冷链物流外文翻译文献综述

冷链物流网络优化文件综述【摘要】发展冷链物流已经是现在世物流家产中不可忽视的重要内容，在冷链物流中怎样进行物流网络的优化，是当前值得研究与商讨的话题。

本文将联合国内外学者对冷链物流网络优化进行文件研究与剖析，商讨优化所能带来的降低配送成本、提升工作效率、节俭开销等利处，并指出现有阶段研究的不足之处。

【重点词】冷链物流；冷链物流网络；网络优划一、国内外研究现状综述（一）国内研究研究现状1.冷链物流冷链物流泛指冷藏冷冻类产品在生产、储藏运输、销售到花费前的各个环节中一直处于规定的低温环境下，以保证产质量量、减少产品消耗的一项系统工程。

作为物流将来发展的主要路径之一，学者对冷链物流发展的影响因素进行深入剖析，主要有：（ 1）单层因素剖析。

张宴魁以为冷链物流配送路径不完美，是致使其物流成本高以及限制冷链物流发展的主要原由，并鉴于遗传算法与粒子群算法进行改良[] 。

（ 2）双层因素剖析。

徐苗苗从冷链物流的高度组织协调性与需求展望两个方面进行剖析，要求不停完美冷系统功能，保证整个冷链物流顺畅进行。

（ 3）多层因素剖析。

缓小红、巫志龙（2012）从成立完好的冷链物流系统、完美冷链物流基础设施、充分保障生鲜食品安全的对策这三点进行剖析，并对我国冷链物流发展远景进行了展望，因而可知冷链物流的发展有很多不一样的影响因素。

