Industrial ecology
Encyclopedia
Industrial Ecology is the study of material and energy flows through industrial systems. The global industrial economy can be modeled as a network of industrial processes that extract resources from the Earth and transform those resources into commodities which can be bought and sold to meet the needs of humanity. Industrial ecology seeks to quantify the material flows and document the industrial processes that make modern society function. Industrial ecologists are often concerned with the impacts that industrial activities have on the environment, with use of the planet's supply of natural resources, and with problems of waste disposal. Industrial ecology is a young but growing multidisciplinary field of research which combines aspects of engineering, economics, sociology, toxicology and the natural sciences.

Industrial Ecology has been defined as a "systems-based, multidisciplinary discourse that seeks to understand emergent behaviour of complex integrated human/natural systems". The field approaches issues of sustainability
Sustainability
Sustainability is the capacity to endure. For humans, sustainability is the long-term maintenance of well being, which has environmental, economic, and social dimensions, and encompasses the concept of union, an interdependent relationship and mutual responsible position with all living and non...

 by examining problems from multiple perspectives, usually involving aspects of sociology, the environment
Natural environment
The natural environment encompasses all living and non-living things occurring naturally on Earth or some region thereof. It is an environment that encompasses the interaction of all living species....

, economy
Economy
An economy consists of the economic system of a country or other area; the labor, capital and land resources; and the manufacturing, trade, distribution, and consumption of goods and services of that area...

 and technology
Technology
Technology is the making, usage, and knowledge of tools, machines, techniques, crafts, systems or methods of organization in order to solve a problem or perform a specific function. It can also refer to the collection of such tools, machinery, and procedures. The word technology comes ;...

. The name comes from the idea that we should use the analogy of natural systems as an aid in understanding how to design sustainable industrial systems.

Overview

Industrial ecology is concerned with the shifting of industrial process from linear (open loop) systems, in which resource and capital investments move through the system to become waste, to a closed loop system where wastes can become inputs for new processes.

Much of the research focuses on the following areas:
  • material
    Material flow analysis
    Material flow analysis is an analytical method of quantifying flows and stocks of materials or substances in a well-defined system. MFA is an important tool to assess the physical consequences of human activities and needs in the field of Industrial Ecology, where it is used on different spatial...

     and energy flow studies ("industrial metabolism
    Industrial metabolism
    Industrial metabolism was first proposed by Robert Ayres as "the whole integrated collection of physical processes that convert raw materials and energy, plus labour, into finished products and wastes..." The goal is to study the flow of materials through society in order to better understand the...

    ")
  • dematerialization
    Dematerialization
    -Dematerialization in economics:In economics, dematerialization refers to the absolute or relative reduction in the quantity of materials required to serve economic functions in society. In common terms, dematerialization means doing more with less...

     and decarbonization
  • technological change and the environment
  • life-cycle planning, design and assessment
    Life cycle assessment
    A life-cycle assessment is a technique to assess environmental impacts associated with all the stages of a product's life from-cradle-to-grave A life-cycle assessment (LCA, also known as life-cycle analysis, ecobalance, and cradle-to-grave analysis) is a technique to assess environmental impacts...

  • design for the environment ("eco-design")
    Design for Environment
    Design for the Environment Program is a United States Environmental Protection Agency program, created in 1992, that works to prevent pollution, and the risk pollution presents to humans and the environment. The EPA DfE program provides information regarding safer electronics, safer flame...

  • extended producer responsibility ("product stewardship")
    Extended producer responsibility
    Extended producer responsibility is a strategy designed to promote the integration of environmental costs associated with goods throughout their life cycles into the market price of the products.- Definition :...

  • eco-industrial parks ("industrial symbiosis")
    Eco-industrial park
    An eco-industrial park is an industrial park in which businesses cooperate with each other and with the local community in an attempt to reduce waste and pollution, efficiently share resources , and help achieve sustainable development, with the intention of increasing economic gains and improving...

