Ancillary Services Offered by Distributed Renewable Energy Sources at the Distribution Grid Level: An Attempt at Proper Definition and Quantification

The gradual displacement of synchronous generators driven by conventional power plants, due to the increasing penetration of distributed renewable energy sources (DRES) in distribution grids, is creating a shortage of crucial ancillary services (AS) which are vital for the frequency and voltage stab...

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Bibliographic Details
Published in:Applied sciences 2020-10, Vol.10 (20), p.7106
Main Authors: Demoulias, Charis S., Malamaki, Kyriaki-Nefeli D., Gkavanoudis, Spyros, Mauricio, Juan Manuel, Kryonidis, Georgios C., Oureilidis, Konstantinos O., Kontis, Eleftherios O., Martinez Ramos, Jose Luis
Format: Article
Language:English
Subjects:
active harmonic filtering
active power smoothing
Alternative energy sources
Ancillary services
Converters
Costs
distributed renewable energy sources
Distribution
distribution grids
Electric power transmission
Electricity distribution
Energy resources
Energy sources
Energy storage
Frequency dependence
Frequency response
Frequency stability
inertial response
Mitigation
Power plants
Reactive power
Redundancy (Engineering)
Renewable energy sources
Safety and security measures
Services
Systems stability
Voltage
Voltage stability
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Summary:The gradual displacement of synchronous generators driven by conventional power plants, due to the increasing penetration of distributed renewable energy sources (DRES) in distribution grids, is creating a shortage of crucial ancillary services (AS) which are vital for the frequency and voltage stability of the grid. These AS, and some new ones, could now be offered by the DRES, particularly those that are converter interfaced, in a coordinated way in order to preserve the grid stability and resilience. Although recent standards and grid codes specify that the DRES exhibit some system support functions, there are no specifications on how to measure and quantify (M & Q) them both at DRES level and in aggregated form. The M & Q of AS is crucial, since it would allow the AS to be treated as tradable AS in the current and future AS markets. This paper attempts to define a number of AS that can be offered by converter-interfaced DRES and suggests methods for their M & Q. The new AS addressed are: (1) inertial response; (2) primary frequency response; (3) active power smoothing (ramp-rate limitation); (4) exchange of reactive power for voltage regulation; (5) fault-ride-through (FRT) and contribution to fault clearing; (6) voltage harmonic mitigation. Additionally, a rough estimation of the additional investment and operational cost, as well as the financial benefits associated with each AS is provided in order to form the basis for the development of business models around each AS in the near future.
ISSN:2076-3417
2076-3417
DOI:10.3390/app10207106