Eco-costs
Encyclopedia
Eco-costs are a measure to express the amount of 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 € 135,- in offshore windmill parks (and 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 € 135,-".
Similar calculations can be made on the environmental burden of acidification, eutrification, summer smog, fine dust, eco-toxicity, and the use of metals, fossil fuels and land (nature).
As such, the eco-costs are virtual 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 materials and energy 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 14040 and ISO 14044.
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
(€) 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 EVR
and in the Journal of Cleaner Production.
In 2007 the system has been updated, and published in 2010. It is planned to update the system every 5 years to incorporate the latest developments in science. In 2012 (January) a new update will be released.
The concept of eco-costs has been made operational with general databases, and is described at www.ecocostsvalue.com of the Delft University of Technology.
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, material depletion, energy consumption and transport, and conversion of land. For a visual display of the system see figure 1.
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. 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, the University of Nijmegen and the University of Michigan), 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), to reduce the pollution to the “no observable adverse effect level” (related to the threshold level of a toxic substance). 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 required to meet the target, and the corresponding level of future Tradable Emission Rights
. Example: For reduction of CO2 emissions to a sustainable level, the marginal prevention costs is the cost of replacement of coal fired power plants by windmill parks at the sea.
The eco-costs have been calculated for the situation in the European Union. 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. A group of universities in Japan have developed a set of data for "abatement costs" in Japan as well.
For emissions of toxic substances, the following set of multipliers is used in the eco-costs 2012 system:
Two groups of the abovementioned marginal prevention costs can be distinguished:
The eco-costs of abiotic depletion is 0.7 €/kg for fossil fuels.Tables for metals depletion are provided at the abovementioned website. The eco-costs of material depletion of tropical hardwood are based on the change of biodiversity before and after harvesting.
The characterisation ("midpoint") tables which are applied in the eco-costs 2012 system:
problems in terms of DALYs). The savings which are a result of the prevention measures are of the same order of magnitude as the costs of prevention. So the total effect of prevention measures on our society is that it results in a better environment at virtually no extra costs, since costs of prevention and costs of savings will level out.
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 gas
ses 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 1990ties, 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 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).
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 disadvantage is that the system is not focused on the fact that people should consume less.
- an excel table with data on emissions and materials depletion (more than 3000 substances), see
- an excel table on products and processes, based on Ecoinvent LCIs and Idemat LCIs (more than 6000 lines), see
Resource depletion
Resource depletion is an economic term referring to the exhaustion of raw materials within a region. Resources are commonly divided between renewable resources and non-renewable resources...
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
Greenhouse effect
The greenhouse effect is a process by which thermal radiation from a planetary surface is absorbed by atmospheric greenhouse gases, and is re-radiated in all directions. Since part of this re-radiation is back towards the surface, energy is transferred to the surface and the lower atmosphere...
, one should invest € 135,- in offshore windmill parks (and 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 € 135,-".
Similar calculations can be made on the environmental burden of acidification, eutrification, summer smog, fine dust, eco-toxicity, and the use of metals, fossil fuels and land (nature).
As such, the eco-costs are virtual 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 materials and energy during the life cycle "from cradle to cradle". The widely accepted method to make such a calculation is called 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...
(LCA), which is basically a mass and energy balance, defined in the 14040 and ISO 14044.
The practical use of eco-costs is to compare the 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...
of several product types with the same functionality.
The advantage of eco-costs is that they are expressed in a standardized monetary value
Value (economics)
An economic value is the worth of a good or service as determined by the market.The economic value of a good or service has puzzled economists since the beginning of the discipline. First, economists tried to estimate the value of a good to an individual alone, and extend that definition to goods...
(€) 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 EVR
Eco-costs value ratio
The EVR model is a Life Cycle Assessment based method to analyse consumption patterns, business strategies and design options in terms of eco-efficient value creation. Next to this it is used to compare products and service systems ....
Background information
The eco-costs system has been introduced in 1999 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. It is planned to update the system every 5 years to incorporate the latest developments in science. In 2012 (January) a new update will be released.
The concept of eco-costs has been made operational with general databases, and is described at www.ecocostsvalue.com of the Delft University of Technology.
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, material depletion, energy consumption and transport, and conversion of land. For a visual display of the system see figure 1.
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
Greenhouse effect
The greenhouse effect is a process by which thermal radiation from a planetary surface is absorbed by atmospheric greenhouse gases, and is re-radiated in all directions. Since part of this re-radiation is back towards the surface, energy is transferred to the surface and the lower atmosphere...
, acidification
Multi-effect Protocol
The 1999 Multi-effect Protocol is a multi-pollutant protocol designed to reduce acidification, eutrophication and ground-level ozone by setting emissions ceilings for sulphur dioxide, nitrogen oxides, volatile organic compounds and ammonia to be met by 2010.The Protocol is part of the Convention...
