Integrated assessment of global climate change with learning-by-doing and energy-related research and development : Technology in climate policy and climate models
Identifieur interne : 000858 ( PascalFrancis/Corpus ); précédent : 000857; suivant : 000859Integrated assessment of global climate change with learning-by-doing and energy-related research and development : Technology in climate policy and climate models
Auteurs : Georg Müller-Fürstenberger ; Gunter StephanSource :
- Energy policy [ 0301-4215 ] ; 2007.
Descripteurs français
- Pascal (Inist)
English descriptors
- KwdEn :
Abstract
This paper presents a small-scale version of an Integrated Assessment Model (IAM) of global climate change, which is based on a global, regionally differentiated computable general equilibrium (CGE) model with endogenous technological change. This model can be viewed as a basic framework for analyzing a broad range of economic issues related to climate change, in particular since technological change is represented in two ways: on the one hand, there is learning-by-doing (LbD) in non-fossil energy supply technologies, and on the other hand there is research and development (R&D)-driven energy-saving technical progress in production. Computational experiments are added for illustrating the role of technological innovation in a world both with and without cooperation in the solution of the global climate problem.
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NO : | PASCAL 08-0118955 INIST |
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ET : | Integrated assessment of global climate change with learning-by-doing and energy-related research and development : Technology in climate policy and climate models |
AU : | MÜLLER-FÜRSTENBERGER (Georg); STEPHAN (Gunter) |
AF : | Department of Economics and NCCR Climate, Trier University/54286 Trier/Allemagne (1 aut.); Department of Economics and NCCR Climate, Bern University/3001 Bern/Suisse (2 aut.) |
DT : | Publication en série; Niveau analytique |
SO : | Energy policy; ISSN 0301-4215; Coden ENPYAC; Royaume-Uni; Da. 2007; Vol. 35; No. 11; Pp. 5298-5309; Bibl. 1/2 p. |
LA : | Anglais |
EA : | This paper presents a small-scale version of an Integrated Assessment Model (IAM) of global climate change, which is based on a global, regionally differentiated computable general equilibrium (CGE) model with endogenous technological change. This model can be viewed as a basic framework for analyzing a broad range of economic issues related to climate change, in particular since technological change is represented in two ways: on the one hand, there is learning-by-doing (LbD) in non-fossil energy supply technologies, and on the other hand there is research and development (R&D)-driven energy-saving technical progress in production. Computational experiments are added for illustrating the role of technological innovation in a world both with and without cooperation in the solution of the global climate problem. |
CC : | 001D06A01B; 001D16C04A; 001D06A01A; 230 |
FD : | Lutte antipollution; Prévention pollution; Changement technologique; Endogène; Conservation énergie; Recherche et développement; Energie renouvelable; Pénétration marché; Apprentissage; Modèle équilibre général; Production énergie; Changement climatique |
FG : | Climatologie dynamique |
ED : | Pollution control; Pollution prevention; Technological change; Endogenous; Energy conservation; Research and development; Renewable energy; Market penetration; Learning; General equilibrium model; Power production; Climate change |
EG : | Dynamical climatology |
SD : | Lucha anticontaminación; Prevención polución; Cambio tecnológico; Endógeno; Conservación energética; Investigación desarrollo; Energía renovable; Penetración mercado; Aprendizaje; Modelo equilibrio general; Producción energía; Cambio climático |
LO : | INIST-16417.354000160943780030 |
ID : | 08-0118955 |
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Pascal:08-0118955Le document en format XML
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<ET>Integrated assessment of global climate change with learning-by-doing and energy-related research and development : Technology in climate policy and climate models</ET>
<AU>MÜLLER-FÜRSTENBERGER (Georg); STEPHAN (Gunter)</AU>
<AF>Department of Economics and NCCR Climate, Trier University/54286 Trier/Allemagne (1 aut.); Department of Economics and NCCR Climate, Bern University/3001 Bern/Suisse (2 aut.)</AF>
<DT>Publication en série; Niveau analytique</DT>
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<LA>Anglais</LA>
<EA>This paper presents a small-scale version of an Integrated Assessment Model (IAM) of global climate change, which is based on a global, regionally differentiated computable general equilibrium (CGE) model with endogenous technological change. This model can be viewed as a basic framework for analyzing a broad range of economic issues related to climate change, in particular since technological change is represented in two ways: on the one hand, there is learning-by-doing (LbD) in non-fossil energy supply technologies, and on the other hand there is research and development (R&D)-driven energy-saving technical progress in production. Computational experiments are added for illustrating the role of technological innovation in a world both with and without cooperation in the solution of the global climate problem.</EA>
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