  • product-oriented environmental policy
  • eco-efficiency
    Eco-efficiency
    The term eco-efficiency was coined by the World Business Council for Sustainable Development in its 1992 publication "Changing Course". It is based on the concept of creating more goods and services while using fewer resources and creating less waste and pollution.The 1992 Earth Summit endorsed...



Industrial ecology seeks to understand the way in which industrial systems (for example a factory, an ecoregion
Ecoregion
An ecoregion , sometimes called a bioregion, is an ecologically and geographically defined area that is smaller than an ecozone and larger than an ecosystem. Ecoregions cover relatively large areas of land or water, and contain characteristic, geographically distinct assemblages of natural...

, or national or global economy) interact with the biosphere
Biosphere
The biosphere is the global sum of all ecosystems. It can also be called the zone of life on Earth, a closed and self-regulating system...

. Natural ecosystems provide a metaphor for understanding how different parts of industrial systems interact with one another, in an "ecosystem" based on resources and infrastructural capital
Infrastructural capital
Public capital is the aggregate body of government-owned assets that are used as the means for private productivity. Such assets span a wide range including: large components such as highways, airports, roads, transit systems, and railways; local, municipal components such as public education,...

 rather than on natural capital
Natural capital
Natural capital is the extension of the economic notion of capital to goods and services relating to the natural environment. Natural capital is thus the stock of natural ecosystems that yields a flow of valuable ecosystem goods or services into the future...

. It seeks to exploit the idea that natural systems do not have waste in them to inspire sustainable design
Sustainable design
Sustainable design is the philosophy of designing physical objects, the built environment, and services to comply with the principles of economic, social, and ecological sustainability.-Intentions:The intention of sustainable design is to "eliminate negative environmental...

.

Along with more general energy conservation
Energy conservation
Energy conservation refers to efforts made to reduce energy consumption. Energy conservation can be achieved through increased efficient energy use, in conjunction with decreased energy consumption and/or reduced consumption from conventional energy sources...

 and material conservation goals, and redefining commodity markets
Commodity markets
Commodity markets are markets where raw or primary products are exchanged. These raw commodities are traded on regulated commodities exchanges, in which they are bought and sold in standardized contracts....

 and product stewardship
Product stewardship
Product stewardship is a concept whereby environmental protection centers around the product itself, and everyone involved in the lifespan of the product is called upon to take up responsibility to reduce its environmental impact. For manufacturers, this includes planning for, and if necessary,...

 relations strictly as a service economy
Service economy
Service economy can refer to one or both of two recent economic developments. One is the increased importance of the service sector in industrialized economies. Services account for a higher percentage of US GDP than 20 years ago...

, industrial ecology is one of the four objectives of Natural Capitalism
Natural capitalism
Natural Capitalism: Creating the Next Industrial Revolution is a 1999 book co-authored by Paul Hawken, Amory Lovins and Hunter Lovins. It has been translated into a dozen languages and was the subject of a Harvard Business Review summary....

. This strategy discourages forms of amoral purchasing arising from ignorance of what goes on at a distance and implies a political economy
Political economy
Political economy originally was the term for studying production, buying, and selling, and their relations with law, custom, and government, as well as with the distribution of national income and wealth, including through the budget process. Political economy originated in moral philosophy...

 that values natural capital
Natural capital
Natural capital is the extension of the economic notion of capital to goods and services relating to the natural environment. Natural capital is thus the stock of natural ecosystems that yields a flow of valuable ecosystem goods or services into the future...

 highly and relies on more instructional capital
Instructional capital
Instructional capital is a term used in educational administration after the 1960s, to reflect capital resulting from investment in producing learning materials....

 to design and maintain each unique industrial ecology.

History

Industrial ecology was popularized in 1989 in a Scientific American
Scientific American
Scientific American is a popular science magazine. It is notable for its long history of presenting science monthly to an educated but not necessarily scientific public, through its careful attention to the clarity of its text as well as the quality of its specially commissioned color graphics...

article by Robert Frosch and Nicholas E. Gallopoulos. Frosch and Gallopoulos' vision was "why would not our industrial system behave like an ecosystem
Ecosystem
An ecosystem is a biological environment consisting of all the organisms living in a particular area, as well as all the nonliving , physical components of the environment with which the organisms interact, such as air, soil, water and sunlight....

