國立虎尾科技大學 |

Energy demand in industry = what factors are important? /

Record Type:	Language materials, printed : Monograph/item
Title/Author:	Energy demand in industry/ by Nabaz T Khayyat.
Reminder of title:	what factors are important? /
Author:	Khayyat, Nabaz T.
Published:	Dordrecht :Springer Netherlands : : 2015.,
Description:	xix, 196 p. :ill., digital ; : 24 cm.;
Contained By:	Springer eBooks
Subject:	Industries - Energy consumption - Korea (South) -
Online resource:	http://dx.doi.org/10.1007/978-94-017-9953-9
ISBN:	9789401799539

Energy demand in industry = what factors are important? /
Khayyat, Nabaz T.

Energy demand in industrywhat factors are important? /[electronic resource] :by Nabaz T Khayyat. - Dordrecht :Springer Netherlands :2015. - xix, 196 p. :ill., digital ;24 cm. - Green energy and technology,1865-3529. - Green energy and technology..

1 Overview -- 2 History Of Economic Development In South Korea -- 3 Survey Of Existing Researches Related To Energy Demand -- 4 Survey Of Existing Researches Related To Production Risk -- 5 Econometrics Of Panel Data Estimation -- 6 Energy Demand Data -- 7 Energy Demand Models Estimation -- 8 Energy Demand Model I -- 9 Energy Demand Model Ii -- 10 Summary And Conclusion.

The book presents a stochastic analysis based on production risk and application of this method in the industrial sector under production risk where energy use is an input factor. Using South Korea as a case study, the book empirically models energy demand at the industrial level and analyzes the results to identify key determinants of energy demand, productions level, productions risk and energy usage efficiency. Particular attention is paid to the factors that enhance production risk or increase variations in energy input during production. A dynamic panel model is specified and applied to 25 Korean industrial sectors over the period 1970-2007. The determinants of energy usage are identified and their effects in the form of elasticities of energy usage are estimated. In addition the structural changes in the energy demand pattern are explored. Stochastic production technology is applied to create two primary models: A production model where the energy usage is a determinant of output, and an energy demand model based on an inverted factor demand model where demand is a key determinant of the level of energy usage. The findings reveal that: First, there are large variations in the degree of overuse or inefficiency in energy usage among the individual industries and over time; second, ICT (information and communication technology) capital and labor are substituting energy; third, ICT capital and value added services are two input factors decreasing the variability of energy demand while non-ICT capital, material and labor are increasing the variability of energy demand. Finally, the results suggest that technical progress contributes more to the increase of mean of energy demand than to the reduction of the level of risk. An emerging recommendation is that industries increase the level of ICT capital and digitalization and invest more in R&D activities and value added services to reduce the uncertainty related to their demand for energy. This study forms the structure of the demand for energy under stochastic production risk for the South Korean industrial sector. Public research programs aimed at the industrial sector should be concerned about both mean and risk properties in research on new technologies and in the investigation of possible alternative energy inputs. This book describes the state of the art in energy usage analysis and production risk, applying factor requirement methodology. It will be of use as a main or supplementary text in the teaching of advanced graduate courses but also as a reference for those working on empirically advanced research. The book is an important addition to the existing literature on industrial development, with its focus on energy as a core production input.

ISBN: 9789401799539

Standard No.: 10.1007/978-94-017-9953-9doiSubjects--Topical Terms:

1067879
Industries
--Energy consumption--Korea (South)

LC Class. No.: HD9502.K62

Dewey Class. No.: 333.7909957

Energy demand in industry = what factors are important? /
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505 0 $a 1 Overview -- 2 History Of Economic Development In South Korea -- 3 Survey Of Existing Researches Related To Energy Demand -- 4 Survey Of Existing Researches Related To Production Risk -- 5 Econometrics Of Panel Data Estimation -- 6 Energy Demand Data -- 7 Energy Demand Models Estimation -- 8 Energy Demand Model I -- 9 Energy Demand Model Ii -- 10 Summary And Conclusion.
520 $a The book presents a stochastic analysis based on production risk and application of this method in the industrial sector under production risk where energy use is an input factor. Using South Korea as a case study, the book empirically models energy demand at the industrial level and analyzes the results to identify key determinants of energy demand, productions level, productions risk and energy usage efficiency. Particular attention is paid to the factors that enhance production risk or increase variations in energy input during production. A dynamic panel model is specified and applied to 25 Korean industrial sectors over the period 1970-2007. The determinants of energy usage are identified and their effects in the form of elasticities of energy usage are estimated. In addition the structural changes in the energy demand pattern are explored. Stochastic production technology is applied to create two primary models: A production model where the energy usage is a determinant of output, and an energy demand model based on an inverted factor demand model where demand is a key determinant of the level of energy usage. The findings reveal that: First, there are large variations in the degree of overuse or inefficiency in energy usage among the individual industries and over time; second, ICT (information and communication technology) capital and labor are substituting energy; third, ICT capital and value added services are two input factors decreasing the variability of energy demand while non-ICT capital, material and labor are increasing the variability of energy demand. Finally, the results suggest that technical progress contributes more to the increase of mean of energy demand than to the reduction of the level of risk. An emerging recommendation is that industries increase the level of ICT capital and digitalization and invest more in R&D activities and value added services to reduce the uncertainty related to their demand for energy. This study forms the structure of the demand for energy under stochastic production risk for the South Korean industrial sector. Public research programs aimed at the industrial sector should be concerned about both mean and risk properties in research on new technologies and in the investigation of possible alternative energy inputs. This book describes the state of the art in energy usage analysis and production risk, applying factor requirement methodology. It will be of use as a main or supplementary text in the teaching of advanced graduate courses but also as a reference for those working on empirically advanced research. The book is an important addition to the existing literature on industrial development, with its focus on energy as a core production input.
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