生命周期评价在我国固体废物环境管理中的应用

生命周期评价是评价产品、工艺或活动（服务）整个生命周期阶段有关环境负荷,进而辨识和评价减少环境影响机会的一种非常有用的工具。将生命周期评价应用于固体废物环境管理,无疑对于我国建立科学化的固体废物环境管理模式具有十分重要的作用。本文对生命周期评价的定义、主要阶段、应用工具、特点进行了阐述,并对生命周期评价如何应用于我国固体废物环境管理进行了探讨。     

Use of Life Cycle Assessment in Environmental Management

The aim of this paper is to demonstrate how life cycle assessment (LCA) can be used to develop strategic policies that can lead to a minimization of the environmental burden resulting from the provision of services or the manufacture, use, and disposal of products within the economy. We accomplish this aim by presenting a case study that evaluates the greenhouse gas contributions of each stage in the life cycle of containerboard packaging and the potential impact on emissions of various policy options available to decision-makers. Our analysis showed that, in general, the most useful strategy was to recycle the used packaging. However, our analysis also indicated that when measures are taken to eliminate sources of methane emissions, then recycling is no longer beneficial from a greenhouse perspective. This is because the process energy required in the form of gas and electricity is substantially greater for containerboard manufactured from recycled material than it is for virgin fiber.     

生命周期评价综论

生命周期评价已被纳入到ISO14000环境管理体系中,将成为本世纪最有效的环境管理工具之一。通过综述生命周期评价的概念、起源和发展、技术框架及其应用,指出了当前生命周期评价的方法论和实践上存在的局限性,并对未来发展方向作了展望。     

浅谈生命周期评价与应用

本文介绍了生命周期评价的发展历史、定义、技术框架及主要内容,提出将生命周期评价应用于环境管理的良好前景。     

国外生命周期影响评价中酸化模型的方法概述

生命周期影响评价是生命周期评价的重要组成部分,而其中的特征化过程是实现定量评价的关键步骤。酸化（Acidification）是生命周期影响评价（LCIA）中最为普遍的影响类型之一,指由酸性气体排放引起生态环境破坏以及人体健康的损害。欧洲、北美、日本等发达国家都建立了自己的生命周期影响评价体系,本文分析了这些地区存在的酸化模型方法,对建立中国的生命周期评价数据库具有重要的意义。     

棉织品的生命周期评价

生命周期评价（LCA）是ISO14000管理体系的重要组成部分，本文将棉捉品生命周期的四个阶段对环境的影响分别进行了评估，并将结果汇总计算，比较分析了在棉织品生命周期中，对环境影响最大的阶段，从而为棉织品的生态设计提供了依据。     

Comparing Green and Grey Infrastructure Using Life Cycle Cost and Environmental Impact: A Rain Garden Case Study in Cincinnati,OH

Green infrastructure (GI) is quickly gaining ground as a less costly, greener alternative to traditional methods of stormwater management. One popular form of GI is the use of rain gardens to capture and treat stormwater. We used life cycle assessment (LCA) to compare environmental impacts of residential rain gardens constructed in the Shepherd's Creek watershed of Cincinnati, Ohio to those from a typical detain and treat system. LCA is an internationally standardized framework for analyzing the potential environmental performance of a product or service by including all stages in its life cycle, including material extraction, manufacturing, use, and disposal. Complementary to the life cycle environmental impact assessment, the life cycle costing approach was adopted to compare the equivalent annual costs of each of these systems. These analyses were supplemented by modeling alternative scenarios to capture the variability in implementing a GI strategy. Our LCA models suggest rain garden costs and impacts are determined by labor requirement; the traditional alternative's impacts are determined largely by the efficiency of wastewater treatment, while costs are determined by the expense of tunnel construction. Gardens were found to be the favorable option, both financially (~42% cost reduction) and environmentally (62‐98% impact reduction). Wastewater utilities may find significant life cycle cost and environmental impact reductions in implementing a rain garden plan.     