, nutrification, etc.). The classical problem is then to determine the relative importance of each midpoint effect. 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, the University of Nijmegen and the University of Michigan), 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), to reduce the pollution to the “no observable adverse effect level” (related to the threshold level of a toxic substance). 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
Best Available Technology
Best available technology is a term applied with regulations on limiting pollutant discharges with regard to the abatement strategy. Similar terms are best available techniques , best practicable means or best practicable environmental option...
which is required to meet the target, and the corresponding level of future Tradable Emission Rights
Emissions trading
Emissions trading is a market-based approach used to control pollution by providing economic incentives for achieving reductions in the emissions of pollutants....
. Example: For reduction of CO2 emissions to a sustainable level, the marginal prevention costs is the cost of replacement of coal fired power plants by windmill parks at the sea.
The eco-costs have been calculated for the situation in the European Union. 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
Level playing field
A level playing field is a concept about fairness, not that each player has an equal chance to succeed, but that they all play by the same set of rules. A metaphorical playing field is said to be level if no external interference affects the ability of the players to compete fairly...
for production companies. A group of universities in Japan have developed a set of data for "abatement costs" in Japan as well.
Eco-costs 2012
The method of the eco-costs 2012 comprises tables of over 3000 emissions, and has been made operational by special database for Simapro, based on LCIs from Ecoinvent v2.2 and Idemat 2012 (over 6000 materials and processes), and a database for CES (Cambridge Engineering Selector). Excel look-up tables are provided at www.ecocostsvalue.com.For emissions of toxic substances, the following set of multipliers is used in the eco-costs 2012 system:
- prevention of acidification 8.25 €/kg SOx equivalent
- prevention of eutrophication 3.90 €/kg phosphate equivalent
- prevention of ecotoxicity 55 €/kg Zn equivalent
- prevention of carcinogens 36 €/kg PAH equivalent
- prevention of summer smog (respiratory diseases) 9.70 €/kg C2H4 equivalent
- prevention of fine dust 29.65 €/kg fine dust PM2.5
- prevention of global warming (GWP 100) 0.135 €/kg CO2 equivalent
Two groups of the abovementioned marginal prevention costs can be distinguished:
- eco-costs of human health = the sum of carcinogens, summer smog, fine dust
- eco-costs of ecosystems = the sum of acidification, eutrophication, ecotoxicity and global warming
The eco-costs of abiotic depletion is 0.7 €/kg for fossil fuels.Tables for metals depletion are provided at the abovementioned website. The eco-costs of material depletion of tropical hardwood are based on the change of biodiversity before and after harvesting.
The characterisation ("midpoint") tables which are applied in the eco-costs 2012 system:
- IPPC 2007, 100 years, for greenhouse gasses
- RECIPE, for acidification, eutrification, summer smog (photochemical oxidant formation)and aquatic eco-toxicity (including heavy metals)
- IMPACT 2002+, for fine dust and carcinogens
Prevention costs versus Damage costs
Prevention measures will decrease the costs of the damage, related to environmental pollution (e.g. damage costs related to human healthHealth
Health is the level of functional or metabolic efficiency of a living being. In humans, it is the general condition of a person's mind, body and spirit, usually meaning to be free from illness, injury or pain...
problems in terms of DALYs). The savings which are a result of the prevention measures are of the same order of magnitude as the costs of prevention. So the total effect of prevention measures on our society is that it results in a better environment at virtually no extra costs, since costs of prevention and costs of savings will level out.
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
Carbon footprint
A carbon footprint has historically been defined as "the total set of greenhouse gas emissions caused by an organization, event, product or person.". However, calculating a carbon footprint which conforms to this definition is often impracticable due to the large amount of data required, which is...
: the total emissions of kg CO2, or kg CO2 equivalent (taking methane and some other greenhouse gas
Greenhouse gas
A greenhouse gas is a gas in an atmosphere that absorbs and emits radiation within the thermal infrared range. This process is the fundamental cause of the greenhouse effect. The primary greenhouse gases in the Earth's atmosphere are water vapor, carbon dioxide, methane, nitrous oxide, and ozone...
ses 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 1990ties, 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 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).
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 disadvantage is that the system is not focused on the fact that people should consume less.
Four available databases
- 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 3000 substances), see
- an excel table on products and processes, based on Ecoinvent LCIs and Idemat LCIs (more than 6000 lines), see
- an import Simapro database for the method and an import Simapro database for Idemat LCIs (software for LCA specialists)
- a database for Cambridge Engineering Selector, Level 2 (software for designers and engineers)
- a dataset for ArchiCAD (software for architects)