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ASEAN (The Association of SouthEast Asian Nations) demand on energy is depending on economic growth of each country, resources, and political and regulations of each country. This study aims to investigate the role of international trade, financial development, foreign direct investment (FDI) on the consumption of renewable energy (RE) in ASEAN countries of the world. The findings explore that positive nexus among the international trade, real output, financial development, foreign direct investment and consumption of RE. Last but not least, this paper will propose several recommendations and policy suggestion for ASEAN countries to manage and encourage better renewable energy projects in the region. One of its original value is that, in the globalization and integration era, environment pollution will affect all ASEAN countries and in the region, so these nations need to link together to implement renewable projects for environment protection and for further generation.
Czasopismo
Rocznik
Tom
Strony
146--157
Opis fizyczny
Bibliogr. 33 poz., tab.
Twórcy
autor
- Academy of Finance, Vietnam
autor
- Banking University, HCM city Vietnam.
- International University of Japan, Niigata, Japan
autor
- Thuongmai University Hanoi, Vietnam
autor
- Thuongmai University Hanoi, Vietnam
autor
- Thuongmai University Hanoi, Vietnam
Bibliografia
- [1] Abidin, I. S. Z., Haseeb, M., Azam, M., & Islam, R. (2015). Foreign direct investment, financial Development, international trade and energy consumption: Panel data evidence from selected ASEAN Countries. International Journal of Energy Economics and Policy, 5(3), 841-850.
- [2] Adams, R., Jeanrenaud, S., Bessant, J., Denyer, D., & Overy, P. (2016).Sustainability_oriented innovation: A systematic review. International Journal of Management Reviews, 18(2), 180-205.
- [3] Al-Mulali, U., Ozturk, I., & Lean, H. H. (2015). The influence of economic growth, urbanization, trade openness, financial development, and renewable energy on pollution in Europe. Natural Hazards, 79(1), 621-644.
- [4] Alvarez-Herranz, A., Balsalobre-Lorente, D., Shahbaz, M., & Cantos, J. M. (2017). Energy innovation and renewable energy consumption in the correction of air pollution levels. Energy Policy, 105, 386-397.
- [5] Barbier, E. B., Barbier, J. C. B., Bishop, J., & Aylward, B. (2019). The economics of the tropical timber trade: Routledge.
- [6] Beck, T., Demirgüç-Kunt, A., & Levine, R. (2010). Financial institutions and markets across countries and over time: The updated financial development and structure database. The World Bank Economic Review, 24(1), 77-92.
- [7] Chang, Y., & Li, Y. (2015). Renewable energy and policy options in an integrated ASEAN electricity market: Quantitative assessments and policy implications. Energy Policy, 85, 39-49.
- [8] Dogan, E. (2016). Analyzing the linkage between renewable and nonrenewable energy consumption and economic growth by considering structural break in time-series data. Renewable energy, 99, 1126-1136.
- [9] Dogan, E., & Turkekul, B. (2016). CO 2 emissions, real output, energy consumption, trade, urbanization and financial development: testing the EKC hypothesis for the USA. Environmental Science and Pollution Research, 23(2), 1203-1213.
- [10] Fan, W., & Hao, Y. (2020). An empirical research on the relationship amongst renewable energy consumption, economic growth and foreign direct investment in China. Renewable energy, 146, 598-609.
- [11] Farla, K., De Crombrugghe, D., & Verspagen, B. (2016). Institutions, foreign direct investment, and domestic investment: crowding out or crowding in? World Development, 88, 1-9.
- [12] Hussain, M. S., Mosa, M. M., & Omran, A. (2017). The Mediating Impact of Profitability on Capital Requirement and Risk Taking by Pakistani Banks. Journal of Academic Research in Economics, 9(3), 433-443.
- [13] Hussain, M. S., Mosa, M. M., & Omran, A. (2018). The impact of owners behaviour towards risk taking by Pakistani Banks: Mediating role of profitability Journal of Academic Research in Economics, 10(3), 455-465.
- [14] Hussain, M. S., Musa, M. M. B., & Omran, A. A. (2018). The Impact of Private Ownership Structure on Risk Taking by Pakistani Banks: An Empirical Study. Pakistan Journal of Humanities and Social Sciences, 6(3), 325-337.
