国际工程技术学会(IET)旗下 IET Smart Grid 特刊《区块链技术支持多能系统P2P交易：从技术到应用》开始征稿，投稿开放时间：2021年8月1日，截止时间：2021年12月31日.欢迎赐稿。详见：https://ietresearch.onlinelibrar ... 152947/homepage/cfp

Blockchain Technologies Empowering Peer-to-Peer Trading in Multi-Energy Systems: From Advanced Technologies Towards Applications
In efforts to decarbonise electricity, transport, and heat sectors, policy makers facilitate the integration of renewable energy sources and demand side management in the multi-energy systems. With the supports of the smart grid, increasing number of consumers start to produce, store, and consume energy using zero-carbon electricity and heat sources, e.g. solar panels, electric vehicles, and air source heat pumps, giving them the new role of multi-energy prosumers. A flexible local energy market structure and intelligent operations of smart grid are crucial factors for accommodating the role of multi-energy prosumers. The blockchain technologies, e.g. smart contracts and hypothetical technology, pave the path for the peer-to-peer (P2P) energy markets which are open and accessible to prosumers with enhanced automation, security, and privacy. The state-of-the-art research and scientific innovations bring these advanced blockchain technologies towards applications into multi-energy systems.

This special issue of IET Smart Grid aims to solicit the innovative research on the blockchain empowering peer-to-peer trading in multi-energy systems. The scope of the research include a single(multiple) energy vector(s) (e.g. electricity, gas, or heat), technologies (e.g. blockchain, smart contracts, or machine learning), theories (e.g. P2P trading mechanisms, pricing schemes, communication protocols, or consensus mechanisms) and applications (e.g. blockchain platforms or prosumer-centric energy scheduling).

Topics of interest include, but are not limited to:

– Privacy preservation and security of P2P energy trading networks.

– Communication and networking of the blockchain based P2P energy trading systems.

– Design of scalable blockchain platforms and protocols for P2P energy trading.

– Demand side management and pricing design for multi-energy prosumers.

– Design of smart contracts based auction mechanisms for P2P energy trading.

– Data analytics, optimisation, and game theory for the management of prosumer centric multi-energy systems.

– Policy design for facilitating P2P energy trading and prosumers’ engagement.

– Artificial intelligence and machine learning for supporting P2P energy trading.



Guest Editors

•Dr Weiqi Hua (Lead), Cardiff University, UK E: Huaw5@cardiff.ac.uk

•Dr Fengji Luo, University of Sydney, Australia E: fengji.luo@sydney.edu.au

•Dr Liang Du, Temple University, USA E: ldu@temple.edu

•Dr Sijie Chen, Shanghai Jiao Tong University, China E: sijie.chen@sjtu.edu.cn

•Dr Taesic Kim, Texas A&M University–Kingsville, USA E: taesic.kim@tamuk.edu

•Dr Thomas Morstyn, University of Edinburgh, UK E: thomas.morstyn@ed.ac.uk

•Dr Valentin Robu, CWI, Amsterdam & TU Delft, Netherlands E: v.robu@cwi.nl

•Dr Yue Zhou, Cardiff University, UK E: zhouy68@cardiff.ac.uk

Submission deadline: 31st December 2021.
Publication date: October 2022. 返回小木虫查看更多