題目:Modelling dynamic structural change of an industry incorporating pollution
主講人:Finn Forsund 教授(奧斯陸大學(xué),挪威)
時(shí)間:2016年7月11日16:00
地點(diǎn):主樓六樓會(huì)議室
主講人介紹:
Finn Forsund is a professor in Department of economics, University of Oslo. He is also a scientific advisor in Ragnar Frisch Centre for Economic Research. Professor Forsund's academic interests include resources, energy, environment, production theory, and productivity. His other positions held include Editorial advisory council of Pacific Economic Review, Editorial advisory board of Journal of Productivity Analysis. He has published several books include Hydropower economics (first and second editions, Springer) and many peer reviewed papers in Journal of Productivity Analysis, Applied Economics, Annals of Operations Research, National Institute Economic Review, European Journal of Operational Research, Energy Policy, Journal of Operational Research Society, International Review of Environmental and Resource Economics, National Institute Economic Review, etc.
內(nèi)容介紹:
The materials-balance principle points to the crucial role of material inputs in generating residuals in production processes. Pollution modelling must be of a multi-output nature. The most flexible transformation function in outputs and inputs used in textbooks is too general to make sense in pollution modelling. Specifying bads as if they are inputs, although may be defendable on a macro level as a reduced form, hides explicit considerations of various modification activities. Applying a non-parametric efficiency approach extended to cover bads as outputs, assuming weak disposability of the bads, has serious formal weaknesses as well as not accounting satisfactorily for abatement. Factorially determined multi-output production may be used to model generation of bads by making them being functions of the same set of inputs as in the production of good outputs. A complete taxonomy of inputs as to the impact on both residuals and marketed products as joint outputs is then derived. Factorially determined multi-output production can also be used to model end-of-pipe purification, observing the materials-balance principle, thus providing detailed information for choice of policy instruments.
(承辦:管理工程系,科研與學(xué)術(shù)交流中心)