2.冷链物流网络研究冷链物流网络是由物流节点和配送线路这两个重点因素连结而成的且互相作用的网络，节点就是物流中转中心或者仓储中心。

学者从这两个因素出发，主要研究有：（1）立足于节点的研究。

王瑶，唐文芳提出成立食品冷链应急物流的库存系统模型，系统的剖析了求解单个库存的最优订货规模，在此基础上联合多目标规划研究模型的求解方法。

（ 2）立足于配送的研究。

张倩（ 2013）提出建立以生鲜农产品冷链物流总成本最小为目标的网络优化模型，运用了粒子群算法与模拟退火算法联合的优化算法来优化陕西省生鲜农产品配送成本。

文献出处：Croxton K.L The research of fresh food e-commerce logistics distribution modefJ]. The International Journal of Logistics Management, 2017, 1(2): 13-24.原文The research of fresh food e-commerce logistics distribution modeCroxton K LAbstractWith the development of electronic commerce enterprise, from the Internet shopping has been gradually deep into the people’s life, so that people want to buy on the Internet to be assured that there is an increasing demand or iresh agricultural products. This rare agricultural socialization trend of consumption also offers fresh electronic commerce development opportunities, but now is the actual situation of fresh electronic commerce development is not very optimistic. For fresh food e-commerce，due to the particularity of fresh products, it requires the logistics distribution can be according to the requirements of the customer at the right time to provide enough fresh products，it is for the logistics service quality and time put forward higher requirements，delivery is not yet mature，distribution costs are high，low efficiency and service level is often difficult to guarantee，fresh products logistics distribution is a bottlenecK in the development of them.Keywords: fresh food e-commerce，distribution pattern，cold chain logistics, and risk control 1 IntroductionFarmers1markets and supermarkets is the traditional channels of city residents to buy fresh agricultural products, but with the development of social economy speed boost, the rhythm of people’s life in the city than ever also had obvious increase，’’workers•’ due to the limitation of working hours, often the problem is there are very few time at a farmers’ market or supermarket to buy fresh produce，even after work at farmers’ markets or supermarkets to buy the fresh agricultural products, can buy goods is not fresh. With the development of electronic commerce enterprise, from the Internet shopping has been gradually deep into the people's life, so that people want to buy on the Internet to be assured that there is an increasing demand of fresh agricultural products，especially for "workers' this is more urgent demand.B2C，C2C e-commerce business now more concentrated in the electronic products, clothing and completely processed food, for the present stage of basic logistics service can satisfy the requirements of web site with the customer.This article is mainly in the electronic commerce logistics distribution mode of fresh research aspects，based on fresh from the actual situation of electronic commerce and the close analysis of key element fresh food e-commerce，summarizes three different with general distribution mode of fresh food e-commerce logistics distribution mode, the characteristics of the pattern design is by fresh good cooperation from the electronic commerce information online and offline business, to reduce the fresh raw e-commerce product line the difficulty of the logistics distribution，thus make the enterprise to offline logistics cost is high，the efficiency is not high to make a good deal with the problem of.2 Literature reviewResearch of fresh agricultural products safety, F.S chwagele (2005) about the European fresh agricultural products traceability for the development of history，Europe for fresh food formulated laws and regulations, food companies are required to have their own traceability system, to ensure transparency in the whole process of the food production chain，can verify，is produced in Europe after the outbreak of a series of food safety accidents; Lists the Europe now use traceability technology，such as coding system EAN UCC (2002) - AIDC barcode, electronic data management system and RFID.K.E^ Belk, J.A. Scanga et al. (2005) to trace the history of the development of the American food, they think that the United States than in Europe and Japan in terms of food traceability backward，at the same time points out that the Carrefour and other large retail enterprises in the application of RFID technology played an important role, mainly adopts monomer great significance by IAID and group recognition AGID two methods on the meat recognition.Research of fresh agricultural products supply chain knowledge, RD abbene, P.G ay and N.S acco (2008) argue that produce raw materials from leave growers or meat slaughterhouse to the terminal consumer impact on the cost and quality of this process play a key role, so it is necessary for fresh agricultural products supply chain to do enough research. Omar Ahumada, J.R ene Villaobos (2009) argue that due to a series of public health problems, the supply chain of agricultural products will face more strict rules and close monitoring. In fresh agricultural products distribution，Ana Osvald，Lidija Zadnik Stirn (2008) of fresh vegetables distribution path optimization algorithm has made the research of vehicle，and according to the working time window，distribution vehicle travel time and vegetables perishable characteristics the impact on the cost distribution path model is put forward- Omar Ahumada, J.R ene Villaobos(2009) studied the fresh crop at harvest and distribution of two link planning problem，the model put forward by them to provide planted with maximum benefits.For research of Cold Chain logistics，Americans Albert，Braille (Albert Barrier) and the British J.A. laidi qi (J.A.R uddich) at the end of the 19th century has elaborated on the Cold Chain (Cold Chain) point of view. But，until 1940，cold chain point of view to the attention of the world.C-D Tarantilis (2002), such as the problem of distribution route between the fresh meat in multiple warehouse was studied，and the random search heuristic algorithm and threshold accepting algorithm to solve this problem, this problem has a lot to the benefits of economic benefits to the enterprise. Kuala Lumpur ikar etc. (2006) put forward during the cold-chain food sales and storage of food cold chain management quality has a great influence.R.M ontanari (2008) analyzed the impact of supply chain under the condition of perishable food quality，time, temperature control is a key issue, starting from the point of view of technology and management were put forward to solve the problem.Andrej Ovca etc. (2009) put forward the consumer need for perishable food from procurement to use the entire cold chain maintenance of cognitive deficiencies.Chaug - Ing Hsu (2011) developed a kind of temperature distribution of equipment model, using replaceable cool storage technology incubator to meet the needs of distribution network.2The analysis of fresh food e-commerce distribution factor2.1Frozen technicalFresh raw products in e-commerce logistics distribution of cooling fresh is fresh food e-commerce is very important link, fresh products in sales in the whole process of the entire cold chain is the necessary measures of keeping fresh of fresh products，fresh products cold chain in the whole process of the freezing technology includes two parts: one is the refrigeration; 2 it is fresh. Refrigeration is in raw products raw materials get to maintain product freshness after cooling process. Fresh products of refrigeration can be divided for refrigerated and frozen. Fresh on the application of the freezing technology, e-commerce is to control the quality of the good fresh product，also control the cost of logistics distribution. Refrigeration technology in fresh it is very important to the operation of e-commerce，fresh food e-commerce enterprise shall，on the basis of existing facilities development suited to their own refrigeration technology, such as fresh direct against their goods for distribution in car special renovation，so as to achieve the goal of economical and practical•2.2Distribution networkDue to the diversity of fresh food，a lot of fresh food is a regional restriction; second，cold-chain distribution network radius cannot too big; otherwise the cost is too high. Fresh products because of the high requirements for delivery and save the characteristics of short time, the traditional logistics network layout of general goods in a certain extent, not only can't satisfy people's needs, but also can cause a lot of resources allocation is not reasonable. Fresh distribution network of e-commerce involved have fresh product base，production and processing base, refrigerated warehouse，logistics center and distribution center, if use the third party logistics enterprise distribution, distribution network involves a fresh product base, production and processing base，refrigerated warehouse, third party logistics of the logistics center and distribution center. Cold-chain logistics network in each node, if can effective work in the entire network layout，will improve on the efficiency of cold chain logistics has a lot of help, cold-chain logistics network layout model is roughly divided into single economies of cold-chain logistics network，the area of cold-chain logistics network and cross-regional cold-chain logistics network.2.3Information systemFresh e-commerce logistics information system, it is fresh online operation and offline operation and efficient electricity with indispensable link, to ensure that the line of the cold chain run efficiently, in addition to cold storage facilities and advanced technology，also need to have advanced cold-chain information system for effective management. By computer hardware, computer software and information resources together，through the man-machine combination is known as the information system to handle the flow of information system, on the basis of the functions and features of logistics, the computer network technology, electronic data interchange (edit) technology and the information system applied to each link of logistics operation.Fresh e-commerce logistics distribution use of modern information technology has the following kinds: technology，electronic commerce is in the Internet open network environment，based on browser/server application，realize consumer online shopping, online transactions between merchants and online electronic payment of a new type of commercial operation mode. Supply chain management system, electronic order system, intelligent transportation systems, EPC system and bar code technology are fresh，common technology in e-commerce application. Supply chain management system, based on supply chain management thoughts as the instruction,will link each entity in the supply chain business through information，logistics，information flow， document flow, business flow and cash flow) of communication to achieve seamless connection system model. Intelligent transportation system，vehicle information, the road map and a fixed input of user information integration of computer algorithm, by using computer technology, sensor technology, artificial intelligence and other advanced technology effectively to integrate comprehensive application in the transport of goods, thus forming an accurate and efficient automatic transport system.3The problems of fresh food e-commerce logistics distributionFresh e-commerce distribution problem involves mainly by cold chain logistics, as a result of the limitation of hardware and software aspects overall situation，main problems are as follows:(1)The construction of infrastructure. Low temperature logistics now，refrigerated facilities is a lot of mechanical, refrigeration technology is relatively backward, the hardware facilities of lagging behind and modernization level of a serious shortage of professional cold chain vehicle, in ordinary loss is very big, in the process of transportation and delivery used logistics costs alone accounted for seventy percent of the cost of perishable goods，some infrastructure construction will not be able to provide security for the cold chain of food circulation system.(2)Frozen processing capacity is limited. Frozen processing is the main equipment of air cooler, frozen carcass meat, for example, in the air cooler is to together for frozen carcass meat flesh and bones, causing completely unnecessary waste, and the efficiency is not high. Although individual frozen processing have installed between advanced contact plate freezer, but is still a far cry from what to popularize and apply.(3)Transport facilities, loss are big. Transport infrastructure development, both railway and highway, whether on the proportion of vehicles or cold chain on the traffic. On the cold chain transport, railway cold-chain transport accounted for twenty percent of total food cold-chain transport and a half, but for railway freight volume is less than 1%.(4)The frozen storage and economic development does not match. Frozen storage of all aspects of the conditions are not enough to support the rapid development of cold chain logistics. Especially the construction of cold storage，both from layout of cold storage and cold storage capacity，is not conducive to the rapid development of cold chain storage. Cold storage more focused on the layout of the city, the origin of a serious shortage of cold storage; Common cold storage capacity can f tmeet the requirements of cold chain now. Cold storage refrigeration technology and，on the other hand，to the temperature control and monitoring technology in cold storage are comparatively large difference with international standards，the improvement of the need to a great extent.The cold chain logistics management lags behind. Cold-chain logistics needs through strict management to achieve the enterprise's management goal，but now management, due to lack of correct understanding of cold chain logistics, cold chain often appear in the ’’chain” phenomenon: broken from farm to the wholesale，fresh fruits and vegetables often railed to do preliminary cold treatment; In primary processing and sorting area without cryogenic environment.译文生鲜电子商务物流配送模式研究CroxtonKL摘要伴随着电子商务企业的发展，从网络上购物的方式已经逐渐的深入到了居民的生活中，以至于人们希望在网络上能够购买到放心的生鲜农产品的需求越来越大。

