Paper Titles

Improvement of Organic Loading Rate on Hydrogen Production Using Continuous Stirred Tank
p.1382

Experimental Study on Coal Chemical Looping Combustion Using CuFe₂O₄ as Oxygen Carrier
p.1387

Study on the Explosion Characteristic Parameters of Gasoline Vapor Inerted by CO₂
p.1393

Study on Energy Structure and Energy Security in Inner Mongolia
p.1398

How Welfare Variables Influence Energy Consumption? - Evidence from Ecuador and Mexico
p.1404

Experimental Study on the Four Pipes Self-Supporting Steel Chimney
p.1413

Study on EGR Technology Routes of Vehicle Engine - A Review
p.1416

Prediction on China's Energy Demand Based on RBF Neural Network Model
p.1421

Study on Deoxidization of Coal-Bed Methane under Low Temperature
p.1425

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 805-806How Welfare Variables Influence Energy...

How Welfare Variables Influence Energy Consumption? - Evidence from Ecuador and Mexico

Article Preview

Abstract:

Energy consumption (EC) can be seen as a two-edged sword. It can be not only essential for sustaining good standards of living but also in hindering environmental protection. Consequently, what is the causal relationship between welfare variables and energy consumption in different economies has become one of the focal issues for both policy makers and researchers. The aim of this study attempts to investigate the causal relationship between economic growth (EG), foreign direct investment (FDI), remittances (RMTs), human development index (HDI), and EC using annual data from 1981 to 2011 through multivariate Granger causality tests for Ecuador and Mexico. The empirical analysis indicates that for Ecuador, in the long run, there are unidirectional causalities flowing from FDI, HDI, and RMTs to EC. For Mexico, there is no evidence of any welfare variable flowing to EC but there are unidirectional causalities running from EC to RMTs, HDI to FDI, and FDI to GDP all in the long run. With this information, we suggest policy makers of these two countries, especially for Ecuador, to strongly advocate energy-saving concepts to the public and actively implement more infrastructure projects related to health and education, provide incentives for international advanced green technology transformation, and liberalize international remittances.

You might also be interested in these eBooks

Energy and Power Technology

Info:

Periodical:

Advanced Materials Research (Volumes 805-806)

Pages:

1404-1412

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.805-806.1404

Citation:

Cite this paper

Online since:

September 2013

Authors:

Daniel A. Sanchez-Loor, Chi Ya Chang

Keywords:

Economic Growth, Energy Consumption (EC), Error Correction Model, Foreign Direct Investment, Granger Causality Test, Human Development Index, Remittances

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2013 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] United Nations. The sustainable future we want. United Nations Development Programme (2012).

[2] Yu, S. H., & Choi, J. The Causal Relationship between Energy and GNP. Journal of Energy and Development (1985). 249-272.

[3] Masih, A., & Masih, R. On the temporal causal relationship between energy consumption, real income, and prices. Journal of Policy Modeling (1997). 417-440.

DOI: 10.1016/s0161-8938(96)00063-4

[4] Ozturk, I. A literature survey on energy-growth nexus. Journal of Enery Policy (2010), 340-349.

[5] Kum, H., Ocal, O., & Aslan, A. The relationship among natural gas energy consumption, capital and economic growth. Renewable and Sustainable Energy Reviews(2012), 16(5), 2361-2365.

DOI: 10.1016/j.rser.2012.01.041

[6] Fuinhas, J. A., & Marques, A. C. (2012). Energy consumption and economic growth nexus in Portugal, Italy, Greece, Spain and Turkey (1965-2009). Energy Economics, 34(2), 511-517.

DOI: 10.1016/j.eneco.2011.10.003

[7] Krueger, A. O. Trade Policy and Economic Development: How We Learn. National Bureau of Economic Research (1997).

[8] Eskeland, G., & Harrison, A. Moving to greener pastures? Multinationals and the pollution haven hypothesis. Journal of Development Economics (2003), 1-23.

DOI: 10.1016/s0304-3878(02)00084-6

[9] Singh, A. Private Investment in Power Sector in Developing Countries: Lessons from Reforms in Asian and Latin American Countries. IIT Kanpar Publications (2007).

