Estimating the Demand for Electricity in Agriculture Sector of Iran
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Author(s)
Abstract
The main purpose of this paper is examining the dynamics of electricity demand in the Iranian agricultural sector paper using empirical evidence over the period 2003-2014. The paper uses Panel cointegration test and Fully Modified Ordinary Least Squares method to determine the long run relationship between agricultural electricity consumption, agricultural GDP, real price of electricity, domestic price of diesel as substitute good and mechanization index (a number of electrified pumps of water wells). The results show that electricity demand is more responsive to changes in agriculture value added (income) than changes in prices. Results also indicated that price elasticity is negative and significant but low in magnitude, which implies that changes in electricity price apply minimal effect on the electricity consumption agricultural sector.
Keywords
electricity demand, agricultural sector, Dynamic panel data, Iran
Cite this paper
Mohsen Mohammadi Khyareh,
Estimating the Demand for Electricity in Agriculture Sector of Iran
, SCIREA Journal of Agriculture.
Volume 1, Issue 2, December 2016 | PP. 143-155.
References
[ 1 ] | Abbasinejad, H. and Sadeghi, H .1999. Stable relationship between energy demand and energy prices and economic activity in the economy, Journal of Economic Research, No. 45, p. 51 -32. |
[ 2 ] | Akinboade, O. A., Ziramba, E., & Kumo, W. L. (2008). The demand for gasoline in South Africa: An empirical analysis using co-integration techniques. Energy Economics, 30(6), 3222-3229. |
[ 3 ] | Al-Faris, A. R. F. (2002). The demand for electricity in the GCC countries. Energy Policy, 30(2), 117-124. |
[ 4 ] | Alves, D. C., & da Silveira Bueno, R. D. L. (2003). Short-run, long-run and cross elasticities of gasoline demand in Brazil. Energy Economics, 25(2), 191-199. |
[ 5 ] | Amarawickrama, H. A., & Hunt, L. C. (2008). Electricity demand for Sri Lanka: a time series analysis. Energy, 33(5), 724-739. |
[ 6 ] | Amusa, H., Amusa, K., & Mabugu, R. (2009). Aggregate demand for electricity in South Africa: An analysis using the bounds testing approach to co-integration. Energy policy, 37(10), 4167-4175. |
[ 7 ] | Asgari, E .2002. Estimation of household demand for electricity, Journal of Planning and Budget, Number 62, 63, p 119-103 |
[ 8 ] | Atakhanova, Z., & Howie, P. (2007). Electricity demand in Kazakhstan. Energy Policy, 35(7), 3729-3743. |
[ 9 ] | Bahmani, M., Ghaseminejad, A., Karimian, A., & Aramesh, H. (2014). Simulating Electricity Demand Function in the Agriculture Sector: Application of Particle Swarm Optimization Algorithm. Agr. Econ. Res, 2(22), 1-11. |
[ 10 ] | Barati Malayeri, A., & Hoori Jaffari, H. (2008). Estimation of energy consumption in final consuming sectors. Quarterly Journal of Energy Economics Surveys, 1(1), 56-97. |
[ 11 ] | Baruah, D. C., & Bora, G. C. (2008). Energy demand forecast for mechanized agriculture in rural India. Energy Policy, 36(7), 2628-2636. |
[ 12 ] | Bose, R. K., & Shukla, M. (1999). Elasticities of electricity demand in India. Energy Policy, 27(3), 137-146. |
[ 13 ] | Chan, H. L., & Lee, S. K. (1997). Modeling and forecasting the demand for coal in China. Energy Economics, 19(3), 271-287. |
[ 14 ] | Dergiades, T., & Tsoulfidis, L. (2008). Estimating residential demand for electricity in the United States, 1965–2006. Energy Economics, 30(5), 2722-2730. |
[ 15 ] | Fallahi, E., & Khalilyan, S. (2009). Study and Comparison of the Importance of Oil Products and Electricity with other Production Factors in Iran Agricultural Sector. Agr. Econ. Res, 1(2), 1-20. |
[ 16 ] | Filippini, M., & Pachauri, S. (2004). Elasticities of electricity demand in urban Indian households. Energy policy, 32(3), 429-436. |