, where the wastes of a species may be resource
Natural resource
Natural resources occur naturally within environments that exist relatively undisturbed by mankind, in a natural form. A natural resource is often characterized by amounts of biodiversity and geodiversity existent in various ecosystems....

 to another species? Why would not the outputs of an industry be the inputs of another, thus reducing use of raw materials, pollution, and saving on waste
Waste
Waste is unwanted or useless materials. In biology, waste is any of the many unwanted substances or toxins that are expelled from living organisms, metabolic waste; such as urea, sweat or feces. Litter is waste which has been disposed of improperly...

 treatment?" A notable example resides in a Danish industrial park in the city of Kalundborg
Kalundborg Eco-industrial Park
In Kalundborg, Denmark an Industrial symbiosis network exists where companies in a region collaborate to use each other's by-products and otherwise share resources. At the center is the Asnæs Power Station, a 1500MW coal fired power plant, which has material and energy links with the community and...

. Here several linkages of byproducts and waste heat can be found between numerous entities such as a large power plant, an oil refinery, a pharmaceutical plant, a plasterboard factory, an enzyme manufacturer, a waste company and the city itself.

The scientific field Industrial Ecology has grown quickly in recent years. The Journal of Industrial Ecology (since 1997), the International Society for Industrial Ecology (since 2001), and the journal Progress in Industrial Ecology (since 2004) give Industrial Ecology a strong and dynamic position in the international scientific community. Industrial Ecology principles are also emerging in various policy realms such as the concept of the Circular Economy that is being promoted in China. Although the definition of the Circular Economy has yet to be formalized, generally the focus is on strategies such as creating a circular flow of materials, and cascading energy flows. An example of this would be using waste heat
Waste heat
Waste heat sometimes called Secondary heat or Low-grade heat refers to heat produced by machines, electrical equipment and industrial processes for which no useful application is found. Energy is often produced by a heat engine, running on a source of high-temperature heat...

 from one process to run another process that requires a lower temperature. The hope is that strategy such as this will create a more efficient economy with fewer pollutants and other unwanted by products.

Principles

One of the central principles of Industrial Ecology is the view that societal and technological systems are bounded within the biosphere
Biosphere
The biosphere is the global sum of all ecosystems. It can also be called the zone of life on Earth, a closed and self-regulating system...

, and do not exist outside of it. Ecology
Ecology
Ecology is the scientific study of the relations that living organisms have with respect to each other and their natural environment. Variables of interest to ecologists include the composition, distribution, amount , number, and changing states of organisms within and among ecosystems...

 is used as a metaphor due to the observation that natural systems reuse materials and have a largely closed loop cycling of nutrients. Industrial Ecology approaches problems with the hypothesis that by using similar principles as natural systems, industrial systems can be improved to reduce their impact on the natural environment as well. The table shows the general metaphor.
Biosphere Technosphere
  • Environment

  • Organism

  • Natural Product

  • Natural Selection

  • Ecosystem

  • Ecological Niche

  • Anabolism / Catabolism

  • Mutation and Selection

  • Succession

  • Adaptation

  • Food Web
  • Market

    • Company

    • Industrial Product

    • Competition

    • Eco-Industrial Park

    • Market Niche

    • Manufacturing / Waste Management

    • Design for Environment

    • Economic Growth

    • Innovation

    • Product Life Cycle


    The Kalundborg industrial park is located in Denmark. This industrial park is special because companies reuse each others' waste (which then becomes by-products). For example, the Energy E2 Asnæs Power Station produces gypsum as a by product of the electricity generation process; this gypsum becomes a resource for the BPB Gyproc A/S which produces plasterboards. This is one example of a system inspired by the biosphere-technosphere metaphor: in ecosystems, the waste from one organism is used as inputs to other organisms; in industrial systems, waste from a company is used as a resource by others.

