Activities per year
Project Details
Description
The overall objective of this project is to contribute to the integration of large share of renewable energy in the Danish power system and thus to enable a resilient power system in the future by developing technical solutions for the provision of ancillary services by renewable power plants. RePlan focuses on WP and PV plants since they are expected to jointly produce the lion’s share of renewable energy generation capacity needed to reach the Danish government 2050 targets.
With respect to ReGen plants, investigation of ancillary services, coordinated control, fast com-munication and forecast of available power are crucial step stones on the route toward a future resilient power system. The ability to provide ancillary services from ReGen plants depends on the communication and the forecast of availability power. In this respect, RePlan develops con-trollers for the delivery of ancillary services, incorporating communication properties in the con-trol loops of the ReGen plant model and using state-of-the-art methods for simulation of renewa-ble generation patterns and wind power forecast methods. Based on both simulation models and verification in laboratory facilities, this project intends to address this challenge: What is the impact of communication and power availability forecast error in providing coordination and ancillary services from ReGen plants?
The novelty of RePlan consists in the investigation and verification of: 1) the ancillary services provision from WP and PV plants and 2) the suitability to coordinate their services provision to power system operator. In this respect, RePlan strives to identify and analyze the strengths and limitations of WP and PV plants, anticipating new challenges and exploring some of the more complex issues and uncertainties related to the coordination of their ancillary services. The services with great concerns in the future include: voltage, frequency and rotor angular stability support.
With respect to ReGen plants, investigation of ancillary services, coordinated control, fast com-munication and forecast of available power are crucial step stones on the route toward a future resilient power system. The ability to provide ancillary services from ReGen plants depends on the communication and the forecast of availability power. In this respect, RePlan develops con-trollers for the delivery of ancillary services, incorporating communication properties in the con-trol loops of the ReGen plant model and using state-of-the-art methods for simulation of renewa-ble generation patterns and wind power forecast methods. Based on both simulation models and verification in laboratory facilities, this project intends to address this challenge: What is the impact of communication and power availability forecast error in providing coordination and ancillary services from ReGen plants?
The novelty of RePlan consists in the investigation and verification of: 1) the ancillary services provision from WP and PV plants and 2) the suitability to coordinate their services provision to power system operator. In this respect, RePlan strives to identify and analyze the strengths and limitations of WP and PV plants, anticipating new challenges and exploring some of the more complex issues and uncertainties related to the coordination of their ancillary services. The services with great concerns in the future include: voltage, frequency and rotor angular stability support.
Short title | RePlan |
---|---|
Acronym | RePlan |
Status | Finished |
Effective start/end date | 01/03/2015 → 28/02/2018 |
Collaborative partners
- Technical University of Denmark
- Vestas
- AAU-ES, Wireless Communication Networks Section
Funding
- Energinet SOV: DKK5,990,805.00
Fingerprint
Explore the research topics touched on by this project. These labels are generated based on the underlying awards/grants. Together they form a unique fingerprint.
Activities
-
Smart Energy Systems Laboratory-A cyber physical system for testing smart grid solutions
Florin Iov (Lecturer)
11 Apr 2019Activity: Talks and presentations › Conference presentations
-
Model based Design for Smart Grid Applications using a Real-Time Co-Simulation Framework
Florin Iov (Organizer), Rasmus Løvenstein Olsen (Participant), Lennart Petersen (Participant), Kamal Shahid (Participant) & Mohammed Seifu Kemal (Participant)
16 Mar 2017Activity: Attending an event › Organisation or participation in workshops, courses, seminars, exhibitions or similar