Potential impact of transition to a low-carbon transport system in Iceland

This paper develops a system dynamics model of Iceland׳s energy sector (UniSyD_IS) that is based on the UniSyD_NZ model of New Zealand׳s energy economy. The model focuses on the energy supply sector with endogenous representation of road transport energy demand. Equilibrium interactions are performe...

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Veröffentlicht in:	Energy policy 2014-06, Vol.69, p.127-142
Hauptverfasser:	Shafiei, Ehsan, Davidsdottir, Brynhildur, Leaver, Jonathan, Stefansson, Hlynur, Asgeirsson, Eyjolfur Ingi
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Sprache:	eng
Schlagworte:	Air pollution Air pollution caused by fuel industries Alternative fuel vehicles Applied sciences Benefits Biomass energy Carbon Carbon emissions Climate Consumers Consumption Cost Costs Demand (economics) Economic data Economic theory Electric power Energy Energy economics Energy efficiency Energy industry Energy policy Energy sector Energy. Thermal use of fuels Exact sciences and technology Fossil fuels Fuel Fuels General, economic and professional studies General. Regulations. Norms. Economy GHG mitigation Governments Greenhouse effect Ground, air and sea transportation, marine construction Hydrogen Iceland Infrastructure Investment Investments Mathematical models Methodology. Modelling New Zealand Power supply Prices Road transport Road transportation and traffic Saving Studies Supply & demand Taxation Technology Transition cost Transitions Transportation industry Travel Vehicles Western Europe
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creator	Shafiei, Ehsan Davidsdottir, Brynhildur Leaver, Jonathan Stefansson, Hlynur Asgeirsson, Eyjolfur Ingi
description	This paper develops a system dynamics model of Iceland׳s energy sector (UniSyD_IS) that is based on the UniSyD_NZ model of New Zealand׳s energy economy. The model focuses on the energy supply sector with endogenous representation of road transport energy demand. Equilibrium interactions are performed across electricity, hydrogen, biofuels, and road transport sectors. Possible transition paths toward a low-carbon transport in Iceland are explored with implications for fuel demand, greenhouse gas (GHG) emissions and associated costs. The consumer sector simulates the long-term evolution of light and heavy-duty vehicles through a vehicle choice algorithm that accounts for social influences and consumer preferences. Through different scenarios, the influences of four fundamental driving factors are examined. The factors are oil price, carbon tax, fuel supply-push, and government incentives. The results show that changes in travel demand, vehicle technologies, fuel types, and efficiency improvements can support feasible transition paths to achieve sufficient reduction in GHG for both 4°C and 2°C climate scenarios of the Nordic Energy Technology Perspectives study. Initial investment in supply infrastructure for alternative fuels will not only mitigate GHG emissions, but also could provide long-term economic benefits through fuel cost saving for consumers and reduced fuel import costs for government. •UniSyD_IS is an energy system model with endogenous road transport energy demand.•Possible transition paths to low-carbon road transport system in Iceland are explored.•Vehicle choice sector accounts for social influences and consumers’ preferences.•Supply-push costs can be offset by mitigation benefits and fuel cost savings.
