- New
-
Topics
- All Categories
- Metaphysics and Epistemology
- Value Theory
- Science, Logic, and Mathematics
- Science, Logic, and Mathematics
- Logic and Philosophy of Logic
- Philosophy of Biology
- Philosophy of Cognitive Science
- Philosophy of Computing and Information
- Philosophy of Mathematics
- Philosophy of Physical Science
- Philosophy of Social Science
- Philosophy of Probability
- General Philosophy of Science
- Philosophy of Science, Misc
- History of Western Philosophy
- Philosophical Traditions
- Philosophy, Misc
- Other Academic Areas
- Journals
- Submit material
- More
Nexus Between Financial Development, Renewable Energy Investment, and Sustainable Development: Role of Technical Innovations and Industrial Structure
Frontiers in Psychology 13 (2022)
Abstract
Significant challenges confronting China include reducing carbon emissions, dealing with the resulting problems, and meeting various requirements for long-term economic growth. As a result, the shift in industrial structure best reflects how human society utilizes resources and impacts the environment. To meet China's 2050 net-zero emissions target, we look at how technological innovations, financial development, renewable energy investment, population age, and the economic complexity index all play a role in environmental sustainability in China. Analyzing short- and long-term relationships using ARDL bounds testing, we used historical data spanning 1990–2018. According to the study's findings, the cointegration between CO2 emissions and their underlying factors was found. The deterioration of the environment directly results from financial development, increasing economic complexity, and population aging. Technical advancements, investments in renewable energy sources, and changes to the industrial structure all contribute to lower CO2 emissions. Granger causality results were also reliably obtained in this study. According to our findings in the fight against environmental problems, a key tool for meeting long-term sustainability goals is policy prescriptions that use technological innovations, renewable energy investment, and industrial structure.Links
PhilArchive
External links
(no proxy)
Setup an account with your affiliations in order to access resources via your University's proxy server
Through your library
- Sign in / register and customize your OpenURL resolver
- Configure custom resolver
My notes
Similar books and articles
Renewable Energy for Rural Sustainability: Lessons From China.John Byrne & Aiming Zhou - 2002 - Bulletin of Science, Technology and Society 22 (2):123-131.
System transition, Social discourse about climate change, and Renewable Energy - A Study on the development of renewable energy policy in Korea -. 박진희 - 2008 - Environmental Philosophy 7:99-135.
The Sustainable Energy Utility (SEU) Model for Energy Service Delivery.Wilson Rickerson & Jason Houck - 2009 - Bulletin of Science, Technology and Society 29 (2):95-107.
The premises of renewable energy sources market development in Poland in the light of sustainable development idea.Alicja Pultowicz - unknown
Whose Sustainable Development? An Analysis of Japanese Foreign Aid Policy and Funding for Energy Sector Projects.Hideka Yamaguchi - 2003 - Bulletin of Science, Technology and Society 23 (4):302-310.
Redefining Development Priorities: Genetic Diversity and Agroecodevelopment.Kenneth A. Dahlberg - 1987 - Bulletin of Science, Technology and Society 7 (3-4):367-382.
Barriers for Large Integration of PV and Onshore Wind Energy in the Distribution Network on the Selected European Union Electricity Markets.Hanna Bartoszewicz-Burczy - 2022 - Studia Ecologiae Et Bioethicae 20 (1).
Renewable energy resources in students’ opinions.Michał Roman - 2015 - Studia Ecologiae Et Bioethicae 13 (3).
Exploring Marginalization and Exclusion in Renewable Energy Development in Africa: A Perspective from Western Individualism and African Ubuntu Philosophy.Yekeen A. Sanusi & Andreas Spahn - 2019 - In Gunter Bombaerts, Kirsten Jenkins, Yekeen A. Sanusi & Wang Guoyu (eds.), Energy Justice Across Borders. Springer Verlag. pp. 273-296.
Is a 100% Renewable Energy Economy Possible in the Light of Wind Silence Occurrences?Jakub Edward Zaleski - 2018 - Journal for Perspectives of Economic Political and Social Integration 24 (2):47-65.
Sustainable Development and Financial Markets: Old Paths and New Avenues.Marc Orlitzky, Rob Bauer & Timo Busch - 2016 - Business and Society 55 (3):303-329.
Omitted Costs, Inflated Benefits: Renewable Energy Policy in Ontario.Glenn Fox & Parker Gallant - 2011 - Bulletin of Science, Technology and Society 31 (5):369-376.
The Realistic and Strategic Profits of Our Country in Energy Security.Nan-lin Wang - 2007 - Nankai University (Philosophy and Social Sciences) 5:65-74.
Hiszpańskie i niemieckie osiągnięcia w rozwoju energetyki odnawialnej: aspekt prawny.Leszek Karski - 2004 - Studia Ecologiae Et Bioethicae 2 (1).
Analytics
Added to PP
2022-08-11
Downloads
7 (#1,379,256)
6 months
3 (#967,806)
2022-08-11
Downloads
7 (#1,379,256)
6 months
3 (#967,806)
Historical graph of downloads
PhilPapers logo by Andrea Andrews and Meghan Driscoll.
This site uses cookies and Google Analytics (see our terms & conditions for details regarding the privacy implications). Use of this site is subject to terms & conditions.
All rights reserved by The PhilPapers Foundation
Server: philpapers-web-659b74868d-w5f9g uwo