Abdulgaffar Muhammad, Edrin Jeroh, Yusuf Ibrahim Nuhu, Micah Ezekiel Elton Mike, Mohammed Bello Idris
{"title":"面向经济和环境可持续性的绿色能源转型动态相互作用的数学建模","authors":"Abdulgaffar Muhammad, Edrin Jeroh, Yusuf Ibrahim Nuhu, Micah Ezekiel Elton Mike, Mohammed Bello Idris","doi":"10.56556/jescae.v2i4.648","DOIUrl":null,"url":null,"abstract":"In the pursuit of a harmonious coexistence between economic growth and environmental sustainability, this paper delves into the intricate realm of \"Mathematical Modeling of Dynamic Interactions in Green Energy Transition for Economic and Environmental Sustainability.\" Building upon the foundational contributions of Polimeni, Mayumi, Giampietro, and Alcott (2008), we navigate a complex mathematical landscape where equations articulate the interplay of energy consumption (E), economic production (P), and carbon emissions (C). As the equations come to life, they illuminate pathways that offer theoretical insights into the intricate dynamics at play. These pathways, shaped by nuanced parameters, provide a theoretical foundation to decipher the complex interactions between renewable technologies, economic growth, and environmental balance. Guided by the perspectives of Edenhofer et al. (2014) and Grubler (1998), we transcend equations to explore the strategic realm where policies and strategies find their genesis. The theoretical insights unearthed through this exploration serve as guiding lights for policymakers and stakeholders. Armed with this theoretical compass, policymakers navigate the complexities of green energy transition, crafting interventions that resonate with the rhythm of sustainable progress. These insights enrich the spectrum of strategies aimed at fostering economic prosperity without compromising the delicate equilibrium of the environment. Within the symphony of design, theory metamorphoses into actionable strategies, intricately woven into the fabric of growth and sustainability. This paper underscores the pivotal role of theoretical frameworks in shaping effective policies and strategies, providing a roadmap for a future where equilibrium and progress dance in synchrony.","PeriodicalId":53187,"journal":{"name":"Journal of Environmental Science and Economics","volume":"263 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2023-10-12","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Mathematical Modeling of Dynamic Interactions in Green Energy Transition for Economic and Environmental Sustainability\",\"authors\":\"Abdulgaffar Muhammad, Edrin Jeroh, Yusuf Ibrahim Nuhu, Micah Ezekiel Elton Mike, Mohammed Bello Idris\",\"doi\":\"10.56556/jescae.v2i4.648\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"In the pursuit of a harmonious coexistence between economic growth and environmental sustainability, this paper delves into the intricate realm of \\\"Mathematical Modeling of Dynamic Interactions in Green Energy Transition for Economic and Environmental Sustainability.\\\" Building upon the foundational contributions of Polimeni, Mayumi, Giampietro, and Alcott (2008), we navigate a complex mathematical landscape where equations articulate the interplay of energy consumption (E), economic production (P), and carbon emissions (C). 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Mathematical Modeling of Dynamic Interactions in Green Energy Transition for Economic and Environmental Sustainability
In the pursuit of a harmonious coexistence between economic growth and environmental sustainability, this paper delves into the intricate realm of "Mathematical Modeling of Dynamic Interactions in Green Energy Transition for Economic and Environmental Sustainability." Building upon the foundational contributions of Polimeni, Mayumi, Giampietro, and Alcott (2008), we navigate a complex mathematical landscape where equations articulate the interplay of energy consumption (E), economic production (P), and carbon emissions (C). As the equations come to life, they illuminate pathways that offer theoretical insights into the intricate dynamics at play. These pathways, shaped by nuanced parameters, provide a theoretical foundation to decipher the complex interactions between renewable technologies, economic growth, and environmental balance. Guided by the perspectives of Edenhofer et al. (2014) and Grubler (1998), we transcend equations to explore the strategic realm where policies and strategies find their genesis. The theoretical insights unearthed through this exploration serve as guiding lights for policymakers and stakeholders. Armed with this theoretical compass, policymakers navigate the complexities of green energy transition, crafting interventions that resonate with the rhythm of sustainable progress. These insights enrich the spectrum of strategies aimed at fostering economic prosperity without compromising the delicate equilibrium of the environment. Within the symphony of design, theory metamorphoses into actionable strategies, intricately woven into the fabric of growth and sustainability. This paper underscores the pivotal role of theoretical frameworks in shaping effective policies and strategies, providing a roadmap for a future where equilibrium and progress dance in synchrony.
期刊介绍:
Journal of environmental science and economics (JESCAE), ISSN: 2832-6032 is an open access peer-reviewed journal that considers articles and reviews articles on all aspects of environmental economics.
Aim and Scope
Journal of Environmental Science and Economics is an international scholarly refereed research journal that aims to promote the theory and practice of environmental economics, Sustainability research, technological innovation, and economics. A broad outline of the journal''s scope includes; peer-reviewed original research articles, case, and technical reports, reviews and analyses papers, short communications and notes to the editor, in interdisciplinary information on the practice and status of research in environmental science, sustainability, technological innovations, and economics.
The main aspects of research areas include, but are not limited to; Environmental pollution control and abatement technology, Sustainable and economic Development, sustainable consumption and Sustainability, Environmental and sustainability assessment, transport and fate of pollutants in the environment, concentrations and dispersion of wastes in air, water, and non-point sources pollution, atmospheric pollutants and trace gases, environmental impact assessment, industrial ecology, ecological and human risk assessment; improved energy management and auditing efficiency and environmental standards and criteria.