【农产品冷链物流发展现状及对策研究文献综述】一、引言随着社会经济的快速发展和人们对生活品质的要求不断提高，农产品需求呈现出多样化、个性化的特点。

然而，长期以来农产品冷链物流发展滞后，导致了农产品保鲜、运输等问题长期困扰农业行业。

对农产品冷链物流发展现状及对策进行研究，对于推动农产品产业升级、提高农产品附加值具有重要意义。

二、农产品冷链物流发展现状综述（1）冷链物流基本概念冷链物流是指将需要保持在一定温度范围内的商品进行冷藏、冷冻、冷藏运输和配送的过程。

农产品冷链物流则是指对应于农产品的冷链运输与储存。

（2）农产品冷链物流发展现状当前，我国冷链物流市场整体发展迅速，但与发达国家相比还有一定差距。

农产品冷链物流不仅存在冷链设施不足、技术落后等问题，而且市场需求和供给之间的矛盾依然存在。

另外，农产品冷链物流网络规划和运营管理存在问题，增加了农产品运输损耗和风险。

三、农产品冷链物流发展对策研究综述（1）政策扶持和资金支持政府需要出台更加完善的农产品冷链物流发展政策，支持冷链设施建设、技术创新等，并加大对农产品冷链物流的资金支持力度。

