Model Effectiviteit Instrumenten-Energiebesparing Industrie (MEI-Energie)
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Series / Report no.
Open Access
Type
Report
Language
en
Date
2001-03-16
Research Projects
Organizational Units
Journal Issue
Title
Model Effectiviteit Instrumenten-Energiebesparing
Industrie (MEI-Energie)
Translated Title
Model for Effectiveness of Policy Instruments for
the Energy-Saving in Industry (MEI-Energy)
Published in
Abstract
Het rapport beschrijft het rekenkundig onderzoeksmodel
'Model Effectiviteit Instrumenten Energiebesparing Industrie (MEI-Energie)'.
Dit model brengt de energiebesparing door industriele sectoren, aan de hand
van het maatregelbestand ICARUS, in het verleden en in de toekomst in kaart
en vormt een resultaat van het ontwikkelingstraject binnen het RIVM waarbij
kennisontwikkeling over energiegebruik en -besparing centraal staat. Het
model tracht zoveel mogelijk recht te doen aan de besluitvormingsprocessen
van industriele bedrijven binnen een sector om al dan niet te investeren in
een energiebesparende techniek. Hierop zijn verschillende factoren van
invloed zoals kenmerken van de techniek, de industriele sector, de
maatschappelijke omgeving en het beleid. Dit rapport beschrijft de
structuur van het MEI-Energie, waarbij met name aandacht wordt besteed aan
de positie van beleidsinstrumenten in het model. Ook worden de resultaten
van een review van het model, uitgevoerd door het Centrum voor Schone
Technologie en Milieubeleid, gepresenteerd. Tot slot wordt aangegeven op
welke punten het modelconcept hierop is aangepast.
Within the context of the Kyoto Protocol insight into industrial energy savings and the influence of policy instruments is desirable, both for the past and the future. By virtue of its legal central policy analysis function, the RIVM is currently developing an energy-saving model for industrial firms, called MEI-Energy (Model for Effectiveness of Policy Instruments for the Energy-Saving in Industry). The outline of this model was based on the results of an RIVM exploratory study on three existing energy-saving computer models, determinants of energy use and empirical data. This report discusses the structure of the research model. The model structure is discussed here. The model describes the investment behaviour of firms within an industrial sector towards energy-saving techniques. Industrial firms are spurred on to invest in such techniques by several factors, based on the following four categories: technical energy-saving measures (e.g. complexity, investment costs); the industrial sector (e.g. innovation efforts, willingness to invest); social surroundings (e.g. social pressure, activity of environmental interest groups); policy instruments and policy environment (e.g. levies, subsidies, voluntary agreements, enforcement). Guided strongly by these factors, firms decide whether they will or will not implement an energy-saving technique. A diffusion curve can be constructed per technique on the basis of two types of decision-making: (1) an economic-rational decision based on quantitative criteria such as energy prices, depreciation terms of techniques, investment costs etc.; (2) a 'softer' decision-making process in which such factors as attitude of the sector towards the environment and the pressure exerted by policy instruments play an important role (the so-called 'driving forces'). The model calculates the diffusion curve per technique per sector. The diffusion curves of all techniques are aggregated to compute the total energy saving of a sector. Since policy instruments are central to the model, the Centre of Clean Technology and Environmental Policy (University of Twente) has been asked to review the model. The results of the review and translated comments on the model are included here.
Within the context of the Kyoto Protocol insight into industrial energy savings and the influence of policy instruments is desirable, both for the past and the future. By virtue of its legal central policy analysis function, the RIVM is currently developing an energy-saving model for industrial firms, called MEI-Energy (Model for Effectiveness of Policy Instruments for the Energy-Saving in Industry). The outline of this model was based on the results of an RIVM exploratory study on three existing energy-saving computer models, determinants of energy use and empirical data. This report discusses the structure of the research model. The model structure is discussed here. The model describes the investment behaviour of firms within an industrial sector towards energy-saving techniques. Industrial firms are spurred on to invest in such techniques by several factors, based on the following four categories: technical energy-saving measures (e.g. complexity, investment costs); the industrial sector (e.g. innovation efforts, willingness to invest); social surroundings (e.g. social pressure, activity of environmental interest groups); policy instruments and policy environment (e.g. levies, subsidies, voluntary agreements, enforcement). Guided strongly by these factors, firms decide whether they will or will not implement an energy-saving technique. A diffusion curve can be constructed per technique on the basis of two types of decision-making: (1) an economic-rational decision based on quantitative criteria such as energy prices, depreciation terms of techniques, investment costs etc.; (2) a 'softer' decision-making process in which such factors as attitude of the sector towards the environment and the pressure exerted by policy instruments play an important role (the so-called 'driving forces'). The model calculates the diffusion curve per technique per sector. The diffusion curves of all techniques are aggregated to compute the total energy saving of a sector. Since policy instruments are central to the model, the Centre of Clean Technology and Environmental Policy (University of Twente) has been asked to review the model. The results of the review and translated comments on the model are included here.
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RIVM