has not been critically addressed. Many organizational and operational factors limit the integration of the three LCA components (inventory analysis, impact assessment and improvement assessment) with product development. Design of the product system can be considered a synthesis of individual decisions and choices made by the design team, which ultimately shape the system's environmental profile. The environmental goal of life cycle design is to minimize the aggregate environmental impacts associated with the product system. Appropriate environmental information must be supplied to decision makers throughout each stage of the development process to achieve this goal. LCA can serve as a source of this information, but informational requirements can vary as the design moves from its conceptual phase, where many design choices are possible, to its detailed design and implementation. Streamlined approaches and other tools, such as design checklists, are essential. The practical use of this tool in product development also depends on the nature and complexity of the product system (e.g. new vs. established), the product development cycle (time-to-market constraints), availability of technical and financial resources, and the design approach (integrated vs. serial). These factors will influence the role and scope of LCA in product development. Effective communication and evaluation of environmental information and the integration of this information with cost, performance, cultural and legal criteria will also be critical to the success of design initiatives based on the life cycle framework. An overview of several of these design initiatives will be presented.     

面向生命周期评价的土地利用生态影响评价方法

初步建立了面向生命周期评价(LCA)的适合我国土地利用生态影响评价的指标、特征化因子和影响大小计量模型.评价指标包括土地利用时间、面积、净初级生产力、土壤有机质含量和地形坡度.分别研究确定了基于NPP、土壤有机质含量和地形坡度的特征化因子及其当量系数.提出了基于顶级群落理论的土地利用生态影响评价计量模型.案例应用表明,提出的方法可为我国开展土地利用的LCA提供初步的技术框架和相关参数.     

Screening life cycle assessment of an office used for academic purposes

The aim of this study is to contribute to the analysis of the environmental impacts deriving from common aspects of the service sector activity and to identify auxiliary actions and hot spots in order to improve the environmental performance of offices used for educational purposes. In that aspect, a screening life cycle assessment (LCA) for a university office-workstation of Democritus University of Thrace, Greece, was performed with the application of the SimaPro LCA software, and the Impact 2002+ method with fifteen impact categories for the interpretation of results. Findings from this research indicated that energy consumption for the powering electronic appliances was the key factor affecting most of the environmental impact categories examined. The impact categories most seriously affected by the office life cycle were the emissions of respiratory inorganics (39%), global warming (31%) and non-renewable energy use (27%). The saving of the energy consumed due to standby mode could lead to a reduction of 2.4% of the total energy consumption in the office in a yearly basis with proportional positive influence in all the respective impact categories. Additionally, utilization of solar energy through photovoltaic panels could lead to a reduction close to 90% for a number of impact categories. Therefore, actions and strategies for improving the environmental performance of academic offices should focus on the reduction of energy consumption.     

基于生命周期评价的风力发电机碳足迹分析

本文以我国市场占用率最高的2 MW双馈式风力发电机为研究对象,采用生命周期评价(LCA)方法,核算其全生命周期过程的碳足迹和总能量需求,分析风力发电机不同生命周期阶段的环境影响,识别其减碳潜力.研究结果表明,风力发电机生产阶段、运输阶段、运行阶段和废弃处理处置阶段的碳足迹(以CO2-eq计,下同)分别为1701 t、61 t、255 t和-325 t;各生命周期阶段的总能量需求分别为10413 GJ、701 GJ、1561.95 GJ和-1081 GJ.风力发电机的碳足迹和总能量需求主要来源于生产阶段,废弃处理处置阶段材料的回收利用有效的降低了生命周期的碳足迹和总能量需求.生产阶段的碳足迹和总能量需求分别占全生命周期碳足迹和总能量需求的101%和90%;废弃处置阶段对碳足迹和总能量需求的贡献为-19%和-10%.每1k Wh风力发电的碳足迹和总能量需求分别为20.7 g和0.14 MJ,风力发电机的能量回收期为0.79年.敏感性分析表明,风力发电机的质量和废弃处置阶段的金属回收率都是风力发电机总能量需求和碳足迹的影响因素.