（2）提升冷链物流技术水平加强冷链技术研发，推动农产品冷链物流技术的升级和改造，提高农产品冷链运输温度控制、湿度控制和气体调节等方面的技术水平。

（3）完善冷链物流网络规划根据农产品产地、消费地的特点，规划和建设合理的冷链物流网络，降低农产品运输、储存损耗，提高冷链物流的运输效率。

四、个人观点和建议在当前经济发展的背景下，农产品冷链物流发展是我国农业发展的重要保障，也是提高农产品附加值的重要途径。

政府应加大扶持力度，企业需要加强创新，提高冷链物流技术水平，促进农产品冷链物流发展进入快速发展阶段。

五、总结本文对农产品冷链物流发展现状及对策进行了综述。

通过对现状的分析，我们可以清晰地看到我国农产品冷链物流发展中存在的问题和不足。

对策研究部分提出了政策、技术、网络规划等多方面的解决方案。

文献出处：Fransoo J C. Green Logistics: Enablers for Sustainable Development [J]. Supply chain management: an international journal, 2014, 8(2): 122-131.原文GREEN LOGISTICS: ENABLERS FOR SUSTAINABLE DEVELOPMENTJan C. FransooEindhoven University of Technology, Netherlands1 INTRODUCTIONLogistics is the backbone of industry and commerce. As a discipline, it describes the management and coordination of activities along supply chains. These activities include freight transport, storage, inventory management, materials handling and related information processing. A large part of logistics activities are often outsourced to specialized providers that provide cost- effective services. Research has shown that, at least in high income economies, the value of services is not assessed in monetary and service quality terms alone. In making decisions, logistics professionals are increasingly taking into consideration external effects such as emissions, pollution, noise, and accidents.The last LPI report release in 2012, for instance, pointed out that in shipments to OECD countries, environmentally friendly solutions are considered far more often than elsewhere. Mounting regulatory pressure, together with changes in customer preferences, are the main drivers of this phenomenon. One of the more widely used terms to describe this set of preferences is green Logistics, especially when the activities of logistics service providers are concerned.Research, including a recent book by Alan McKinnon, has established that green Logistics is an emerging concern of private operators and providers and users of logistics. From a policy standpoint, and especially for the global environment, green Logistics is potentially a major topic as well: estimates vary, but about 15% of global greenhouse gas emissions (GHG) can be traced to logistics activities.Green Logistics may not be an independent policy area. Rather, the supply chainperspective provides a framework to understand and deal with issues that are separate but ultimately interrelated. Importantly, looking at supply chains helps policy makers understand the interests and actions of private sector operators. Green Logistics may therefore propose a number of tools and identify emerging sustainable solutions contributing to the overarching objective of green Growth.From a policy perspective, logistics cut across several areas and sectors. The performance of supply chains depends on areas or activities where government as regulator or catalyst of investment is critical, such as:Transport infrastructure: road and rail corridors, ports and airportsThe efficiencies of logistics services: services include not only modal freight transport, but also warehousing and intermediary services, such as brokers and forwarders, and related information-flow management. In modern economies, the trend is towards integration in multi-activity logistics providers (3PLs, 4PLs) to which industrial and commercial firms outsource their supply chain activities. Understanding the regulatory dimension of services is becoming increasingly critical to the development of effective policies in areas such as: professional and operational standards, regulation of entry in market and professions, competition, enforcement.Procedures applying to the merchandise, such as trade procedures (customs and other controls).The soft infrastructure that supports information or financial flow associated with the physical movements along supply chains: IT infrastructure, payment systems.The concept of national logistics performance capturing the outcome of these policies is widely recognized by policy makers and the private sector worldwide as a critical contribution to national competitiveness. A key question for sustainable development is how to integrate supply chain participants concern with environmental sustainability with the concept of national logistics performance.Within logistics, transport creates the largest environmental footprint. But the volume of emissions can vary greatly, depending on the mode of transport. The volume of emission per ton per km increases by an order of magnitude from maritime to land transportation and to air transportation. This is a key environmental aspect oflogistics that is not taken into consideration by most supply chain operators. Logistics experts typically integrate freight modes and other related activities so that the transport and distribution network is used in the most efficient manner, which is important for keeping emissions in check, as well. Depending on the type of industry and geographical region, supply chain operators can place varying emphasis on the reliability of supply chains, as well. In summary, supply chain choices typically include multiple criteria and trade-offs, and this makes an analysis of their environmental impact complex; the most environmentally friendly choices do not only depend on mode of transportation, but also on other elements, such as efficiency and reliability.To reduce the environmental footprint of a supply chain, the focus should be on several dimensions and should select the best mode of transport, efficient movements, and innovation. Comprehensive work on greening individual modes of transportation is already available. Here, the key drivers have been energy efficiency and the urge to diminish various types of emission. Given the integrated nature of supply chains, however, the manner in which price signals and incentives catalyze supply chain structure is a rather intricate problem: lower- emission modes of transport (maritime, e.g.) are typically also less reliable or have other limitations (such as maritime access to a landlocked country). Such limitations may include the cost of such technologies, the temperature range within which they can be used or the availability of certain types of fuel. It is therefore critical to complement the current knowledge about emissions produced by different modes of transportation with an understanding of what drives the demand for Green Logistics within supply chains.The emerging response is likely to take the form of top-down policy, such as measures in the form of standards or taxes addressing emissions (GHG, SO2, NOx) by mode of freight. For instance, a cap on SO2 emissions on major maritime routes will go into effect at the end of 20152. At least as important is the response from the bottom up. These are supply-chain strategies coming from the private sector in response to policy or price changes, but also demand from consumers, clients and stake-holders. Green Supply Chain management has to be taken seriously by policymakers.An exclusive focus on price mechanism (including taxes), as is the current tendency, may miss some of the major driver of changes in supply chain management. Another complication, at least in the context of international trade, is that the focus on the impact on international logistics does not capture the footprint of production processes. These processes may have different impact than the supply chain itself, as in the case of food production.There is also evidence that much of the environmental footprint of logistics operations is tied to short distances and distribution. Green Logistics is intimately linked with concerns such as urban congestion, and innovations in Logistics are critical to sustainable supply chains. Grassroots innovations in Logistics have recently flourished, often producing win-win solutions in terms of jobs and the environment. More generally, there is increasing awareness that green supply chains can be also competitive, either because the awareness of the environment helps productivity or because consumers expect it, particularly in wealthy countries.A concrete case in point is also the so-called sulphur emission regulation by IMO that enters into force on January 1, 2015 in most of North Sea, Baltic Sea and along west and east coasts of US & Canada (bar Alaska). Ships have to go over from fuel with 1.5 % sulphur to 0.1 % sulphur or invest in so-called scrubbers, that absorb the sulphur from exhaust gases; technology that is still nascent in the maritime context. Scrubber investment per cargo ship is USD 2 million and uo with multiples as the ship engine size increases, with annual maintenance cost approx.. 