    Apart from the direct benefit of incorporating waste into the loop, the use of an eco-industrial park can be a means of making renewable energy generating plants, like Solar PV, more economical and environmentally friendly. In essence, this assists the growth of the renewable energy industry and the environmental benefits that come with replacing fossil-fuels.

    IE examines societal issues and their relationship with both technical systems and the environment. Through this holistic view , IE recognizes that solving problems must involve understanding the connections that exist between these systems, various aspects cannot be viewed in isolation. Often changes in one part of the overall system
    System
    System is a set of interacting or interdependent components forming an integrated whole....

     can propagate and cause changes in another part. Thus, you can only understand a problem if you look at its parts in relation to the whole. Based on this framework, IE looks at environmental issues with a systems thinking
    Systems thinking
    Systems thinking is the process of understanding how things influence one another within a whole. In nature, systems thinking examples include ecosystems in which various elements such as air, water, movement, plants, and animals work together to survive or perish...

    approach.

    Take a city for instance. A city can be divided into commercial areas, residential areas, offices, services, infrastructures, etc. These are all sub-systems of the 'big city’ system. Problems can emerge in one sub-system, but the solution has to be global. Let’s say the price of housing is rising dramatically because there is too high a demand for housing. One solution would be to build new houses, but this will lead to more people living in the city, leading to the need of more infrastructure like roads, schools, more supermarkets, etc. This system is a simplified interpretation of reality whose behaviors can be ‘predicted’.

    In many cases, the systems IE deals with are complex systems. Complexity makes it difficult to understand the behavior of the system and may lead to rebound effects. Due to unforeseen behavioral change of users or consumers, a measure taken to improve environmental performance does not lead to any improvement or may even worsen the situation. For instance, in big cities, traffic can become problematic. Let's imagine the government wants to reduce air pollution and makes a policy stating that only cars with an even license plate number can drive on Tuesdays and Thursdays. Odd license plate numbers can drive on Wednesdays and Fridays. Finally, the other days, both cars are allowed on the roads.
    The first effect could be that people buy a second car, with a specific demand for license plate numbers, so they can drive every day. The rebound effect is that, the days when all cars are allowed to drive, some inhabitants now use both cars (whereas they only had one car to use before the policy). The policy did obviously not lead to environmental improvement but even made air pollution worse.

    Moreover, life cycle thinking is also a very important principle in industrial ecology. It implies that all environmental impacts caused by a product, system, or project during its life cycle are taken into account. In this context life cycle includes
    • Raw material
      Raw material
      A raw material or feedstock is the basic material from which a product is manufactured or made, frequently used with an extended meaning. For example, the term is used to denote material that came from nature and is in an unprocessed or minimally processed state. Latex, iron ore, logs, and crude...

       extraction
    • Material processing
    • Manufacture
    • Use
    • Maintenance
    • Disposal

    The transport necessary between these stages is also taken into account as well as, if relevant, extra stages such as reuse, remanufacture, and recycle.
    Adopting a life cycle approach is essential to avoid shifting environmental impacts from one life cycle stage to another. This is commonly referred to as problem shifting. For instance, during the re-design of a product, one can choose to reduce its weight, thereby decreasing use of resources. However, it is possible that the lighter materials used in the new product will be more difficult to dispose of. The environmental impacts of the product gained during the extraction phase are shifted to the disposal phase. Overall environmental improvements are thus null.

    A final and important principle of IE is its integrated approach or multidisciplinarity. IE takes into account three different disciplines: social sciences (including economics), technical sciences and environmental sciences. The challenge is to merge them into a single approach.

    Tools

    People Planet Profit Modeling
    • Stakeholder analysis
      Stakeholder analysis
      Stakeholder analysis in conflict resolution, project management, and business administration, is the process of identifying the individuals or groups that are likely to affect or be affected by a proposed action, and sorting them according to their impact on the action and the impact the action...


    • Strength Weakness Opportunities Threats Analysis (SWOT Analysis
      SWOT analysis
      SWOT analysis is a strategic planning method used to evaluate the Strengths, Weaknesses/Limitations, Opportunities, and Threats involved in a project or in a business venture...

