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Eco-costs value ratio - Wikipedia
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Eco-costs are the costs of the environmental burden of a product on the basis of prevention of that burden. They are the costs which should be made to reduce the environmental pollution and materials depletion in our world to a level which is in line with the carrying capacity of our earth.

For example: for each 1000 kg CO2 emission, one should invest EUR116,- in offshore windmill parks (plus in the other CO2 reduction systems at that price or less). When this is done consequently, the total CO2 emissions in the world will be reduced by 65% compared to the emissions in 2008. As a result, global warming will stabilise. In short: "the eco-costs of 1000kg CO2 are EUR 116,-".

Similar calculations can be made on the environmental burden of acidification, eutrophication, summer smog, fine dust, eco-toxicity, and the use of metals, rare earths, fossil fuels, water and land (nature). As such, the eco-costs are 'external costs', since they are not yet integrated in the real life costs of current production chains (Life Cycle Costs). The eco-costs should be regarded as hidden obligations.

The eco-costs of a product are the sum of all eco-costs of emissions and use of resources during the life cycle "from cradle to cradle". The widely accepted method to make such a calculation is called life cycle assessment (LCA), which is basically a mass and energy balance, defined in the ISO 14040, and the ISO 14044 (for the building industry the EN 15804).

The practical use of eco-costs is to compare the sustainability of several product types with the same functionality. The advantage of eco-costs is that they are expressed in a standardized monetary value (EUR) which appears to be easily understood 'by instinct'. Also the calculation is transparent and relatively easy, compared to damage based models which have the disadvantage of extremely complex calculations with subjective weighting of the various aspects contributing to the overall environmental burden.

The system of eco-costs is part of the bigger model of the ecocosts/value ratio, EVR.


Video Eco-costs



Background information

The eco-costs system has been introduced in 1999 on conferences, and published in 2000-2004 in the International Journal of LCA, and in the Journal of Cleaner Production. In 2007 the system has been updated, and published in 2010. The next updates were in 2012 and 2017. It is planned to update the system every 5 years to incorporate the latest developments in science.
The concept of eco-costs has been made operational with general databases of the Delft University of Technology, and is described at www.ecocostsvalue.com.
The method of the eco-costs is based on the sum of the marginal prevention costs (end of pipe as well as system integrated) for toxic emissions related to human health as well as ecosystems, emissions that cause global warming, and resource depletion (metals, rare earths, fossil fuels, water, and land-use). For a visual display of the system see Figure 1.

Marginal prevention costs of toxic emissions are derived from the so-called prevention curve as depicted in Figure 2. The basic idea behind such a curve is that a country (or a group of countries, such as the European Union), must take prevention measures to reduce toxic emissions (more than one measure is required to reach the target). From the point of view of the economy, the cheapest measures (in terms of euro/kg) are taken first. At a certain point at the curve, the reduction of the emissions is sufficient to bring the concentration of the pollution below the so-called no-effect-level. The no-effect-level of CO2 emissions is the level that the emissions and the natural absorption of the earth are in equilibrium again at a maximum temperature rise of 2 degrees C. The no-effect-level of a toxic emission is the level where the concentration in nature is well below the toxicity threshold (most natural toxic substances have a toxicity threshold, below which they might even have a beneficial effect), or below the natural background level. For human toxicity the 'no-observed-adverse-effect level' is used. The eco-costs are the marginal prevention costs of the last measure of the prevention curve to reach the no-effect-level. See the abovementioned references 4 and 8 for a full description of the calculation method (note that in the calculation 'classes' of emissions with the same 'midpoint' are combined, as explained below).

The classical way to calculate a 'single indicator' in LCA is based on the damage of the emissions. Pollutants are grouped in 'classes', multiplied by a 'characterisation' factor to account for their relative importance within a class, and totalised to the level of their 'midpoint' effect (global warming, acidification, nutrification, etc.). The classical problem is then to determine the relative importance of each midpoint effect. In damage based systems this is done by 'normalisation' (= comparison with the pollution in a country or a region) and 'weighting' (= giving each midpoint a weight, to take the relative importance into account) by an expert panel.