7-10 % of investment. This seemingly innocent and rather technical change is going to have a huge impact on shipping and the spillover effect to other modes & Supply chains are goi ng to be significant Green Logistics also encompasses potentially longer-term concerns. A green focus within logistics analysis could examine a supply chain vulnerability to climate events or to large swings in the price of transport inputs, for instance. A recent volcanic episode in Iceland showed the vulnerability of one specific supply chain that relies heavily on air freight fresh produce coming from Africa spoiled when flights were cancelled because of the volcanic ash. Resilience concerns and other form ofuncertainty are likely to shape supply chain choices by regional and global operators. Given the importance of trade in components and intra-firm trade, how large operators develop green supply chain strategies will have profound economic impact. Resilient and greener supply chains are likely to be less extended and leaner, for example, though the consequences for trade and integration of low income economies cannot be treated fully here.Policy makers should be concerned by both the supply and demand aspects of logistics environmental dimensions. So far, the policy focus has been on modal footprint and has not taken into account a supply chain perspective. There have not been major initiatives in Green Logistics, even in the countries most sensitive to the issue, such as those in Northern Europe. Rather the most important changes have occurred as a combination of largely uncoordinated public and private initiatives: voluntary behavior by shippers, innovation in terms of technology, information (environmental logistics dashboard) or services, or common public-private objectives such as in modal shifts.2DEFINING GREEN LOGISTICS AND GREEN SUPPLY CHAIN MANAGEMENT There are many variations in the terminology regarding green logistics and green supply chain management. This section aims at providing a brief overview on some of the key terms used in the literature.Green logistics refers mainly to environmental issues related to transportation, material handling and storage, inventory control, warehousing, packaging, and facility location allocation decisions (Min & Kim, 2012). Gonzalez-Benito and Gonzalez-Benito (2006) use the term environmental logistics to describe logistics practices that are divided into supply/purchasing, transportation, warehousing and distribution, and reverse logistics and waste management. Although distribution is considered to be one of the interrelated areas of supply chain management, the term green distribution has also been used to describe the whole process of integrating environmental concerns into transportation, packaging, labelling and reverse logistics (Shi et al., 2012).Reverse logistics is often used as a synonym to efforts to reduce theenvironmental impact of the supply chain by recycling, reusing and remanufacturing. However, originally green logistics was used to describe the movement of the material against the primary flow in the form of commercial returns, wrong deliveries and recalls etc., i.e. from the customer towards the producer. (Rogers & Tibben-Lembke, 2001.) In addition to reverse logistics, closed-loop supply chain has also been used to emphasize that the reverse flow of material (e.g. Zhu et al., 2008). However, the activities motivated mainly by environmental concerns might be better labelled as green reverse logistics (Hazen, Cegielski & Hanna, 2011) or in the more general terms of green or environmental logistics (Rogers & Tibben-Lembke, 2001) instead of reverse logistics or closed-loop supply chains.The above-mentioned concepts are mainly used to describe the actions taken by the logistics service provider side. Green supply chain management (GSCM) is a more extensive concept that has been gaining increasing interest among practitioners and academia and is mainly directed towards manufacturing companies. The term implies that the focus of environmental management has shifted from a facility or organization level to supply chain level (Linton et al., 2007). Srivastava (2007) defines that GSCM is integrating environmental thinking into supply chain management, including product design, material sourcing and selection, manufacturing processes, delivery of the final product to the consumers as well as end-of-life management of the product after its useful life.GSCM is also known as environmental supply chain management (ESCM) (e.g. Zsidisin & Siferd, 2001;Walker et al., 2008). Some authors (e.g. Seuring & Meller, 2008; Craig & Carter, 2008) use sustainable supply chain management (SSCM) as a synonym of GSCM or ESCM although they mostly focus on the environmental aspect of sustainability, thereby paying less attention on economic and social aspects. According to Zhu et al. (2005) GSCM is strongly related to inter-organisational activities such as industrial ecosystems, industrial ecology, product life cycle analysis, extended producer responsibility and product stewardship.GSCM is often described to consist of green purchasing, green manufacturing, green distribution/green marketing and reverse logistics (Hervani et al., 2005). Greenor environmental purchasing or green supply refers to efforts to improve environmental performance of purchased inputs or of suppliers that provide them (Bowen et al., 2001). Green manufacturing is typically tried to be achieved by various types of environmental practices, such as pollution control, pollution prevention and product stewardship (Hart, 1995). The definitions of GSCM emphasize that environmentally conscious practices are evident in all stages of the supply chain and the product life-cycle (Hervani et al., 2005). Furthermore, Vachon and Klassen (2006) divide these green supply chain management practices into two sets: one of them being environmental monitoring and the other environmental collaboration. In the former the focus is on arm length transaction in which the buying organisation evaluates and monitors its suppliers, and in the latter the environmental solutions are developed jointly.GSCM activities aim at achieving market advantages and profits while reducing environmental impacts. One generally used concept to measure the effect of supply chain activities on natural environment is the environmental or ecological footprint. It accounts for human demand on global biological resources and compares the level