      )

    • Ecolabelling

    • ISO 14000
      ISO 14000
      The ISO 14000 environmental management standards exist to help organizations minimize how their operations negatively affect the environment The ISO 14000 environmental management standards exist to help organizations (a) minimize how their operations (processes etc.) negatively affect the...


    • Environmental management system
      Environmental Management System
      Environmental management system refers to the management of an organization's environmental programs in a comprehensive, systematic, planned and documented manner....

       (EMS)

    • Integrated chain management
      Integrated chain management
      Integrated Chain Management , also known as Integral Chain Management, is an approach for the reduction of environmental impact of product chains. Such a product chain exists out of an extraction phase, a production phase, a use phase and a waste phase. The ultimate goal of ICM is a reduction of...

       (ICM)

    • Technology assessment
      Technology assessment
      Technology assessment Technology assessment Technology assessment (TA, German Tenteractive, and communicative process that aims to contribute to the formation of public and political opinion on societal aspects of science and technology.- General description :...

  • Environmental impact assessment
    Environmental impact assessment
    An environmental impact assessment is an assessment of the possible positive or negative impact that a proposed project may have on the environment, together consisting of the natural, social and economic aspects....

     (EIA)

    • Input-output analysis (IOA)

    • Life-cycle assessment (LCA)

    • Material flow analysis
      Material flow analysis
      Material flow analysis is an analytical method of quantifying flows and stocks of materials or substances in a well-defined system. MFA is an important tool to assess the physical consequences of human activities and needs in the field of Industrial Ecology, where it is used on different spatial...

       (MFA)

    • Substance flow analysis (SFA)

    • MET Matrix
      MET Matrix
      A MET Matrix is an analysis tool used to evaluate various environmental impacts of a product over its life cycle. The tool takes the form of a 3x3 matrix with descriptive text in each of its cells...

  • Cost benefit analysis (CBA)

    • Full cost accounting
      Full cost accounting
      Full cost accounting generally refers to the process of collecting and presenting information - about environmental, social, and economic costs and benefits/advantages - for each proposed alternative when a decision is necessary. It is a conventional method of cost accounting that traces direct...

       (FCA)

    • Life cycle costing
      Whole-life cost
      Whole-life cost, or Life-cycle cost , refers to the total cost of ownership over the life of an asset . Also commonly referred to as "cradle to grave" or "womb to tomb" costs. Costs considered include the financial cost which is relatively simple to calculate and also the environmental and...

        (LCC)
  • Stock and flow analysis

    • Agent based modeling

    Future directions

    The ecosystem
    Ecosystem
    An ecosystem is a biological environment consisting of all the organisms living in a particular area, as well as all the nonliving , physical components of the environment with which the organisms interact, such as air, soil, water and sunlight....

     metaphor popularized by Frosch and Gallopoulos has been a valuable creative tool for helping researchers look for novel solutions to difficult problems. Recently, it has been pointed out that this metaphor is based largely on a model of classical ecology, and that advancements in understanding ecology based on complexity science have been made by researchers such as C. S. Holling
    C. S. Holling
    Crawford Stanley Holling, OC is a Canadian ecologist, and Emeritus Eminent Scholar and Professor in Ecological Sciences at the University of Florida. Holling is one of the conceptual founders of ecological economics....

    , James J. Kay
    James J. Kay
    James J. Kay was an ecological scientist and policy-maker. He was a respected physicist best known for his theoretical work on complexity and thermodynamics.-Biography:...

    , and others. For industrial ecology, this may mean a shift from a more mechanistic view of systems, to one where sustainability
    Sustainability
    Sustainability is the capacity to endure. For humans, sustainability is the long-term maintenance of well being, which has environmental, economic, and social dimensions, and encompasses the concept of union, an interdependent relationship and mutual responsible position with all living and non...

     is viewed as an emergent
    Emergence
    In philosophy, systems theory, science, and art, emergence is the way complex systems and patterns arise out of a multiplicity of relatively simple interactions. Emergence is central to the theories of integrative levels and of complex systems....

     property of a complex system. To explore this further, several researchers are working with agent based modeling techniques
    Multi-agent system
    A multi-agent system is a system composed of multiple interacting intelligent agents. Multi-agent systems can be used to solve problems that are difficult or impossible for an individual agent or a monolithic system to solve...


