HERI – Research Actions Database

Welcome to the HERI Research Actions Database. The database provides details of past and present research actions related to all aspects of hydropower. The database has been structured following the categorisation developed for the HYDROPOWER EUROPE research and innovation agenda, and Strategic Industry Roadmap.

The database contents have been collated from a variety of organisations working on research actions across all sectors of the hydropower industry. The information has been share freely and is available as open access. You can search the database or add details of new initiatives to the database via the buttons below.

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Increasing the value of Hydropower through increased Flexibilty

Description

HydroFlex aims to increase the value of hydro power through increased Flexibility. The commitment to cut greenhouse gas emissions under the United Nations Framework Convention on Climate Change has been an important contributor to the increasing share of renewables in the European energy system. Variable renewable energy sources such as wind and solar, as well as increased end-user flexibility and a market-oriented operation of power plants, results in larger fluctuations in the power system. Hydro power, due to its quick response and storage capability represents an important asset for grid balancing. HydroFlex aims to make hydro power available in a time as short as possible by performing well-focused research and innovation actions on the key bottlenecks of hydro power plants that restricts their flexibility. The project will start off by identifying the operating conditions of hydro power plants in the future energy system. Research will be focused on the flexibility of Francis turbines, the most common turbine type in Europe, and the configuration of synchronous generators and frequency converters that allow for variable speed operation. Variable speed operation increases the operating range of the turbines, reduces the fatigue loads, and allow for higher ramping rates and start-stop-cycles reaching up to 30 times per day. HydroFlex also addresses methods to mitigate the negative effects on downstream water courses that may result from higher flexibility of hydro power plants, by developing and testing a technology for active underground storage of water. To promote the research results to the hydro power industry, the scientific community and the public, the results will be presented in workshops, conferences, scientific journals, newspapers and various social media.

Organisations

  • Norges teknisk-naturvitenskapelige universitet - NTNU

Funding

  • European funding

Specific Funding Sources:
European Commission

Level of Action:

European

Applications

Small-hydro, Large-hydro, Run-of-the-River, Storage Hydropower

Keywords

Awareness, Communication, Ecology, Flexibility, Hydropeaking, Modeling / Simulation, Sustainability, Turbines

Areas of Research

Research and Innovation Agenda

  • Developing and optimising hydraulic design and control strategies for pump turbines and waterway system in existing PSH
  • Analysing the relation between flexible operation and lifetime reduction
  • Improvement of operation at minimum load
  • Developing robust designs of hydro plant components

Strategic Industry Roadmap

  • Increase Awareness of European Citizens of the Importance of Hydropower Development
  • Develop Innovative Determination and Planning of Environmental Flow Releases

Last Updated: 22/02/2024 09:43

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HydroFlex

Call Number

H2020-LCE-2017-RES-RIA-TwoStage

Project Number

764011

Start Date
2018
End Date
2022

Budget Range
€5,000,000 - €10,000,000

Project website

 

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Funded by
the European Union