of consumption with the available amount of bioproductive land and sea area and has been designed to show whether this ustainability threshold is exceeded (Wiedmann & Barrett, 2010). Lately the use of carbon footprint has increased rapidly but the question still remains whether it should contain only carbon dioxide emissions or other greenhouse gas emissions as well (Wiedmann & Minx, 2007).The increasing interest in environmental issues has led to the development of voluntary environmental management systems. Environmental management systems (EMS) is collection of internal efforts at formally articulating environmental goals, making choices that integrate the environment into production decisions, identifying opportunities for pollution (waste) reduction and implementing plans to make continuous improvements in production methods and environmental performance (Khanna & Anton, 2002). The most commonly used framework for an EMS is developed by the International Organization for Standardization (ISO) for the ISO 14001 standard. In addition, for example the European Parliament has created its ownenvironmental management system, EMAS. (Gonzalez et al. 2008.) In order to obtain a certification an environmental audit conducted by a registered external auditor is required (Rondinelli & Vastag, 2000).Different types of actors can use different approaches to contribute to environmental sustainability. These approaches can be viewed from macro and micro perspective. Actions in the macro domain are taken by governments and other legislative authorities, while in the micro domain the actions are taken by the companies (Aronsson & Huge-Brodin, 2006). When viewed from a supply chain perspective, the micro domain can be further divided into the logistics service users (manufacturing, trading) and logistics service providers. The decisions concerning the actions to be taken can be made at different levels: strategic, tactic and operational. Each level indicates different scope and time span of the decision. In general, the policy makers decisions are prepared for several months and even years beforehand, whereas logistics service providers and users also make plenty of day-to-day decisions. Figure X illustrates some of the actions taken by different actors that impact on the environmental footprint. It is not meant to be conclusive but to provide some examples on what kinds of activities affect the environmental footprint. Table 1: Actions Taken by Different Actors to Impact the Environmental Footprint.Management can take several approaches to greening the supply chains. Some firms choose to be reactive and commit minimal resources, while more proactive firms may choose to seek value by strategically committing to environmental sustainability and by integrating environmental policy in strategy. (van Hoek, 1999.) Formulating environmental strategy is equally important for both logistics service users and providers. An environmental management system (EMS) can be implemented to address environmental practices within the organisation. It is used to formally articulate environmental goals, to make choices that integrate the environment into production decisions, and to identify opportunities for pollution reduction and to implement plans to make continuous improvements (Khanna & Anton, 2002.) The two most widespread EMSs in Europe are ISO 14 001 and EMAS (Gonzalez, Sarkis & Adenso-Diaz, 2008).Green purchasing or green supply attempts to improve environmental performance of purchased inputs or of suppliers that provide them (Bowen et al., 2001). Green purchasing enables to specific issues, such as to reduction the waste produced, to substitute material through environmental sourcing of raw materials and to minimize the use of hazardous materials (Rao & Holt, 2005), e.g. through materials that are either recyclable or reusable, or have already been recycled. Supplier selection is an important decision at this stage. (Sarkis, 2003.) Supplier evaluation and development forms another important part of green purchasing (Zsidisin & Siferd, 2001). The survey study by Holt and Ghobadian (2009) revealed that over 50 % of UK manufacturers used informal supplier assessment and evaluation practices and over 30% used formal systems. Greener production is typically addressed through various types of environmental practices, such as pollution control, pollution prevention and product stewardship (Hart, 1995). It can be achieved by using renewable and recycled materials and by incorporating reverse logistics so that wasted generated in the production processes are processed and recycled into the production phase (Rao & Holt, 2005).There is a growing trend to outsource transport and logistics services to third party logistics service providers. Logistics service buyers increasingly ask for information on environmental performance of logistics service providers. (Wolf & Seuring, 2010.) Network design, planning and management are some of the pivotal issues to be considered by logistics service providers. Environmental sustainability usually calls for fewer shipments, less handling, shorter movements, more direct routes and better space utilization. Network design has an impact on fill rate, e.g. by increasing the size of warehouses, by centralizing distribution and by changing the location of warehouses. Consolidation is a central aspect to logistics systems on many levels, since consolidation of freight affects fleet size, vehicles, container and package sizes. (Aronsson & Huge-Brodin, 2006.) Other operational measures include e.g. educating and training drivers on eco-driving leads to reductions in fuel consumption (Helmreich, Bonilla, Akyelken, &Weiss, 2009).Although the supply chain to the retailers were optimized in terms ofenvironmental sustainability, the importance of mile deliveries cannot be underestimated. Browne, Rizet, Leonardi and Allen (2008) note that personal shopping trips can use more energy than the whole supply chain before, even if production is included. Hence, the consumers should be made aware of the environmental effects of their shopping behavior. Growing online retail can reduce these effects and retailers can actively aim at reducing their share by e.g. consolidating orders and by adopting off-peak/out-of-hours deliveries, allowing delivery vans to run more of their mileage at fuel-efficient speeds. (Edwards, McKinnon & Cullinane, 2009.)In the macro domain, the harmful effects of logistics have been recognized long ago. The transport strategy of the European Union highlights development needs towards sustainable transport and promotes multimodal and rail transport (European Commission white paper, 2011). Several policy instruments used by legislative bodies have long-term impacts on the supply chains. European commercial air transport and energy intensive manufacturing sectors are subject to the European Union Emissions Trading System (EU ETS).According to European Commission (2013a), the EU ETS is cornerstone of a cornerstone of the European Union's policy to combat climate change and its key tool for reducing industrial greenhouse gas emissions cost-effectively. The system applies to emissions of carbon dioxide (CO2) from power plants, energy-intensive industry sectors and commercial airlines. The EU ETS works on the 'cap and trade' principle. A 'cap' refers to the limit of the total amount of certain greenhouse gases that can be emitted by the factories, power plants and other installations in the system.译文绿色物流:促进可持续发展（5000多字）贾恩. 法兰斯1. 引言物流是工商业的支柱。

