This study extends the ambit of the debate on electricity transitionby specifically identifying possible policy entry points through which transformative and enduring changes can be made in the electricity and socio-e...This study extends the ambit of the debate on electricity transitionby specifically identifying possible policy entry points through which transformative and enduring changes can be made in the electricity and socio-economic systems to facilitate the transition process.Guided by the"essence"of the multi-level perspective-a prominent framework for the study of energy transition,four such entry points have been identified:1)destabilising the dominant,fossil fuel-based electricity regime to create room for renewable technologies tobreak through;2)reconfiguring the electricity regime,which encompasses technology,short-term operational practices and long-term planning processes,to improve flexibility for accommodating large outputs from variable renewable sources whilst maintaining supply security;3)addressing the impactofcoal power phase-outon coal mining regions in terms of economic development and jobs;and 4)facilitating a shift in transition governance towards a learning-based,reflexive process.Specific areas for policy interventions within each of these entry points have also been discussed in the paper.展开更多
Given that the overlapping of jobs is permitted, the paper studies the scheduling and control of failure prone production systems, i.e. so-called settings with demand uncertainty and job overlaps. Because a variable d...Given that the overlapping of jobs is permitted, the paper studies the scheduling and control of failure prone production systems, i.e. so-called settings with demand uncertainty and job overlaps. Because a variable demand resource is involved in the production and corrective maintenance control problems of the system, which switched randomly between zero and a maximum level, it is difficult to obtain the analytical solutions of the optimal single hedging point policy. An asymptotic optimal scheduling policy is presented and a double hedging point policy is offered to control simultaneously the production rate and the corrective maintenance rate of the system. The corresponding analytical solutions and approximate solutions are obtained. Considering the relationship of production, corrective maintenance and demand variable, an approximate optimal single hedging point control policy is proposed. Numerical results are presented.展开更多
基金This work was supported by the National Natural Science Foundation of China(Grant No.72174056).
文摘This study extends the ambit of the debate on electricity transitionby specifically identifying possible policy entry points through which transformative and enduring changes can be made in the electricity and socio-economic systems to facilitate the transition process.Guided by the"essence"of the multi-level perspective-a prominent framework for the study of energy transition,four such entry points have been identified:1)destabilising the dominant,fossil fuel-based electricity regime to create room for renewable technologies tobreak through;2)reconfiguring the electricity regime,which encompasses technology,short-term operational practices and long-term planning processes,to improve flexibility for accommodating large outputs from variable renewable sources whilst maintaining supply security;3)addressing the impactofcoal power phase-outon coal mining regions in terms of economic development and jobs;and 4)facilitating a shift in transition governance towards a learning-based,reflexive process.Specific areas for policy interventions within each of these entry points have also been discussed in the paper.
基金This work was supported by the Project 973 (No.2002CB312200) and the National Natural Science Foundation (No.60404018).
文摘Given that the overlapping of jobs is permitted, the paper studies the scheduling and control of failure prone production systems, i.e. so-called settings with demand uncertainty and job overlaps. Because a variable demand resource is involved in the production and corrective maintenance control problems of the system, which switched randomly between zero and a maximum level, it is difficult to obtain the analytical solutions of the optimal single hedging point policy. An asymptotic optimal scheduling policy is presented and a double hedging point policy is offered to control simultaneously the production rate and the corrective maintenance rate of the system. The corresponding analytical solutions and approximate solutions are obtained. Considering the relationship of production, corrective maintenance and demand variable, an approximate optimal single hedging point control policy is proposed. Numerical results are presented.