Managing sustainable demand-side infrastructure for power system ancillary services

Parkinson, Simon Christopher

22 December 2011

Widespread access to renewable electricity is seen as a viable method to mitigate carbon emissions, although problematic are the issues associated with the integration of the generation systems within current power system configurations. Wind power plants are the primary large-scale renewable generation technology applied globally, but display considerable short-term supply variability that is difficult to predict. Power systems are currently not designed to operate under these conditions, and results in the need to increase operating reserve in order to guarantee stability. Often, operating conventional generation as reserve is both technically and economically inefficient, which can overshadow positive benefits associated with renewable energy exploitation. The purpose of this thesis is to introduce and assess an alternative method of enhancing power system operations through the control of electric loads. In particular, this thesis focuses on managing highly-distributed sustainable demand-side infrastructure, in the form of heat pumps, electric vehicles, and electrolyzers, as dispatchable short-term energy balancing resources. The main contribution of the thesis is an optimal control strategy capable of simultaneously balancing grid- and demand-side objectives. The viability of the load control strategy is assessed through model-based simulations that explicitly track end-use functionality of responsive devices within a power systems analysis typically implemented to observe the effects of integrated wind energy systems. Results indicate that there is great potential for the proposed method to displace the need for increased reserve capacity in systems considering a high penetration of wind energy, thereby allowing conventional generation to operate more efficiently and avoid the need for possible capacity expansions. / Graduate

Resource management

Renewable Energy

Power system operation and control

Computational modelling

Shape Design and Operation of Microreactors / マイクロリアクタの形状設計と操作

Tonomura, Osamu

23 July 2015

京都大学 / 0048 / 新制・論文博士 / 博士(工学) / 乙第12950号 / 論工博第4126号 / 新制||工||1628(附属図書館) / 32249 / 京都大学大学院工学研究科化学工学専攻 / (主査)教授 長谷部 伸治, 教授 前 一廣, 教授 吉田 潤一 / 学位規則第4条第2項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Microreactors

Shape Design

Operation and Control

Blockage Diagnosis

Numbering-up

500