Aggregation model for curtailable generation and sheddable loads

Håkon Marthinsen, Milana Plecas, Andrei Z. Morch, Ivana Kockar, Mario Džamarija

Research output: Contribution to journalConference Contribution

Abstract

This paper shows modelling developed during the first year of the SmartNet project. In particular, it presents a mathematical model for aggregation of curtailable generation and sheddable loads. The model determines the quantity and the cost of the flexibility provided by the flexible resources based on their physical and dynamic behaviours. The model also proposes a bidding strategy in order
to translate the aggregated behaviour into market bids.

Fingerprint

Agglomeration
Mathematical models
Costs

Keywords

  • aggregation
  • curtailable generation
  • sheddable loads
  • renewable energy sources
  • power supply
  • flexibility intervals
  • costs

Cite this

Marthinsen, Håkon ; Plecas, Milana ; Morch, Andrei Z. ; Kockar, Ivana ; Džamarija, Mario. / Aggregation model for curtailable generation and sheddable loads. In: CIRED Open Access Proceedings Journal. 2017 ; Vol. 2017, No. 1. pp. 1562-1566.
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Aggregation model for curtailable generation and sheddable loads. / Marthinsen, Håkon; Plecas, Milana; Morch, Andrei Z.; Kockar, Ivana; Džamarija, Mario.

In: CIRED Open Access Proceedings Journal, Vol. 2017, No. 1, 31.10.2017, p. 1562-1566.

Research output: Contribution to journalConference Contribution

TY - JOUR

T1 - Aggregation model for curtailable generation and sheddable loads

AU - Marthinsen, Håkon

AU - Plecas, Milana

AU - Morch, Andrei Z.

AU - Kockar, Ivana

AU - Džamarija, Mario

N1 - This paper is a postprint of a paper submitted to and accepted for publication in 24th International Conference & Exhibition on Electricity Distribution and is subject to Institution of Engineering and Technology Copyright. The copy of record will be available at the IET Digital Library.

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N2 - This paper shows modelling developed during the first year of the SmartNet project. In particular, it presents a mathematical model for aggregation of curtailable generation and sheddable loads. The model determines the quantity and the cost of the flexibility provided by the flexible resources based on their physical and dynamic behaviours. The model also proposes a bidding strategy in order to translate the aggregated behaviour into market bids.

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KW - curtailable generation

KW - sheddable loads

KW - renewable energy sources

KW - power supply

KW - flexibility intervals

KW - costs

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