![]() ![]() Coal consumption, CO2 emission and economic growth in China: empirical evidence and policy responses. Economic growth with coal, oil and renewable energy consumption in China: Prospects for fuel substitution. Nuclear power in Australia: A comparative analysis of public opinion regarding climate change and the Fukushima disaster. The relationship among oil, natural gas and coal consumption and economic growth in BRICTS countries. Energy consumption and GDP in Tunisia: cointegration and causality analysis. How crude oil consumption impacts on economic growth of Sub-Saharan Africa? Energy, 54, pp.74–83.īelloumi, M., 2009. CO2 emissions, energy consumption, economic and population growth in Malaysia. The Causal relationship between energy use and economic growth in Switzerland. A panel cointegration analysis of CO 2 emissions, nuclear energy and income in major nuclear generating countries. Procedia - Social and Behavioral Sciences, 65(ICIBSoS), pp.1–7.īaek, J., 2015. Energy, Economic Growth and Pollutant Emissions Nexus: The Case of Malaysia. Energy consumption, economic growth and CO2 emissions in Middle East and North African countries. ![]() CO2 emissions, energy usage, and output in Central America. Ecological Indicators, 52, pp.16–22.Īpergis, N. Testing Environmental Kuznets Curve hypothesis in Asian countries. CO2 emissions, energy consumption, and output in France. The impact of energy consumption and CO2 emission on the economic growth and financial development in the Sub Saharan African countries. West African Journal of Monetary and Economic Integration, 7, pp.91–119.Īl-mulali, U. Energy consumption and economic growth: evidence from Ghana. Procedia Economics and Finance, 1(12), pp.4–13.Īkoena, S., Trettey, A. Environmental Kuznets Curve and Pakistan: An Empirical Analysis. Sustainable Cities and Society, 15, pp.11–21.Īhmed, K. The close relationship between informal economic growth and carbon emissions in Tunisia since 1980: The (ir)relevance of structural breaks. Q - Agricultural and Natural Resource Economics Environmental and Ecological Economics > Q4 - Energy > Q43 - Energy and the MacroeconomyĪbid, M., 2015. Q - Agricultural and Natural Resource Economics Environmental and Ecological Economics > Q3 - Nonrenewable Resources and Conservation > Q30 - General Revisiting the relationships between non-renewable energy consumption, CO2 emissions and economic growth in IranĮconomic growth CO2 emissions Energy consumption Iran. The study recommends some new policy insights for Iran in order to reach a higher economic growth by non-renewable energy resources, while lower carbon dioxide emissions. Furthermore the contribution to CO2 emissions is mainly from oil consumption. The variance decomposition highlights that economic growth changes are explained more by gas consumption than by consumption of other non-renewable energy resources. The short-run relationship examination proves the causality running from non-renewable energy consumption to economic growth in Iran. The findings support evidence for the existence of long-run linkage between non-renewable energy consumption, economic growth and CO2 emissions. The aim of this paper is to find these mentioned relationships by using the Johanesen cointegration approach, the VECM Granger causality test, Generalized impulse responses functions and variance decomposition in Iran for the period 1966-2013. Exploring the short-run and long-run relationships between consumption of various sources of non-renewable energy, economic growth and carbon dioxide(CO2) emissions would be considered as a golden key to provide rational energy policies of Iran in the post sanctions era.
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