环境管理的信息化视角——美国环境信息生命周期模型研究

有效、可靠的数据和信息是环境管理的基础和主线,是政府部门确定环境管理目标、衡量进展以及同所有利益相关方共享信息的基础。美国环保局(EPA)从整体视角和跨学科观点提出环境信息生命周期模型,能够更好地理解环境信息的生产者、管理者、提供者和使用者等不同角色的作用。本文介绍了环境信息生命周期模型的各环节和要素,包括政策、规划和项目,数据采集和管理,信息交换和共享,信息管理,发现、获取信息,理解、使用信息,用户/公众反馈等,用于评估环境管理业务的数据和信息需求,帮助提高数据质量,增强公众获取环境信息的能力。环保部门需要关注数据质量的不确定性以及不同部门之间缺乏信息共享的问题,将环境信息生命周期的方法融入中国的环境管理和信息化建设,将提高环境数据的质量和政府透明度。本文针对中国的环保信息化建设提出了若干政策建议。     

Resource Consumption and Environmental Impacts of the Agrofood Sector: Life Cycle Assessment of Italian Citrus-Based Products

Food production and consumption cause significant environmental burdens during the product life cycles. As a result of intensive development and the changing social attitudes and behaviors in the last century, the agrofood sector is the highest resource consumer after housing in the EU. This paper is part of an effort to estimate environmental impacts associated with life cycles of the agrofood chain, such as primary energy consumption, water exploitation, and global warming. Life cycle assessment is used to investigate the production of the following citrus-based products in Italy: essential oil, natural juice, and concentrated juice from oranges and lemons. The related process flowcharts, the relevant mass and energy flows, and the key environmental issues are identified for each product. This paper represents one of the first studies on the environmental impacts from cradle to gate for citrus products in order to suggest feasible strategies and actions to improve their environmental performance.

酒店服务业生命周期评价体系研究

生命周期评价被认为是解决环境污染问题,实现可持续性发展的重要工具。初步建立了酒店服务业生命周期评价模型,并详细地分析了酒店服务业生命周期评价的框架结构,讨论了生命周期评价在酒店服务业中的应用前景。酒店服务业生命周期评价体系必将成为未来酒店服务业实现可持续发展的主要工具。     

镁合金在笔记本电脑外壳材料替代中的环境协调性评价

本文应用生命周期评价,（life cycle assessment,LCA）方法,对镁合金以及塑料这两种笔记本电脑外壳进行了初步评价和比较,结果表明镁舍金能源消耗、温室效应方面为塑料的556．31％、383．30%。但在材料的性能、资源消耗、酸化效应、生态毒理、材料的再生性等方面明显优于塑料。     

利用生命周期评价方法分析上海市某区生活垃圾处理的温室气体排放

通过生命周期评价（LCA）的方法,对上海市某区生活垃圾处理现状及4个不同可选处理方案的温室气体（GHG）排放量进行了分析。结果表明,当前该区生活垃圾处理系统的GHG排放总量为776.42 t CO2eq.,其中填埋、焚烧和堆肥分别占33%、39%和20%,其他处理单元仅占8%。通过4个可选方案的对比表明,采取垃圾分类收...     

Environmental indicators for communication of life cycle impact assessment results and their applications

Life cycle impact assessment (LCIA) is performed to quantitatively evaluate all environmental impacts from products, systems, processes and services. However, LCIA does not always provide valuable information for choosing among alternatives with different specifications, functionalities and lifetimes. The objectives of this study are (1) to propose environmental indicators to evaluate environmental efficiency and value qualitatively and quantitatively on the basis of analogies to financial and economic indicators, and (2) to present the application of the indicators. Incremental evaluation using a reference is employed to obtain the environmental indicators. The environmental efficiency indicators are conceptually based on the ratios of reduced environmental burdens returned to environmental burdens required: environmental return on investment, environmental payback period and environmental internal rate of return. The environmental value indicator is the sum of all reduced and required environmental burdens: i.e., environmental net present value. All the environmental indicators can be used to compare and rank the environmental efficiencies or values of alternatives. The environmental efficiency indicators can be applied to a new environmental labeling. The concept of eco-efficiency labeling is developed by combining the environmental efficiency indicators with financial indicators. A case study is performed to illustrate the necessity and importance of the environmental indicators. These environmental indicators can help easily communicate LCIA results in the field of environmental management.     

