- Adeyemi, O. I., D. C. Broadstock, M. Chitnis, L. C. Hunt & G. Judge. (2010). Asymmetric price responses & the underlying energy dem& trend: are they substitutes or complements? Evidence from modelling OECD aggregate energy dem&. Energy Economics, 32(5), 1157–1164.
- Akbari, Reza; Jalai Esf&abadi, Seyyed Abd-alMajid; Nejati, Mehdi & Mina Javadinia, (2019), Investigating the impact of international agreements on the quality of the environment through the foreign direct investment channel with the CGE model approach: a case study of the JCPOA. Economic Research, 54(4), pp. 787-819 [in Persian].
- &erson, K. S., S. Dockweiler & H. K. Jacobsen. (2019). Squaring the energy efficiency circle: evaluating industry energy efficiency policy in a hybrid model setting. MPRA Paper, No. 96546.
- Babiker, M., A. Gurgel, S. Paltsev & J. Reilly. (2009). Forward-looking versus recursive-dynamic modeling in climate policy analysis: a comparision. Economic modeling, 26, 1341-1354.
- Broberg, T., C. Berg & E. Samakovlis. (2015). The economy-wide rebound effect from improved energy efficiency in Swedish industries- A general equilibrium analysis. Energy policy, 83, 26-37.
- Dargay, J. M. & D. Gately. (1995). The imperfect price-reversibility of non-transport oil dem& in the OECD. Energy Economics, 17(1), 59–71.
- Eftekhari, Shervin; Mousavi, Seyed Mostafa & Abtin Ataei, (2015). Investigation of the reduction of greenhouse gas emissions due to solar electricity production in solar electricity development programs. The second national conference on energy & sustainable development, 29 & 30 February 2015, Islamic Azad University, Takistan Unit [in Persian].
- Gately, D. & H. G. Huntington. (2002). The asymmetric effects of changes in price & income of energy & oil dem&. Energy journal, 23(1), 19–55.
- Giraudet, L-G., C. Guivarch & P. Quirion. (2012). Exploring the potential for energy conservation in french households through hybrid modeling, Energy economics, 34, 426-445.
- Huntington, H. G. (2006). A note on price asymmetry as induced technical change. Energy journal, 27(3), 1–7.
- Ianchovichina, E. I. & T. L. Walmsley. (2012). Dynamic modeling & applications for global economic analysis. Cambridge university press.
- Kafaei, Seyyed Mohammad Ali & Priya Nejad Aghaian-Vosh, (2017), Identifying factors affecting energy efficiency in Iran's economy, Quarterly Journal of Energy Economics Studies, 13(52), pp. 1-34.
- Koesler, S., K. Swales & K. Turner. (2016). International spillover & rebound effects from increased energy efficiency in Germany. Energy economics, 54, 444-452.
- Lee, H., S. W. Kang & Y. Koo. (2020). A hybrid energy system model to evaluate the impact of climate policy on the manufacturing sector: adoption of energy-efficient technologies & rebound effects. Energy, 212, 118718.
- Lu, Y., Y. Liu & M. Zhou. (2017). Rebound effect of improved energy efficiency for different energy types: a general equilibrium analysis for China. Energy economics, 62, 248-256.
- Malek Mohammadi, Hamid Reza, (2015). Basics & principles of public policy, Tehran, Samit, first edition [in Persian].
- Ministry of Energy, (2019). Energy balance sheet for 2017. Tehran, Iran [in Persian].
- Nong, D. (2020). Development of electricity-environmental policy CGE model (GTAP-E-PowerS): A case of the carbon tax in South Africa. Energy policy, 140, 111375.
- Pant, H. M. (2002). Solving an intertemporal CGE model without an intertemporal database using GEMPACK – in the GTEM way. 5th annual conference on global economic analysis.
- Patterson, M. G. (1996). What is energy efficiency?: concepts, indicators & methodological issues. Energy policy, 24(5), 377-390.
- Rafiei, Fatemeh; Asgari, Manouchehr & Hamidreza Arbab, (2019), Analyzing the rebound effects caused by increasing in energy efficiency in Iran: Computable general equilibrium model approach, Economics & Modeling Quarterly, 39, pp. 87-111 [in Persian].
- Sharekian, Atiyeh & Mohammad Reza Lotfalipour, (2016), the role of energy efficiency in improving the environment in selected oil exporting countries (using panel data), Journal of Regional Economy & Development, 23(11), pp. 106- 130 [in Persian].
- Sharzei, Gholam Ali & He-Zhar Ebrahimzadegan, (2011), estimation of the return effect of increasing energy efficiency in relation to household consumption & carbon dioxide emissions in Iran, Journal of Energy Economics Studies, 8(30), pp. 33-61 [in Persian].
- Suleimanian, Zohreh; Bazazan, Fatemeh & Mirhossein Mousavi, (2018), Reciprocal effects resulting from improving the efficiency of electricity, fossil fuels & energy input in energy-intensive industries: a computable general equilibrium approach. Economic Research, 53(4), pp. 855-880 [in Persian].
- Suleimanian, Zohreh; Bazazan, Fatemeh & Mirhossein Mousavi, (2017), The effects of improving the efficiency of fossil fuels in energy-intensive industries: an inter-temporal dynamic computable general equilibrium model, Iran Energy Economics Research Journal, 6(21), pp. 163-200 [in Persian].
- Wei, T. & Y. Liu. (2017). Estimation of global rebound effect caused by energy efficiency improvement. Energy economics, 66, 27-34.
- Wu, Y-H., C-H. Liu, M-L. Hung, T-Y. Liu & T. Masui. (2019). Sectoral energy efficiency improvements in Taiwan: Evaluations using a hybrid of top-down & bottom-up models. Energy policy, 132, 1241-1255.
- Zhang, J. S. & C. Y. Lawell. (2017). The macroeconomic rebound effect in China. Energy economics, 67, 202-212.
|