[10] Pao, H. T., & Tsai, C. M. Modeling and forecasting the CO2 emissions, energy consumption, and economic growth in Brazil. Energy (2011), 36(5), 2450-2458.

DOI: 10.1016/j.energy.2011.01.032

[11] Pasternak, A. D. Global energy futures and human development: A framework for analysis. US Department of Energy Report (2000).

[12] Garcia, M. Comparing HDI and Per Capita Electricity Use Data with an Improved Hyperbolic Tangent Correlation. Energy for Human Development (2006).

[13] Martínez, D. M., & Ebenhack, B. W. Understanding the role of energy consumption in human development. Energy Policy (2008), 1430-1435.

DOI: 10.1016/j.enpol.2007.12.016

[14] Dale, B. E. Energy consumption, wealth, and biofuels: helping human beings achieve their potential. Biofuels, Bioproducts and Biorefining (2012), 6(1), 1-3.

DOI: 10.1002/bbb.352

[15] Watson, G. Financing Sustainable Energy through Remittance Flows in Haiti and the Dominican Republic. ARC Finance/Base (2009).

[16] Milligan, M. A. The welfare effects of international remittance income. University of New Mexico Dissertations (2009).

[17] Hossain, S. Multivariate Granger Causality between Economic Growth, Electricity Consumption, Exports and Remittance. Global Journal of Management and Business Research (2012), 41-54.

[18] Hobbs, A. W., & Jameson, K. P. Measuring the effect of bi-directional migration remittances on poverty and inequality in Nicaragua. Applied Economics (2012), 44(19), 2451-2460.

DOI: 10.1080/00036846.2011.564153

[19] OPEC Members countries [Online]. Available: www. opec. org [2013, April].

[20] US EIA International Energy Statistics [Online]. Available: www. eia. gov [2013, April].

[21] US EIA International Energy Statistics [Online]. Available: www. eia. gov [2013, April].

[22] The World Bank Group Data [Online]. Available: data. worldbank. org [2013, April].

[23] Private company is hired to build the energy infrastructure and non-refundable aid is granted.

[24] ECLAC. Foreign direct investment in electric energy in Latin America and the Caribbean. Foreign Direct Investment in Latin America and the Caribbean (2011), 143-176.

DOI: 10.18356/0a325569-en

[25] Estadísticas Banco de México [Online]. Available: www. banxico. org. mx [2013, April].

[26] IADB [Online]. Available: www. iadb. org [2013, April].

[27] Kraft, A., Kraft, J. On the relationship between energy and GNP. Journal of Energy Development (1978), 3, 401-403.

[28] Campo, J., & Sarmiento, V. Energy consumption and GDP relationship: evidence from a panel co-integration of ten Latin America Countries between 1971 - 2007. Publicaciones Universidad Católica de Colombia (2011).

DOI: 10.7764/laje.50.2.233

[29] Kraft, A., Kraft, J. On the relationship between energy and GNP. Journal of Energy Development (1978), 3, 401-403.

[30] Pasten, R., Contreras, R., & Molina, C. Energy Consumption, Total Factor Productivity and Growth in Latin America. Publicaciones Universidad de Chile (2009).

[31] Joyeux, R., & Ripple, R. D. Energy Consumption and Real Income: A Panel Co-integration Multi-country Study. School of Commmerce Paper, University of South Australia (2010).

[32] Jin-Li Hu, & Cheng Hsun Lin. Disaggregated energy consumption and GDP in Taiwan: A threshold co-integration analysis. Energy Economics (2008), 2342-2358.

DOI: 10.1016/j.eneco.2007.11.007

[33] Jin-Li Hu, & Cheng Hsun Lin. Examining Asymmetric Behavior Between Energy Consumption and Economic Growth in Taiwan. Energy Sources, Part B: Economics, Planning and Sources. (2013), 76-85.

DOI: 10.1080/15567240903160922

[34] Peterson, S. Greenhouse gas mitigation in developing countries through technology transfer?: a survey of empirical evidence. Mitigation and Adaptation Strategies for Global Change (2008), 283-305.