    .

    Exergy
    Exergy
    In thermodynamics, the exergy of a system is the maximum useful work possible during a process that brings the system into equilibrium with a heat reservoir. When the surroundings are the reservoir, exergy is the potential of a system to cause a change as it achieves equilibrium with its...

     analysis is performed in the field of industrial ecology to use energy more efficiently. The term exergy was coined by Zoran Rant
    Zoran Rant
    Zoran Rant was a Slovene mechanical engineer, scientist and professor, associate member of SAZU. He invented terms known today as "exergy and anergy"....

     in 1956, but the concept was developed by J. Willard Gibbs
    Josiah Willard Gibbs
    Josiah Willard Gibbs was an American theoretical physicist, chemist, and mathematician. He devised much of the theoretical foundation for chemical thermodynamics as well as physical chemistry. As a mathematician, he invented vector analysis . Yale University awarded Gibbs the first American Ph.D...

    . In recent decades, utilization of exergy has spread outside of physics and engineering to the fields of industrial ecology, ecological economics
    Ecological economics
    Image:Sustainable development.svg|right|The three pillars of sustainability. Clickable.|275px|thumbpoly 138 194 148 219 164 240 182 257 219 277 263 291 261 311 264 331 272 351 283 366 300 383 316 394 287 408 261 417 224 424 182 426 154 423 119 415 87 403 58 385 40 368 24 347 17 328 13 309 16 286 26...

    , systems ecology
    Systems ecology
    Systems ecology is an interdisciplinary field of ecology, taking a holistic approach to the study of ecological systems, especially ecosystems. Systems ecology can be seen as an application of general systems theory to ecology. Central to the systems ecology approach is the idea that an ecosystem...

    , and energetics
    Energetics
    Energetics is the study of energy under transformation. Because energy flows at all scales, from the quantum level to the biosphere and cosmos, energetics is a very broad discipline, encompassing for example thermodynamics, chemistry, biological energetics, biochemistry and ecological energetics...

    .

    Recently, there has been work advocating for large scale photovoltaic production facilities in an industrial ecology setting. These facilities not only reduce their environmental impact but also decrease the costs of photovoltaic productions to as little as $1 per Watt by economy of scale.

    See also

    • Biomimicry
      Biomimicry
      Biomimicry or biomimetics is the examination of nature, its models, systems, processes, and elements to emulate or take inspiration from in order to solve human problems. The term biomimicry and biomimetics come from the Greek words bios, meaning life, and mimesis, meaning to imitate...

    • Cleaner production
      Cleaner production
      Cleaner production is a preventive, company-specific environmental protection initiative. It is intendend to minimize waste and emissions and maximize product output. By analysing the flow of materials and energy in a company, one tries to identify options to minimize waste and emissions out of...

    • Conservation (ethic)
    • Dematerialization
      Dematerialization
      -Dematerialization in economics:In economics, dematerialization refers to the absolute or relative reduction in the quantity of materials required to serve economic functions in society. In common terms, dematerialization means doing more with less...

    • Eco-efficiency
      Eco-efficiency
      The term eco-efficiency was coined by the World Business Council for Sustainable Development in its 1992 publication "Changing Course". It is based on the concept of creating more goods and services while using fewer resources and creating less waste and pollution.The 1992 Earth Summit endorsed...

    • Eco-industrial park
      Eco-industrial park
      An eco-industrial park is an industrial park in which businesses cooperate with each other and with the local community in an attempt to reduce waste and pollution, efficiently share resources , and help achieve sustainable development, with the intention of increasing economic gains and improving...

    • Ecological economics
      Ecological economics
      Image:Sustainable development.svg|right|The three pillars of sustainability. Clickable.|275px|thumbpoly 138 194 148 219 164 240 182 257 219 277 263 291 261 311 264 331 272 351 283 366 300 383 316 394 287 408 261 417 224 424 182 426 154 423 119 415 87 403 58 385 40 368 24 347 17 328 13 309 16 286 26...