doi_str_mv	10.1016/j.enpol.2014.03.013
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Initial investment in supply infrastructure for alternative fuels will not only mitigate GHG emissions, but also could provide long-term economic benefits through fuel cost saving for consumers and reduced fuel import costs for government. •UniSyD_IS is an energy system model with endogenous road transport energy demand.•Possible transition paths to low-carbon road transport system in Iceland are explored.•Vehicle choice sector accounts for social influences and consumers’ preferences.•Supply-push costs can be offset by mitigation benefits and fuel cost savings.</description><identifier>ISSN: 0301-4215</identifier><identifier>EISSN: 1873-6777</identifier><identifier>DOI: 10.1016/j.enpol.2014.03.013</identifier><identifier>CODEN: ENPYAC</identifier><language>eng</language><publisher>Kidlington: Elsevier Ltd</publisher><subject>Air pollution ; Air pollution caused by fuel industries ; Alternative fuel vehicles ; Applied sciences ; Benefits ; Biomass energy ; Carbon ; Carbon emissions ; Climate ; Consumers ; Consumption ; Cost ; Costs ; Demand (economics) ; Economic data ; Economic theory ; Electric power ; Energy ; Energy economics ; Energy efficiency ; Energy industry ; Energy policy ; Energy sector ; Energy. 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The model focuses on the energy supply sector with endogenous representation of road transport energy demand. Equilibrium interactions are performed across electricity, hydrogen, biofuels, and road transport sectors. Possible transition paths toward a low-carbon transport in Iceland are explored with implications for fuel demand, greenhouse gas (GHG) emissions and associated costs. The consumer sector simulates the long-term evolution of light and heavy-duty vehicles through a vehicle choice algorithm that accounts for social influences and consumer preferences. Through different scenarios, the influences of four fundamental driving factors are examined. The factors are oil price, carbon tax, fuel supply-push, and government incentives. The results show that changes in travel demand, vehicle technologies, fuel types, and efficiency improvements can support feasible transition paths to achieve sufficient reduction in GHG for both 4°C and 2°C climate scenarios of the Nordic Energy Technology Perspectives study. Initial investment in supply infrastructure for alternative fuels will not only mitigate GHG emissions, but also could provide long-term economic benefits through fuel cost saving for consumers and reduced fuel import costs for government. •UniSyD_IS is an energy system model with endogenous road transport energy demand.•Possible transition paths to low-carbon road transport system in Iceland are explored.•Vehicle choice sector accounts for social influences and consumers’ preferences.•Supply-push costs can be offset by mitigation benefits and fuel cost savings.</description><subject>Air pollution</subject><subject>Air pollution caused by fuel industries</subject><subject>Alternative fuel vehicles</subject><subject>Applied sciences</subject><subject>Benefits</subject><subject>Biomass energy</subject><subject>Carbon</subject><subject>Carbon emissions</subject><subject>Climate</subject><subject>Consumers</subject><subject>Consumption</subject><subject>Cost</subject><subject>Costs</subject><subject>Demand (economics)</subject><subject>Economic data</subject><subject>Economic theory</subject><subject>Electric power</subject><subject>Energy</subject><subject>Energy economics</subject><subject>Energy efficiency</subject><subject>Energy industry</subject><subject>Energy policy</subject><subject>Energy sector</subject><subject>Energy. 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The results show that changes in travel demand, vehicle technologies, fuel types, and efficiency improvements can support feasible transition paths to achieve sufficient reduction in GHG for both 4°C and 2°C climate scenarios of the Nordic Energy Technology Perspectives study. Initial investment in supply infrastructure for alternative fuels will not only mitigate GHG emissions, but also could provide long-term economic benefits through fuel cost saving for consumers and reduced fuel import costs for government. •UniSyD_IS is an energy system model with endogenous road transport energy demand.•Possible transition paths to low-carbon road transport system in Iceland are explored.•Vehicle choice sector accounts for social influences and consumers’ preferences.•Supply-push costs can be offset by mitigation benefits and fuel cost savings.</abstract><cop>Kidlington</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.enpol.2014.03.013</doi><tpages>16</tpages><orcidid>https://orcid.org/0000-0002-2267-9822</orcidid></addata></record>
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source	Elsevier ScienceDirect Journals Complete - AutoHoldings; PAIS Index
subjects	Air pollution Air pollution caused by fuel industries Alternative fuel vehicles Applied sciences Benefits Biomass energy Carbon Carbon emissions Climate Consumers Consumption Cost Costs Demand (economics) Economic data Economic theory Electric power Energy Energy economics Energy efficiency Energy industry Energy policy Energy sector Energy. Thermal use of fuels Exact sciences and technology Fossil fuels Fuel Fuels General, economic and professional studies General. Regulations. Norms. Economy GHG mitigation Governments Greenhouse effect Ground, air and sea transportation, marine construction Hydrogen Iceland Infrastructure Investment Investments Mathematical models Methodology. Modelling New Zealand Power supply Prices Road transport Road transportation and traffic Saving Studies Supply & demand Taxation Technology Transition cost Transitions Transportation industry Travel Vehicles Western Europe
title	Potential impact of transition to a low-carbon transport system in Iceland
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