Modelling useful energy demand system as derived from basic needs in the household sector
Tóm tắt
Từ khóa
Tài liệu tham khảo
Anandarajah, G., Kesicki, F. (2010). Global climate change mitigation: what is the role of demand reduction. In: (Proceedings) 11th IAEE European Conference.
Attfield, C. L. F. (2005). A time series aggregate demand model with demographic and income distribution indices. UK: University of Bristol.
Barnett, W. A., & Serletis, A. (2008). Consumer preferences and demand systems. Journal of Econometrics, 147, 210–224.
Barten, A. P. (1968). Maximum likelihood estimation of a complete system of demand equations. European Economic Review, 1, 7–73.
Bhattacharjee, S., Reichard, G., (2011). Socio-economic factors affecting individual household energy consumption: a systematic review, proceedings of the ASME 2011 5th International Conference on Energy Sustainability, USA.
Bhattacharyya, S C., Timilsina, G R. (2009). Energy demand models for policy formulation: a comparative study of energy demand models, World Bank Policy Research Working paper WPS 4866.
Böhringer, C., Rutherford, T.F. (2006). Combining top-down and bottom-up in energy policy analysis: a decomposition approach, ZEW Discussion Paper No. 06-007, Mannheim.
Daioglou, V., van Ruijven, B. J., & van Vuuren, D. (2012). Model projections for household energy use in developing countries. Energy, 37, 601–615.
Deaton, A., & Muellbauer, J. (1980). An almost ideal demand system. The American Economic Review, 70(3), 312–326.
Deaton, A., & Muellbauer, J. (1983). Economics and consumer behavior. United Kingdom: Cambridge University Press.
Edgerton, D. L. (1997). Weak separability and the estimation of elasticities in multistage demand. American Journal of Agricultural Economics, 79(1), 62–79.
Filippini, M. (2011). Short- and long-run time-of-use price elasticities in Swiss residential electricity demand. Energy Policy, 39(5811), 5817.
Fouquet, R. (2013). Long run demand for energy services: the role of economic and technological development, Working Papers 2013-03, BC3.
Fullerton, T. M., Jr., Juarez, D. A., & Walke, A. G. (2012). Residential electricity consumption in Seattle. Energy Economics, 34, 1693–1699.
Geary, R. C. (1950). A note on ‘A constant utility index of the cost of living’. The Review of Economic Studies, 18(1), 65–66.
Gouveia, J. P., Fortes, P., & Seixas, J. (2012). Projections of energy services demand for residential buildings: Insights from a bottom-up methodology. Energy, 47(1), 430–441.
Grubler, A., Johansson, T. B., Mundaca, L., Nakicenovic, L., Pachauri, S., Riahi, K. et al. (2012). Chapter 1—Energy primer. In Global energy assessment—toward a sustainable future, Cambridge University Press, Cambridge, UK and New York, NY, USA and the International Institute for Applied Systems Analysis, Laxenburg, Austria, pp. 99–150.
Guertin, C., Kumbhakar, S. C., & Duraiappah, A. K. (2003). Determining demand for energy services: Investigating income-driven behaviors. Winnipeg: International Institute for SustainableDevelopment (IISD).
Guta, D. D. (2012). Application of an almost ideal demand system (AIDS) to Ethiopian rural residential energy use: panel data evidence. Energy Policy, 50, 528–539.
Hafele, W. (1977). On energy demand. 21st general conference of the International Atomic Energy Agency, Vienna, IAEA Bulletin 19:6.
IAEA. (2006). Model for Analysis of the Energy Demand (MAED), Users’ manual for version MAED-2. Vienna: International Atomic Energy Agency.
Iran Energy Balance Sheet (2010). Power and Energy Planning Department, Ministry of Energy of I.R.IRAN (available in Persian).
Iranian Fuel COnservation company (IFCO). Applied information on efficient standards and energy labels. http://ifco.ir/building/standard/standard_inform.asp .
Ivanco, M., Karney, B., Waher, K. (2010). Impact of conversion to compact fluorescent lighting, and other energy efficient devices, on greenhouse gas emissions, air pollution. V. Villanyi (Ed.).
Lancaster, K. J. (1966). A new approach to consumer theory. The Journal of Political Economy, 74(2), 132–157.
Lula, J., & Antille, A. (2010). Estimation of private consumption functions for Switzerland (pp. 10–16). Trujillo: The Fifteenth World In forum Conference.
Magnus, J. R. (1982). Multivariate error components analysis of linear and nonlinear regression models by maximum likelihood. Journal of Econometrics, 19, 239–285.
McNeil, M., Letschert, V., de la Rue de Can, S., & Ke, J. (2013). Bottom–Up Energy Analysis System (BUENAS)—an international appliance efficiency policy tool. Energy Efficiency. doi: 10.1007/s12053-012-9182-6 .
Ministry of Industries and Mines (MIM). (2010). Active producers of industrial products. Tehran: Ministry of Industries and Mines (Available in Persian).
NIORDC (National Iranian Oil Refining & Distribution Company). (2010). Statistical yearbook. Tehran: Public Relation of National Iranian Oil Refining & Distribution Company (Available in Persian).
Pachauri, S. (2007). An energy analysis of household consumption: changing patterns of direct and indirect use in India. India: Springer.
Pachauri, S., & Spreng, D. (2003). Energy use and energy access in relation to poverty. CEPE Working Paper Nr. 25. Switzerland: Centre For Energy Policy andEconomics.
Pollak, R. A., & Wale, T. J. (1981). Demographic variables in demand analysis. Econometrica, 49, 1533–1551.
Schermerhorn, J. R., Hunt, J. G., & Osborn, R. N. (2002). Organizational behavior (8th ed.). Hoboken: John Wiley & Sons, Inc.
SCI (Statistical Center of Iran) (2010). Household Expenditure and Income Surveys. Statistical Center of Iran, Tehran. (Available in Persian).
Stone, R. (1954). Linear expenditure systems and demand analysis: an application to the pattern of British demand. The Economic Journal, 64(255), 511–527.
Swan, L. G., & Ugursal, V. I. (2009). Modeling of end-use energy consumption in the residential sector: a review of modeling techniques. Renewable and Sustainable Energy Reviews, 13, 1819–1835.
Thoma, J. (1977). Energy, entropy, and information. Laxenburg: International Institute for Applied Systems Analysis.