文献翻译第三方物流文献综述第三方物流:文献综述Alessandra Marasco摘要近年来，第三方物流（Third-party logistics，TPL）引起了许多学者的重视研究。

虽然出现了很多关于这个研究领域的论文，但是对第三方物流进行综合研究的科学文献还是比较少的。

本文对关于第三方物流的文献现状进行一个调查研究，获取关于第三方物流的文献综述。

从1989年至2006年共有152文献，发表于33家著名的国际期刊，分别为内容和方法上的相关问题，希望基于这个文献综述，能对未来第三方物流的研究发展提出好的建议和帮助。

关键词：第三方物流；组织关系；文献综述1.简介第三方物流（Third-party logistics----TPL），也称为物流外包（例如Knemeyer，2003；Maltz and Ellram，1997;Razzaque and Sheng, 1998等等），已经获得了大部分物流学者的关注，从而导致在这一领域的研究和写作日益广泛普遍。

最近的几项研究表明，物流学者对TPL的研究积极性提高，各行业公司的部分甚至全部部门越来越多的管理使用第三方供应商来促使其物流业务稳步增长。

(例如.Lieb and Bentz, 2004, 2005a; Lieb and Miller, 2002;Lieb and Randall, 1999a等等).尽管现在有很多关于这个研究领域的文献，但是对第三方物流进行综合研究的科学文献数量还是比有限的。

Razzaque and Sheng 在1998提供了一个比较全面的物流外包文学文献综述，从期刊杂志和其他出版物搜集了一些突出重要的研究成果。

Skjoett-Larsen et al. 在2003年提出了第三方物流研究概述，树立了北欧学校关于第三方物流的研究方法、推理方法或总结经验的鲜明特色，他们的综述总体上强调了北欧的第三方物流的研究对国际研究过程做出的贡献。

1782021,V^l.41,No.02农业与技术※农业经济农产品冷链物流发展现状及对策研究文献综述赵国利(成都信息工程大学物流学院，四川成都610100)摘要：本文对于目前农产品冷链物流的概念、绩效评价和技术展开一定研究活动，为后续的深入研究提供借鉴。

通过对比国内外农产品冷链物流发展现状及对策研究，结果表明，国外比国内较早的研讨农产品冷链物流的发展过程，我国农产品冷链物流还存在农产品冷链流通率低、物流设备设施欠缺、相关技术标准不健全等问题。

研究农产品冷链物流的目的，是为了在现状中发现问题，以便采取措施来促进农产品冷链物流发展时，有针对、有先后地解决问题的关键点。

能为冷链物流体系的发展提供一条新路径，对冷链物流的建设提供新的思路，推动农产品冷链物流的经济发展。

关键词：农产品冷链物流；现状；对策中图分类号：［S-9］文献标识码：A DOI：10.19754/j.nyyjs.202101300521国内研究综述2020年为止，我国大概有14.2亿人口，农村人口占绝大多数，是一个真正意义上的农业大国、人口大国。

从古至今，农业作为第一产业，在人们的生产和生活中扮演着重要的角色。

但是不管是从农产品的市场发展空间来看，还是农产品的产量来看，都面临着农产品冷链物流发展的机遇与挑战。

我国农产品冷链物流起步很晚，并且农产品冷链物流产业的发展相当滞后。

在经济高速发展的今天，消费者对生鲜农产品的观念产生了巨大改变，对农产品冷链物流提出了更高要求。

然而，我国生鲜农产品却面临着冷链物流体系成本高、效率低、损耗高等一系列严重的问题。

因此，国内的研究学者需要增加对农产品冷链物流这一新领域的关注度，应加快建设农产品冷链物流体系，同时把物流业的基础理论融合到农产品的冷链物流流通体系中来，并且深入研究农产品冷链物流业的发展。