- [15] Hussain, M. S., Ramzan, M., Ghauri, M. S. K., Akhtar, W., Naeem, W., & Ahmad, K. (2012). Challenges and failure of Implementation of Basel Accord II and reasons to adopt Basel III both in Islamic and conventional banks. International Journal of Business and Social Research, 2(4), 149-174.
- [16] Irandoust, M. (2016). The renewable energy-growth nexus with carbon emissions and technological innovation: Evidence from the Nordic countries. Ecological Indicators, 69, 118-125.
- [17] James, C., Koreisha, S., & Partch, M. (1985). A VARMA analysis of the causal relations among stock returns, real output, and nominal interest rates. The Journal of Finance, 40(5), 1375-1384.
- [18] Jebli, M. B., & Youssef, S. B. (2015). Output, renewable and non-renewable energy consumption and international trade: Evidence from a panel of 69 countries. Renewable energy, 83, 799-808.
- [19] Jensen, C. (2017). International trade in infant industries: A dynamic analysis of different trade policy instruments and their implications for sustainable consumption. International Trade in Infant Industries (2016), DOI, 10, 0935-9915.
- [20] Liserre, M., Sauter, T., & Hung, J. Y. (2010). Future energy systems: Integrating renewable energy sources into the smart power grid through industrial electronics. IEEE industrial electronics magazine, 4(1), 18-37.
- [21] Liu, X., Zhang, S., & Bae, J. (2017). The impact of renewable energy and agriculture on carbon dioxide emissions: investigating the environmental Kuznets curve in four selected ASEAN countries. Journal of cleaner production, 164, 1239-1247.
- [22] Lund, H., & Mathiesen, B. V. (2009). Energy system analysis of 100% renewable energy systems - The case of Denmark in years 2030 and 2050. Energy, 34(5), 524-531.
- [23] Luukkanen, J., & Kaivo-oja, J. (2002). ASEAN tigers and sustainability of energy use - decomposition analysis of energy and CO2 efficiency dynamics. Energy Policy, 30(4), 281-292.
- [24] Mert, M., & Bölük, G. (2016). Do foreign direct investment and renewable energy consumption affect the CO 2 emissions? New evidence from a panel ARDL approach to Kyoto Annex countries. Environmental Science and Pollution Research, 23(21), 21669-21681.
- [25] Nambisan, S., Lyytinen, K., Majchrzak, A., & Song, M. (2017). Digital Innovation Management: Reinventing innovation management research in a digital world. MIS quarterly, 41(1).
- [26] Ozturk, I., & Acaravci, A. (2013). The long-run and causal analysis of energy, growth, openness and financial development on carbon emissions in Turkey. Energy Economics, 36, 262-267.
- [27] Pata, U. K. (2018). Renewable energy consumption, urbanization, financial development, income and CO2 emissions in Turkey: testing EKC hypothesis with structural breaks. Journal of cleaner production, 187, 770-779.
- [28] Tang, C. F., & Tan, B. W. (2015). The impact of energy consumption, income and foreign direct investment on carbon dioxide emissions in Vietnam. Energy, 79, 447-454.
- [29] Teleke, S., Baran, M. E., Bhattacharya, S., & Huang, A. Q. (2010). Rulebased control of battery energy storage for dispatching intermittent renewable sources. IEEE Transactions on Sustainable Energy, 1(3), 117-124.
- [30] Wahid, I. N., Aziz, A. A., & Mustapha, N. N. (2013). Energy consumption, economic growth and CO2 emissions in selected ASEAN countries. Prosiding Perkem, 8(2), 758-765.
- [31] Zhang, B., Wang, B., & Wang, Z. (2017). Role of renewable energy and non-renewable energy consumption on EKC: evidence from Pakistan. Journal of cleaner production, 156, 855-864.
- [32] Zhang, Q., Jiang, X., Tong, D., Davis, S. J., Zhao, H., Geng, G., Streets, D. G. (2017). Transboundary health impacts of transported global air pollution and international trade. Nature, 543(7647), 705.
- [33] Zoundi, Z. (2017). CO2 emissions, renewable energy and the Environmental Kuznets Curve, a panel cointegration approach. Renewable and Sustainable Energy Reviews, 72, 1067-1075.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3cf85fd6-fe74-4f98-a560-fd92ce8ec29d