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A Formal Holon Model for Operating Future Energy Grids During Blackouts

Valipour, Siavash ; Volk, Florian ; Grube, Tim ; Böck, Leon ; Mühlhäuser, Max (2016)
A Formal Holon Model for Operating Future Energy Grids During Blackouts.
Rome, Italy
doi: 10.5220/0005768801460153
Conference or Workshop Item, Bibliographie

Abstract

Modern energy grids introduce local energy producers into city networks. Whenever a city network is disconnected from the distribution grid, a blackout occurs and local producers are disabled. Micro grids circumvent blackouts by leveraging these local producers to power a fixed subset of consumers. In this paper, we evolve micro grids to Holons, which overcome the need for fixed subsets and power as much of the city network as possible. We contribute a formal model of Holons and investigate the impact of the Holon concept in a simulation with 10,000 randomly generated city networks. These city networks are based on parameters obtained from a real-world test site in a medium-sized German city. Our results show that the Holon approach can supply an average fraction of 22.08% of any city network, even when fixed micro grids would fail to power the city network as a whole.

Item Type: Conference or Workshop Item
Erschienen: 2016
Creators: Valipour, Siavash ; Volk, Florian ; Grube, Tim ; Böck, Leon ; Mühlhäuser, Max
Type of entry: Bibliographie
Title: A Formal Holon Model for Operating Future Energy Grids During Blackouts
Language: German
Date: April 2016
Place of Publication: Rome, Italy
Publisher: IEEE
Book Title: 5th International Conference on Smart Cities and Green ICT Systems (SMARTGREENS)
Series Volume: 1
Event Location: Rome, Italy
DOI: 10.5220/0005768801460153
URL / URN: https://ieeexplore.ieee.org/abstract/document/7951346
Abstract:

Modern energy grids introduce local energy producers into city networks. Whenever a city network is disconnected from the distribution grid, a blackout occurs and local producers are disabled. Micro grids circumvent blackouts by leveraging these local producers to power a fixed subset of consumers. In this paper, we evolve micro grids to Holons, which overcome the need for fixed subsets and power as much of the city network as possible. We contribute a formal model of Holons and investigate the impact of the Holon concept in a simulation with 10,000 randomly generated city networks. These city networks are based on parameters obtained from a real-world test site in a medium-sized German city. Our results show that the Holon approach can supply an average fraction of 22.08% of any city network, even when fixed micro grids would fail to power the city network as a whole.

Uncontrolled Keywords: - SST - Area Smart Security and Trust;- SST: CASED:
Identification Number: TUD-CS-2016-0072
Divisions: 20 Department of Computer Science
20 Department of Computer Science > Telecooperation
LOEWE
LOEWE > LOEWE-Zentren
LOEWE > LOEWE-Zentren > CASED – Center for Advanced Security Research Darmstadt
Date Deposited: 31 Dec 2016 12:59
Last Modified: 14 Jun 2021 06:14
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