总体来看，国内研究学者在农产品冷链物流这一新兴领域出现后进行探索，没有得出较为统一的定论，通过总结归纳，主要包含以下3个方面内容。

物流冷链管理文献综述学生：唐泽文（东方科技学院10食品科学二班，学号：201041905210）摘要：冷链物流是物流领域中发展非常迅猛的一个分支，其包括原料生产、加工、运输、配送、销售到消费者手中的全过程。

在供应链的每个环节都可能因为操作不当而出现产品质量与食品安全问题，这其中尤以食品和药品的冷链物流最受人们关注。

随着农业结构调整和居民消费水平的提高，我国生鲜食品的产和流通量逐年增加，全社会对生鲜食品的安全和品质提出了更高的要求。

加快发展食品冷链物流，对于促进农民持续增收和保障消费安全具有十分重要的意义。

本文主要是对食品冷链物流概念的阐述，我国农产品冷链物流的现状的总结以及发展农产品冷链物流中存在的问题和相关解决措施，最后对食品冷链物流进行展望。

关键词：冷链物流食品冷链第三方物流国内外比较前言：冷链是指为保持新鲜食品及冷冻食品等的品质,使其在从生产到消费的过程中,始终处于低温状态的配有专门设备的物流网络。

我国现代食品储藏、保鲜技术起步于上世纪初，自上世纪六、七十年代开始在生鲜农产品产后加工、储藏及运输等环节逐步得到应用。

进入新世纪以来，我国食品储藏保鲜技术迅速发展，食冷链物流发展环境和条件不断改善，食品冷链物流得到较快发展。

冷链管理是现代食品物流的重要组成部分，我们必须对其进行理解和探讨。

一、食品冷链物流的相关概念冷链物流泛指冷藏冷冻类食品、易腐物品在生产、加工制作、贮藏运输、配送、销售等到消费者前等各个环节中始终处于规定的低温环境下，以保证食品质量，减少食品损耗的一项系统工程。

它是随着科学技术的进步、制冷技术的发展而建立起来的，是以冷冻工艺学为基础、以制冷技术为手段的低温物流过程，是需要特别装置、注意运输程序、时间、路程等因素的特殊物流形式。

国家发改委在《农产品冷链物流规划》中指出冷链物流属于专业化程度很高的技术密集型和资金密集型的高端物流产业，对基础设施、技术含量和操作要求都很高。

由于食品冷链是以保证易腐食品品质为目的，以保持低温环境为核心要求的供应链系统，所以它比一般常温物流系统的要求更高、更复杂，建设投资也要大很多，是一个庞大的系统工程。

生鲜农产品供应链研究国内外文献综述1. 国外研究现状关于生鲜农产品供应链协调研究，国外主要从两个方面进行研究。

第一种是通过构建生鲜农产品供应链模型，选择合适的契约对生鲜农产品供应链进行协调。

Barratt和Oliveira 分析了生产商和零售商就回报共享因素对供应链合作关系的影响。

Matopoulos等认为不论是供应商还是零售商，选择正确的伙伴对其发展的重要性。

Dye和Yang通过比较生鲜农产品供应链合作保鲜契约和收益共享契约，分析哪一种契约对生鲜农产品供应链各方利润提升更大，研究发现是收益共享契约。

Soleimani等研究生鲜农产品供应链集中决策和分散决策下的定价问题。

Dave从生鲜农产品市场随机需求出发对其供应链进行协调研究。

第二种是利用可追溯技术对生鲜农产品质量安全进行研究。

Laux等指出一些发达国家（如美国、英国和日本等国），已经将可追溯技术应用于生鲜农产品供应链管理。

Parreño-Marchante等提出从生鲜农产品的生产到流通加工到配送运输再到网点销售的整个流程应用一种新的追溯技术，并证明这一新的的追溯技术可以提升生鲜农产品供应链的效率。

2. 国内研究现状和国外的研究相比，国内关于农产品供应链相关方面的研究开始地比较晚，从1999年开始，国内才着手于农产品供应链的研究。

国内专家学者针对生鲜农产品供应链的研究大多围绕生鲜农产品供应链模式、保鲜控制及运作与协调优化研究等方面。

关于生鲜农产品供应链模式研究。

张学志和陈功玉根据生鲜农产品供应链上核心企业的不同将其分为三种模式，分别是批发市场主导模式、产供销一体化企业主导模式和配送中心主导模式。

刘刚认为生鲜农产品供应链主要受政策法律、消费者购买模式、技术引入、终端力量等几个方面的要素影响，并认为未来生鲜农产品流通模式将进一步向扁平化和多元化方向发展。

近年来，互联网技术的快速发展，生鲜农产品的流通渠道也开始呈现多元化，“农超对接”“电商平台”等也逐渐的兴起。