    • Ecological modernization
      Ecological modernization
      Ecological modernization is an optimistic school of thought in the social sciences that argues that the economy benefits from moves towards environmentalism...

    • Energy accounting
      Energy accounting
      Energy accounting is a system used within industry, where measuring and analyzing the energy consumption of different activities is done to improve energy efficiency.-Energy management:...

    • Environmental economics
      Environmental economics
      Environmental economics is a subfield of economics concerned with environmental issues. Quoting from the National Bureau of Economic Research Environmental Economics program:...

    • Environmental design
      Environmental design
      Environmental design is the process of addressing surrounding environmental parameters when devising plans, programs, policies, buildings, or products...

    • Evolutionary economics
      Evolutionary economics
      Evolutionary economics is part of mainstream economics as well as heterodox school of economic thought that is inspired by evolutionary biology...

    • Extended producer responsibility
      Extended producer responsibility
      Extended producer responsibility is a strategy designed to promote the integration of environmental costs associated with goods throughout their life cycles into the market price of the products.- Definition :...

    • Helix of sustainability
      Helix of sustainability
      The helix of sustainability is a concept coined to help manufacturing industry move to more sustainable practices by mapping its models of raw material use and reuse onto those of nature.The environmental benefits of the use crop origin sustainable materials have been assumed to be self evident,...

    • Industrial metabolism
      Industrial metabolism
      Industrial metabolism was first proposed by Robert Ayres as "the whole integrated collection of physical processes that convert raw materials and energy, plus labour, into finished products and wastes..." The goal is to study the flow of materials through society in order to better understand the...

    • Industrial symbiosis
      Industrial symbiosis
      Industrial symbiosis can be defined as sharing of services, utility, and by-product resources among diverse industrial actors in order to add value, reduce costs and improve the environment. Industrial symbiosis is a subset of industrial ecology, with a particular focus on material and energy...

    • Low-carbon economy
      Low-carbon economy
      A Low-Carbon Economy or Low-Fossil-Fuel Economy is an economy that has a minimal output of greenhouse gas emissions into the environment biosphere, but specifically refers to the greenhouse gas carbon dioxide...

    • Life cycle assessment
      Life cycle assessment
      A life-cycle assessment is a technique to assess environmental impacts associated with all the stages of a product's life from-cradle-to-grave A life-cycle assessment (LCA, also known as life-cycle analysis, ecobalance, and cradle-to-grave analysis) is a technique to assess environmental impacts...

    • Material flow accounting
      Material flow accounting
      Material flow accounting is the study of material flows on a national or regional scale. It is therefore sometimes also referred to as regional, national or economy-wide material flow analysis.-Definition:...

    • Material flow analysis
      Material flow analysis
      Material flow analysis is an analytical method of quantifying flows and stocks of materials or substances in a well-defined system. MFA is an important tool to assess the physical consequences of human activities and needs in the field of Industrial Ecology, where it is used on different spatial...

    • Product stewardship
      Product stewardship
      Product stewardship is a concept whereby environmental protection centers around the product itself, and everyone involved in the lifespan of the product is called upon to take up responsibility to reduce its environmental impact. For manufacturers, this includes planning for, and if necessary,...

    • Sustainable design
      Sustainable design
      Sustainable design is the philosophy of designing physical objects, the built environment, and services to comply with the principles of economic, social, and ecological sustainability.-Intentions:The intention of sustainable design is to "eliminate negative environmental...



    Further reading

    • The industrial green game: implications for environmental design and management, Deanna J Richards (Ed), National Academy Press, Washington DC, USA, 1997, ISBN 0-309-05294-7
    • 'Handbook of Input-Output Economics in Industrial Ecology', Sangwon Suh (Ed), Springer, 2009, ISBN 978-1402061547

    External links

    Academic/Research Programs

    Research Centers/Institutes

    Articles and books
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