1995
DOI: 10.2208/journalip.12.259
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A General Equilibrium Analysis of the Waste-Economic System

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Cited by 13 publications
(8 citation statements)
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“…Although their study produced estimates of respective physical effects from projected climate data under conditions of socioeconomic scenarios, and evaluated the projected economic effects by the economic model, it has no theoretical consistency between estimates of physical effect terms and economic models. In a general equilibrium analysis of waste problems in Japan, Miyata [5] derived a utility function consistent with a pre-formulated demand function from solving the integrability problem, and integrated externalities such as waste into a CGE model. For the sandy beach loss caused by climate change, Sakamoto and Nakajima [6] and Nakajima and Sakamoto [7] developed a CGE model that has a utility function consistent with a recreation demand function in a travel cost method by solving the integrability problem.…”
Section: Introductionmentioning
confidence: 99%
“…Although their study produced estimates of respective physical effects from projected climate data under conditions of socioeconomic scenarios, and evaluated the projected economic effects by the economic model, it has no theoretical consistency between estimates of physical effect terms and economic models. In a general equilibrium analysis of waste problems in Japan, Miyata [5] derived a utility function consistent with a pre-formulated demand function from solving the integrability problem, and integrated externalities such as waste into a CGE model. For the sandy beach loss caused by climate change, Sakamoto and Nakajima [6] and Nakajima and Sakamoto [7] developed a CGE model that has a utility function consistent with a recreation demand function in a travel cost method by solving the integrability problem.…”
Section: Introductionmentioning
confidence: 99%
“…The second group of models already and explicitly includes waste management and processing. In the three-sector equilibrium model of Miyata (1995), one of the sectors is responsible for processing of waste. Thus the cost of waste management is endogenously determined.…”
Section: Introductionmentioning
confidence: 99%
“…The paper's intention is the development of a model that explicitly enables the utilization of waste as a raw material, similarly to that of Baumgärtner's (2004) solution, but does so in a general equilibrium framework that endogenously includes the price of waste management, as in Miyata's (1995) model. This study introduces and applies a modelling system that is suitable for the impact assessment of environmental innovations referred to as "Blue Economy" innovations.…”
Section: Introductionmentioning
confidence: 99%
“…The second group of models already explicitly includes waste management and processing. In the three sector equilibrium model of [3] one of the sectors is responsible for processing of waste, thus the cost of waste management is endogenously determined. Speck [4] introduces a six "sector" model where four sectors describe the technologies optionally available for the economy, the fifth sector can be interpreted as waste management that reduces environmental pollution, while the sixth sector catches the waste decomposer capability of nature.…”
Section: Introductionmentioning
confidence: 99%
“…We aim at the development of a model that explicitly enables the utilization of waste as a raw material, similarly to that of Baumgärtner's [5] solution, but it does so in a general equilibrium framework that endogenously includes the price of waste management, like in Miyata's [3] model. This study introduces and applies a system of models that is suitable for the impact assessment of Blue Economy innovations.…”
Section: Introductionmentioning
confidence: 99%