The calculation of the eco-costs is based on classification and characterisation tables as well (combining tables from IPCC ([2]), the USEtox model (usetox.org), tables of the ILCD ([3]), however has a different approach to the normalisation and weighting steps. Normalisation is done by calculating the marginal prevention costs for a region (i.e. the European Union), as described above. The weighting step is not required in the eco-costs system, since the total result is the sum of the eco-costs of all midpoints. The advantage of such a calculation is that the marginal prevention costs are related to the cost of the most expensive Best Available Technology which is needed to meet the target, and the corresponding level of Tradable Emission Rights which is required in future. From a business point of view, the eco-costs are the costs of non-compliance with future governmental regulations. Example from the past: NOx emissions of Volkswagen diesel.

The eco-costs have been calculated for the situation in the European Union. It is expected that the situation in some states in the USA, like California and Pennsylvania, give similar results. It might be argued that the eco-costs are also an indication of the marginal prevention costs for other parts of the globe, under the condition of a level playing field for production companies.


Maps Eco-costs



Eco-costs 2017

The method of the eco-costs 2017 (version 1.1) comprises tables of over 36.000 emissions, and has been made operational by special database for SimaPro: Idematapp 2017 and Idemat2017 (based on LCIs from Ecoinvent V3.3), Agri Footprint, and a database for CES (Cambridge Engineering Selector). Over 10.000 materials and processes are covered in total. Excel look-up tables are provided at www.ecocostsvalue.com.

For emissions of toxic substances, the following set of multipliers (marginal prevention costs) is used in the eco-costs 2017 system:

The characterisation ('midpoint') tables which are applied in the eco-costs 2017 system, are recommended by the ILCD:

  • IPPC 2013, 100 years, for greenhouse gasses
  • USETOX 2, for human toxicity (carcinogens), and ecotoxicity
  • ILCD, for acidification, eutrification, and photochemical oxidant formation (summer smog)
  • RiskPoll, for fine dust

In addition to abovementioned eco-costs for emissions, there is a set of eco-costs to characterize the 'midpoints' of resource depletion:

  • eco-costs of abiotic depletion (metals, including rare earth, and fossil fuels)
  • eco-costs of land-use change (based on loss of biodiversity, of vascular plants and mammals, used for eco-costs of tropical hardwood)
  • eco-costs of water (based on the midpoint Water Stress Indicator - WSI - of countries )
  • eco-costs of landfill

The abovementioned marginal prevention costs at midpoint level can be combined to 'endpoints' in three groups, plus global warming as a separate group:

Since the endpoints have the same monetary unit (e.g. euro, dollar), they are added up to the total eco-costs without applying a 'subjective' weighting system. This is an advantage of the eco-costs system (see also ISO 14044 section 4.4.3.4 and 4.4.5). So called 'double counting' (ISO 14044 section 4.4.2.2.3) is avoided in the eco-costs system.

The eco-costs of global warming (also called eco-costs of carbon footprint) can be used as an indicator for the carbon footprint. The eco-costs of resource depletion can be regarded as an indicator for 'circularity' in the theory of the circular economy. However, it is advised to include human toxicity and eco-toxicity, and include the eco-costs of global warming in the calculations on the circular economy as well. The eco-costs of global warming are required to reveal the difference between fossil-based products and bio-based products, since biogenic CO2 is not counted in LCA (biogenic CO2 is part of the natural recycle loop in the biosphere). Therefore, total eco-costs can be regarded as a robust indicator for cradle-to-cradle calculations in LCA for products and services in the theory of the circular economy. Since the economic viability of a business model is also an important aspect of the circular economy, the added value of a product-service system should be part of the analysis. This requires the two dimensional approach of Eco-efficient Value Creation as described at the Wikipedia page on the model of the ecocosts/value ratio, EVR.

The Delft University of Technology has developed an single indicator for S-LCA as well, the so-called s-eco-costs, to incorporate the sometimes appalling working conditions in production chains (e.g. production of garments, mining of metals). Aspects are the low minimum wages in developing countries (the "fair wage deficit"), the aspects of "child labour" and extreme poverty", the aspect of "excessive working hours", and the aspect of "OSH (Occupational Safety and Health)". The s-eco-costs system has been published in the Journal of Cleaner Production.


