Navigating geopolitical crises for energy security: Evaluating optimal subsidy policies via a Markov switching DSGE model
This paper aims to provide insights on the design of optimal subsidy policies to enhance energy security amidst energy disruptions triggered by geopolitical conflicts. We introduce a novel Markov switching dynamic stochastic general equilibrium (MS-DSGE) model to address the limitations of existing...
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2024
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sg-smu-ink.skbi-10322023-12-12T08:51:07Z Navigating geopolitical crises for energy security: Evaluating optimal subsidy policies via a Markov switching DSGE model CHAN, Ying Tung PUNZI, Maria Teresa ZHAO, Hong This paper aims to provide insights on the design of optimal subsidy policies to enhance energy security amidst energy disruptions triggered by geopolitical conflicts. We introduce a novel Markov switching dynamic stochastic general equilibrium (MS-DSGE) model to address the limitations of existing integrated assessment models in environmental evaluation. These models often fail to adequately consider the environmental and economic impacts of geopolitical conflicts and do not prioritize energy security sufficiently in policymaking. Our application of the MS-DSGE model to the Russia–Ukraine conflict reveals significant decreases in output, social welfare, and energy consumption during disruptions. The mere anticipation of an energy crisis influences household behaviors, leading to a reduction in energy, output, and consumption volatility, while concurrently increasing volatility in social welfare. We show that an optimal subsidy policy should be contingent upon productivity levels, energy imports, and the economy’s responsiveness to economic shocks. Moreover, the policy should also be adaptable to prevailing economic conditions and the likelihood of an upcoming crisis. 2024-01-01T08:00:00Z text application/pdf https://ink.library.smu.edu.sg/skbi/33 info:doi/10.1016/j.jenvman.2023.119619 https://ink.library.smu.edu.sg/context/skbi/article/1032/viewcontent/NavigatingGeopoliticalCrises_av.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Sim Kee Boon Institute for Financial Economics eng Institutional Knowledge at Singapore Management University Energy resilience Energy security Geopolitical crises MS-DSGE model Optimal subsidy policy Energy Policy Finance and Financial Management |
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Energy resilience Energy security Geopolitical crises MS-DSGE model Optimal subsidy policy Energy Policy Finance and Financial Management CHAN, Ying Tung PUNZI, Maria Teresa ZHAO, Hong Navigating geopolitical crises for energy security: Evaluating optimal subsidy policies via a Markov switching DSGE model |
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This paper aims to provide insights on the design of optimal subsidy policies to enhance energy security amidst energy disruptions triggered by geopolitical conflicts. We introduce a novel Markov switching dynamic stochastic general equilibrium (MS-DSGE) model to address the limitations of existing integrated assessment models in environmental evaluation. These models often fail to adequately consider the environmental and economic impacts of geopolitical conflicts and do not prioritize energy security sufficiently in policymaking. Our application of the MS-DSGE model to the Russia–Ukraine conflict reveals significant decreases in output, social welfare, and energy consumption during disruptions. The mere anticipation of an energy crisis influences household behaviors, leading to a reduction in energy, output, and consumption volatility, while concurrently increasing volatility in social welfare. We show that an optimal subsidy policy should be contingent upon productivity levels, energy imports, and the economy’s responsiveness to economic shocks. Moreover, the policy should also be adaptable to prevailing economic conditions and the likelihood of an upcoming crisis. |
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text |
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CHAN, Ying Tung PUNZI, Maria Teresa ZHAO, Hong |
| author_facet |
CHAN, Ying Tung PUNZI, Maria Teresa ZHAO, Hong |
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CHAN, Ying Tung |
| title |
Navigating geopolitical crises for energy security: Evaluating optimal subsidy policies via a Markov switching DSGE model |
| title_short |
Navigating geopolitical crises for energy security: Evaluating optimal subsidy policies via a Markov switching DSGE model |
| title_full |
Navigating geopolitical crises for energy security: Evaluating optimal subsidy policies via a Markov switching DSGE model |
| title_fullStr |
Navigating geopolitical crises for energy security: Evaluating optimal subsidy policies via a Markov switching DSGE model |
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Navigating geopolitical crises for energy security: Evaluating optimal subsidy policies via a Markov switching DSGE model |
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navigating geopolitical crises for energy security: evaluating optimal subsidy policies via a markov switching dsge model |
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Institutional Knowledge at Singapore Management University |
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2024 |
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https://ink.library.smu.edu.sg/skbi/33 https://ink.library.smu.edu.sg/context/skbi/article/1032/viewcontent/NavigatingGeopoliticalCrises_av.pdf |
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