TotalControl SIGNED
Advanced integrated supervisory and wind turbine control for optimal operation of large Wind Power Plants
Total Cost €
0EC-Contrib. €
0Partnership
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Explore the words cloud of the TotalControl project. It provides you a very rough idea of what is the project "TotalControl" about.
Project "TotalControl" data sheet
The following table provides information about the project.
| Coordinator |
DANMARKS TEKNISKE UNIVERSITET
Organization address contact info |
| Coordinator Country | Denmark [DK] |
| Project website | http://www.totalcontrolproject.eu/ |
| Total cost | 4˙876˙482 € |
| EC max contribution | 4˙876˙482 € (100%) |
| Programme |
1. H2020-EU.3.3.2. (Low-cost, low-carbon energy supply) |
| Code Call | H2020-LCE-2016-RES-CCS-RIA |
| Funding Scheme | RIA |
| Starting year | 2018 |
| Duration (year-month-day) | from 2018-01-01 to 2021-12-31 |
Partnership
Take a look of project's partnership.
| # | ||||
|---|---|---|---|---|
| 1 | DANMARKS TEKNISKE UNIVERSITET | DK (KGS LYNGBY) | coordinator | 1˙637˙500.00 |
| 2 | SINTEF ENERGI AS | NO (TRONDHEIM) | participant | 1˙068˙156.00 |
| 3 | KATHOLIEKE UNIVERSITEIT LEUVEN | BE (LEUVEN) | participant | 626˙875.00 |
| 4 | GARRAD HASSAN & PARTNERS LTD | UK (BRISTOL) | participant | 599˙250.00 |
| 5 | OFFSHORE RENEWABLE ENERGY CATAPULT | UK (BLYTH NORTHUMBERLAND) | participant | 567˙201.00 |
| 6 | VATTENFALL AB | SE (STOCKHOLM) | participant | 202˙500.00 |
| 7 | SIEMENS GAMESA RENEWABLE ENERGY AS | DK (BRANDE) | participant | 95˙000.00 |
| 8 | EQUINOR ASA | NO (STAVANGER) | participant | 80˙000.00 |
Map
Project objective
Cost of energy (COE) is the most important single factor in deployment of renewables in the energy system. Reduction of COE is, among other things, directly related to operational control of Wind Power Plants (WPP) as a whole and the individual wind turbines (WT) within them. In the Total Control project the COE reduction will be pursued by developing and validating advanced integrated WPP/WT control schemes, where all essential interactions between the WPP WT’s are accounted for including both production and load aspects. Optimal WPP control is traditionally formulated as a one-parameter optimization problem focusing on the WPP production only. However, ultimately the optimal WPP performance should result from a multi objective optimization problem, where the optimal economic performance of a WPP is pursued over the WPP life time, conditioned on external grid demands. This is what Total Control is about. The suggested integrated WPP/WT control approach seeks the optimal economical WPP revenue – i.e. the optimal economic balance between WPP power production and WPP operational costs. This is done by developing hierarchically coupled WPP and WT control schemes conditioned on a set of superior grid operator demands. In the WPP control design phase information is only fed from the WPP controller to the individual WT controllers, whereas in on-line operational control available WT and WPP flow field information will be assimilated into the WPP control for optimal system performance. Furthermore, the WPP controller will also make use of current market information (e.g. energy price, demand for ancillary services etc.) as well as information about the state of individual turbines (e.g. current operational state, maintenance requirements and component lifetime consumption) to allow COE objectives to be optimised dynamically.
Deliverables
| Second project video | Other | 2020-03-24 10:48:08 |
| Tower load reduction with LiDAR-assisted control | Documents, reports | 2020-03-24 10:46:52 |
| Model predictive turbine control | Documents, reports | 2020-03-24 10:22:52 |
| Upgrade of Fuga | Other | 2020-03-24 10:47:53 |
| SCADA-based conditions monitoring and fatigue estimation | Documents, reports | 2020-03-24 10:47:22 |
| Optimization of reactive power dispatch | Other | 2020-03-24 10:47:29 |
| Controller adaptation for varying conditions and ancillary services | Documents, reports | 2020-03-24 10:46:51 |
| Probabilistic framework to quantify the reliability levels of wind turbine structures under enhanced control methods | Documents, reports | 2020-03-24 10:47:44 |
| Project master plan including full transparency of resources, schedule and cost/performance | Documents, reports | 2019-10-09 11:30:06 |
| Setup of the website | Demonstrators, pilots, prototypes | 2019-10-09 11:30:05 |
| Reference Wind Power Plant | Documents, reports | 2019-10-09 11:30:05 |
| Dissemination and communication plan and annual reports on the dissemination and communication activities, 1 | Other | 2019-09-02 12:14:09 |
| Flow database for reference wind farm | Other | 2019-09-02 12:14:09 |
| Machine learning approaches to wind farm control | Documents, reports | 2019-09-02 12:14:09 |
| Simple dynamic wind farm model | Other | 2019-09-02 12:14:09 |
| Electro-mechanical model of reference wind power plant | Other | 2019-09-02 12:14:09 |
| Cost model for fatigue degradation and O&M | Documents, reports | 2019-09-02 12:14:09 |
| First project video | Other | 2019-09-02 12:14:09 |
| Upgrade of DWM | Other | 2019-09-02 12:14:09 |
Take a look to the deliverables list in detail: detailed list of TotalControl deliverables.
Publications
| year | authors and title | journal | last update |
|---|---|---|---|
| 2018 |
Ervin Bossanyi Combining induction control and wake steering for wind farm energy and fatigue loads optimisation published pages: 32011, ISSN: 1742-6588, DOI: 10.1088/1742-6596/1037/3/032011 |
Journal of Physics: Conference Series 1037 | 2019-10-08 |
| 2018 |
Wim Munters, Johan Meyers Optimal dynamic induction and yaw control of wind farms: effects of turbine spacing and layout published pages: 32015, ISSN: 1742-6588, DOI: 10.1088/1742-6596/1037/3/032015 |
Journal of Physics: Conference Series 1037 | 2019-10-08 |
| 2018 |
G.C. Larsen, S. Ott, T.J. Larsen, K.S. Hansen, A. Chougule Improved modelling of fatigue loads in wind farms under non-neutral ABL stability conditions published pages: 72013, ISSN: 1742-6588, DOI: 10.1088/1742-6596/1037/7/072013 |
Journal of Physics: Conference Series 1037 | 2019-10-08 |
| 2019 |
L. Lu and N. A. Cutululis Virtual Synchronous Machine Control for Wind Turbines: A Revies published pages: , ISSN: , DOI: |
2019-09-02 | |
| 2019 |
Giebel, G; G. Larsen; A. Natarajan; J. Meyers; E. Bossanyi and K. Merz TotalControl - Advanced integrated control of large-scale wind power plants and wind turbines published pages: , ISSN: , DOI: |
WindEurope 2019 Conference Proceedings | 2019-09-02 |
| 2018 |
Liang Lu Enhanced Frequency Control Capability from Wind Turbine Generators and Wind Power Plants published pages: , ISSN: , DOI: |
2019-09-02 | |
| 2018 |
Munters, W. and J. Meyers A data-driven flow model for wind-farm control based on Koopman mode decomposition of large-eddy simulations published pages: , ISSN: , DOI: |
2019-09-02 | |
| 2018 |
Giebel G.; G. Larsen; A. Natarajan; J. Meyers; E. Bossanyi and K. Merz TotalControl - Advanced integrated control of large-scale wind power plants and wind turbines published pages: , ISSN: , DOI: |
WindEurope 2018 Conference Proceedings | 2019-09-02 |
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