DOI: 10.1007/s11027-007-9111-8

[35] Hübler, M., & Keller, A. Energy Savings via FDI? Empirical Evidence from Developing Countries. Environment and Development Economics (2009), 59-80.

DOI: 10.1017/s1355770x09990088

[36] Leung, C. S., & Meisen, P. How electricity consumption affects social and economic development by comparing low, medium and high human development countries. Global Network Institute (2005).

[37] Garcia, M. Comparing HDI and Per Capita Electricity Use Data with an Improved Hyperbolic Tangent Correlation. Energy for Human Development (2006).

[38] Martínez, D. M., & Ebenhack, B. W. Understanding the role of energy consumption in human development through the use of saturation phenomena. Energy Policy (2008), 1430-1435.

DOI: 10.1016/j.enpol.2007.12.016

[39] Ouedraogo, N. Energy and Human Development: Panel Co-integration and Causality Testing of the Energy, Electricity and Human Development Index (HDI) Relationship. University Paris-Dauphine (2011).

[40] Leung, C. S., & Meisen, P. How electricity consumption affects social and economic development by comparing low, medium and high human development countries. Global Network Institute (2005).

[41] Garcia, M. Comparing HDI and Per Capita Electricity Use Data with an Improved Hyperbolic Tangent Correlation. Energy for Human Development (2006).

[42] Martínez, D. M., & Ebenhack, B. W. Understanding the role of energy consumption in human development through the use of saturation phenomena. Energy Policy (2008), 1430-1435.

DOI: 10.1016/j.enpol.2007.12.016

[43] Ouedraogo, N. Energy and Human Development: Panel Co-integration and Causality Testing of the Energy, Electricity and Human Development Index (HDI) Relationship. University Paris-Dauphine (2011).

[44] Cerdeira, J. Co-integration Models Applied For Portugal's Energy Consumption, Inward FDI and GDP Series (1980-2007). University of Aveiro(2012).

[45] Kuo, Cheng-Kuo, Chang, Chi-Ya, Chen, Mei-Hui, & Chen, Wei-Yu. In search of causal relationship between FDI, GDP, and energy consumption - Evidence from China. Advanced Materials Research (2012), 524-527, 3388-3391.

DOI: 10.4028/www.scientific.net/amr.524-527.3388

[46] Pao, H. T., & Tsai, C. M. Modeling and forecasting the CO2 emissions, energy consumption, and economic growth in Brazil. Energy (2011), 36(5), 2450-2458.

DOI: 10.1016/j.energy.2011.01.032

[47] Kibikyo, D. L., & Omar, I. Remittances Effect on Poverty and Social Development in Mogadishu, Somalia 2009. Microeconomics and Macroeconomics (2012), 1-11.

DOI: 10.5923/j.m2economics.20120101.01

[48] ECLAC. Uso productivo de las remesas familiarias y comunitarias en Centroamérica. Publications ECLAC (2000).

[49] Kireyev, A. The Macroeconomics of Remittances: the Case of Tajikistan (EPub). International Monetary Fund (2006).

[50] Gredenhoff, M., & Karlsson, S. Lag-length selection in VAR-models using equal and unequal lag-length procedures. Computational Statistics (1999), 14(2), 171-187.

DOI: 10.1007/pl00022710

[51] Lüutkepohl, H., Saikkonen, P. and Trenkler, C. (2001), Maximum eigenvalue versus trace tests for the cointegrating rank of a VAR process. The Econometrics Journal, 4: 287-310.

DOI: 10.1111/1368-423x.00068

[52] Granger, C. W. J., & Newbold, P. Investigating causal relations by econometric model and cross spectral methods. Econometrica (1969), 37(3), 424-438.

DOI: 10.2307/1912791

[53] Xavier Hurtado, FDI specialist, suggests online multimedia including cost simulators, investment calculators and business environment reports.

[54] Since 2007, Rafael Correa administration has achieved the highest ratio social investment/GDP in its history. The UN has recognized Ecuador as the country which reduces more poverty and inequality, and increases its HDI in the region by (2013).

[55] Yachay is a technological hub project in Ecuador to work in five areas: Life Sciences, Petrochemical, Renewable Energy and Climate Change, Nanosciences, and Information and Communication Tech.