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Prevention costs versus damage costs

Prevention measures will decrease the costs of the damage, related to environmental pollution. The damage costs are in most cases the same (or a bit higher) compared to the prevention costs. So the total effect of prevention measures on our society is that it results in a better environment at no extra costs.


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Discussion

There are many 'single indicators' for LCA. Basically they fall in three categories:

  • single issue
  • damage based
  • prevention based

The best known 'single issue' indicator is the carbon footprint: the total emissions of kg CO2, or kg CO2 equivalent (taking methane and some other greenhouse gasses into account as well). The advantage of a single issue indicator is, that its calculation is simple and transparent, without any complex assumptions. It is easy as well to communicate to the public. The disadvantage is that is ignores the problems caused by other pollutants and it is not suitable for cradle-to-cradle calculations (because materials depletion is not taken into account).
The most common single indicators are damage based. This stems from the period of the 1990s, when LCA was developed to make people aware of the damage of production and consumption. The advantage of damage based single indicators is, that they make people aware of the fact that they should consume less, and make companies aware that they should produce cleaner. The disadvantage is that these damage based systems are very complex, not transparent for others than who make the computer calculations, need many assumptions, and suffer from the subjective weighting procedure as last step at the end. Communication of the result is not easy, since the result is expressed in 'points' (attempts to express the results in money were never very successful, because of methodological flaws and uncertainties). The most recent endpoint indicators avoid the last step to a single indicator: UseTOX 2 and ReCiPe 2016, resulting in 2 respectively 3 endpoints (human health, ecosystems and resources separately).
Prevention based indicators, like the system of the eco-costs, are relatively new. The advantage, in comparison to the damage based systems, is that the calculations are relatively easy and transparent, and that the results can be explained in terms of money and in measures to be taken. The system is focused on the decision taking processes of architects, business people, designers and engineers. The advantage is that it provides 1 single endpoint in euro's. The disadvantage is that the system is not focused on the fact that people should consume less.

The eco-costs are calculated for the situation of the European Union, but are applicable worldwide under the assumption of a level playing field for business, and under the precautionary principle. There are two other prevention based systems, developed after the introduction of the eco-costs, which are based on the local circumstances of a specific country:

  • In the Netherlands, 'shadow prices' have been developed in 2004 by TNO/MEP on basis of a local prevention curve: it are the costs of the most expensive prevention measure required by the Dutch government for each midpoint. It is obvious that such costs are relevant for the local companies, but such a shadow price system doesn't have any meaning outside the Netherlands, since it is not based on the no-effect-level
  • In Japan, a group of universities have developed a set of data for maximum abatement costs (MAC, similar to the midpoint multipliers of the eco-costs as given in the previous section), for the Japanese conditions. The development of the MAC method started in 2002 and has been published in 2005. The so-called avoidable abatement cost (AAC) in this method is comparable to the eco-costs.

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Five available databases

In line with the policy of the Delft University of Technology to bring LCA calculations within reach of everybody, open access excel databases (tables) are made available on the internet, free of charge. Experts on LCA who want to use the eco-costs as a single indicator, can download the full database for Simapro (the Eco-costs Method as well as the Idematapp LCIs), when they have a Simapro licence. Engineers, designers and architects can have databases, free of charge, for CES and ArchiCAD software, provided that they have a licence for the software.

The following databases are available:

  • excel tables on www.ecocostsvalue.com, tab data (look-up tables for designers and engineers):
    • an excel table with data on emissions and materials depletion (more than 35.000 substances), see
    • an excel table on products and processes, based on LCIs of Ecoinvent, Idemat, and Agri Footprint (more than 10,000 lines), only for students at the campus, see
  • an import SimaPro database for the method and an import SimaPro database for Idemat LCIs (software for LCA specialists. www.simapro.com) for people who have a Simapro licence
  • a database for Cambridge Engineering Selector, Level 2 (software for designers and engineers who have a software licence)
  • a dataset for ArchiCAD (software for architects)
  • the IdematApp for Sustainable Materials Selection (available in the App Store of Apple and in the Google Play store). See for more information www.idematapp.com.

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See also

  • Environmental full-cost accounting

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References

Source of the article : Wikipedia

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