Global Warming Impact of Electricity Generation from Beef Cattle Manure: A Life Cycle Assessment Study

We compare calculated greenhouse gas emissions for a North American beef feedlot operation, which includes biogas production by anaerobic digestion with subsequent electricity generation (the AD case), to the emissions for a “business as usual” case, which includes both a feedlot and an equivalent amount of grid-generated electricity. Anaerobic digestion, biogas production and electricity production are the major sources of differences in emissions. Fertilizer production, crop production, manure collection and spreading, as well as the associated transport stages are also considered within the LCA system boundaries; impacts on life cycle emissions from these sources are lower. Running a feedlot and producing electricity using typical grid power plants produces 3,845 kg CO_2?eq/MWh while running a feedlot, which generates biogas to produce electricity, produces 2,965 kg CO_2?eq/MWh. This savings of 880 kg CO_2?eq/MWh arises because the net power generation in the AD case emits about 90% less life cycle GHG emissions compared to grid-average electricity. The high overall emission levels arise due to emissions associated with enteric fermentation in beef cattle as the main source of GHG emissions in both the “business as usual” and the AD cases. It contributed 57% of total emissions for the feedlot /biogas /electricity system and 44% of total emissions for the feedlot /grid electricity system.     

全过程固体废物管理研究进展及其对我国相关管理的启示

当某种固态、半固态物质不再具有原有的价值,它就成了固体废物,并可能在产生、排放、收集、贮存、运输、利用、处理和处置过程的任何一个或多个环节产生对环境的污染危害。对固体废物进行全过程监督管理因而显得尤为重要。本文回顾了全过程固体废物管理实施方法,包括生命周期清单和生命周期评价方法,用于废物管理系统的模型,在固体废物产生量预测、收集系统最优化以及处理处置设施选址等步骤中,各自所用不同方法的进展,以及在一些较发达国家和地区的管理实例。最后讨论了这些进展对我国固体废物相关管理的启示。     

Environmental,economic and social costs and benefits of a packaging waste management system: A Portuguese case study

The impact of the management of packaging waste on the environment, economic growth and job creation is analyzed in this paper. This integrated assessment intends to cover a gap in the literature for this type of studies, using the specific case study of the Portuguese packaging waste management system (SIGRE).The net environmental benefits associated with the management of packaging waste, are calculated using the Life Cycle Assessment methodology. The results show that, for the categories studied, the impacts associated to SIGRE's various activities are surpassed by the benefits associated to material and energy recovery, with special focus on recycling. For example, in 2011 SIGRE avoided the emission of 116 kt CO₂ equiv. – the equivalent carbon emission of the electricity consumption of 124.000 households in Portugal.The economic impact of SIGRE is evaluated through Input–Output Analysis. It was found that SIGRE's activities also have a significant economic impact. For example, their added value are ranked amongst the upper third of the economic activities with highest multiplier effect at national level: this means that for each Euro of value added generated within SIGRE, 1.25 additional € are added to the rest of the economy (multiplier effect of 2.25).Regarding the social impacts of SIGRE, the number of direct jobs associated with the system is estimated to be more than two thousand and three hundred workers. Out of these, 83% are connected to the management of municipal waste packaging (selective collection and sorting), 15% are connected to the management of non-municipal packaging waste and only 2% are connected to the Sociedade Ponto Verde (SPV, green dot society in English) – the management entity responsible for SIGRE.In general terms, the results obtained provide quantitative support to the EEA (2011) suggestion that moving up the waste hierarchy – from landfilling to recycling – creates jobs and boosts the economy.