[ 17 ] | Fouquet, R., Pearson, P., Hawdon, D., Robinson, C., & Stevens, P. (1997). The future of UK final user energy demand. Energy Policy, 25(2), 231-240. |
[ 18 ] | Galindo, L. M. (2005). Short-and long-run demand for energy in Mexico: a cointegration approach. Energy Policy, 33(9), 1179-1185. |
[ 19 ] | Heydari, E. (2005). Energy Demand Forecasting in Iranian economics based on decomposition approach. Journal of Economic Research, 69, 27-56. |
[ 20 ] | Jumbe, C. B. (2004). Co-integration and causality between electricity consumption and GDP: empirical evidence from Malawi. Energy economics, 26(1), 61-68. |
[ 21 ] | Khan, M. A., & Abbas, F. (2016). The dynamics of electricity demand in Pakistan: A panel cointegration analysis. Renewable and Sustainable Energy Reviews, 65, 1159-1178. |
[ 22 ] | Khan, M. A., & Qayyum, A. (2009). The demand for electricity in Pakistan. OPEC Energy Review, 33(1), 70-96. |
[ 23 ] | Kulshreshtha, M., & Parikh, J. K. (2000). Modeling demand for coal in India: vector autoregressive models with cointegrated variables. Energy, 25(2), 149-168. |
[ 24 ] | Mehrabi Boshraabadi, H., & Sadat Naghavi, S. (2012). Estimation of Energy Demand in the Agricultural Sector in Iran. Agr. Econ. Res, 2(3), 147-162. |
[ 25 ] | Narayan, P. K., & Smyth, R. (2005). The residential demand for electricity in Australia: an application of the bounds testing approach to co-integration. Energy policy, 33(4), 467-474. |
[ 26 ] | Park, S. Y., & Zhao, G. (2010). An estimation of US gasoline demand: A smooth time-varying cointegration approach. Energy Economics, 32(1), 110-120. |
[ 27 ] | Polemis, M. L. (2006). Empirical assessment of the determinants of road energy demand in Greece. Energy Economics, 28(3), 385-403. |
[ 28 ] | Ramanathan, R. (1999). Short-and long-run elasticities of gasoline demand in India: An empirical analysis using cointegration techniques. Energy economics, 21(4), 321-330. |
[ 29 ] | Rao, B. B., & Rao, G. (2009). Cointegration and the demand for gasoline. Energy Policy, 37(10), 3978-3983. |
[ 30 ] | Samadi, S., Shahidi, A., & Mohammadi, F. (2009). Electricity Demand Analysis in Iran by using Co-integration and ARIMA Modeling (1363-1388). Knowledge and Development Journal, vol. 25, 113-136. |
[ 31 ] | Soheyli, K. (2007). Demand Models and Dynamic Analysis of Demand for Energy in Iran. Quarterly Journal of the Economic Research, 2, 12-26. |
[ 32 ] | Türkekul, B., & Unakıtan, G. (2011). A co-integration analysis of the price and income elasticities of energy demand in Turkish agriculture. Energy Policy, 39(5), 2416-2423. |
[ 33 ] | Uri, N. D. (1979). The demand for electrical energy by agriculture in the USA. Energy Economics, 1(1), 14-18. |
[ 34 ] | Uri, N. D. (1994). The Impact of Measurement Error in the Data on Estimates of the Agricultural Demand for Electricity in the USA. Energy economics, 16(2), 121-131. |
[ 35 ] | Zachariadis, T., & Pashourtidou, N. (2007). An empirical analysis of electricity consumption in Cyprus. Energy Economics, 29(2), 183-198. |
[ 36 ] | Ziaabadi, M., Alavi, S., Mehrjerdi, M. Z., & Irani-Kermani, F. (2013). Forecast of Energy Consumption in Agricultural Sector of Iran Using Neural Network.Interdisciplinary Journal of Contemporary Research In Business, 4(9), 1042. |
[ 37 ] | Ziaee, O., Kian, A. R., & Moghadam, M. P. (2009, July). Estimation of power interruption cost using causality model for industrial sector in Iran. In Power & Energy Society General Meeting, 2009. PES'09. IEEE (pp. 1-5). |
[ 38 ] | Zibaii, M., & Tarazkar, M. H. (2004). Examining short run and Long run relationship between value added and energy consumption in the agriculture sector. Quarterly journal of Bank and Keshavarzi, 6(1), 157-171. |