Call for Papers
The official Call for Papers has been EXTENDED until 31 January 2024.
The digital proceedings of the Hybrid Power Plants & Systems Workshops are published on the IET Digital Library & IEEE Explore and submitted for indexing in IET Inspec, Ei Compendex and Scopus.
7th Hybrid Power Plants & Systems Workshop, Faroe Islands, 23-24 May 2023: IET | IEEE Xplore
Deadlines
- Abstracts can be submitted until 31 January 2024 (extended deadline).
- Abstract submitters will be notified about the acceptance of their papers on 19 February 2024.
- Final papers must be submitted online until 15 April 2024.
- As the conference language is English, all abstracts and papers have to be written in English.
- All participants are responsible for paying their own travel and hotel expenses.
>> PLEASE NOTE THAT SPEAKERS WILL PAY A REDUCED WORKSHOP FEE! <<<
Abstract checklist
You need some more information on what to keep in mind when submitting the abstract? Find here a checklist:
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1. Hybrid Power/Energy Systems (HESs)
Combination of different types of generation, storage, and consumption technologies in a single system with at least one type of generation being renewable, including systems that are 100% based on renewable energy [e.g., solar photovoltaics (PV) and wind], or combine different energy storage systems (e.g., BESSs, fuel cells, and supercapacitors). Typically found on islands and remote places such as mines.
2. Hybrid Power Plants (HPPs)
Power-generating facilities combining variable renewable energy sources (e.g. wind and solar), with or without storage, and sharing the same substation/point of common coupling. This workshop looks into such issues as how to maximize the utilisation of the grid connection capacity, how to establish HPPs in the regulatory framework (network codes) or how to develop control concepts to maximize renewable energy feed.
Hybrid Power System Technologies and Design (Island Power Systems)
Project Experience and Case Studies: Hybrid Power Systems
System Modelling and Simulation: Hybrid Power Systems
Pico-/Mini-/Micro-Grid Systems Design
Intelligent Control and Grid Stabilization
Managing Variability and Uncertainty
Load Assessment Strategies
Standards and relevant Grid Codes for Hybrid Power Systems
Regulatory Challenges related to Hybrid Power Systems
Protection Issues for Hybrid Power Systems
Design of Energy Management Systems for Hybrid Power Systems
Economic Evaluation of Hybrid Power Systems
Ancillary Services in Hybrid Power Systems
Hydrogen and Hybrid Power Systems
Hybrid Power Plant Technologies and Design (Combined Wind &Solar plus may be storage as a power plant connected to a grid)
Project Experience and Case Studies: Hybrid Power Plants
System Modelling and Simulation: Hybrid Power Plants
Storage Design and Sizing
Metering and Park Control Concepts
Managing Variability and Uncertainty
Resource Assessment and Forecasting
Standards and relevant Grid Codes for Hybrid Power Plants
Regulatory Challenges related to Hybrid Power Plants
Economic Evaluation of Hybrid Power Plants
Ancillary Services from Hybrid Power Plants
Hydrogen and Hybrid Power Plants
- system planners and designers
- operators of small systems
- project developers and consultants
- universities and research institutes
- regulators and NGOs
- technology vendors of distributed variable generation & storage technology