Increased Renewable Hosting Capacity of a Real Low-Voltage Grid Based on Continuous Measurements: Results from an Actual PV Connection Request

Christine Schaeler; Klaus Strasser; Robert Damböck; Hans-Peter Christian Schwefel

doi:10.1007/978-3-030-86507-8_9

Increased Renewable Hosting Capacity of a Real Low-Voltage Grid Based on Continuous Measurements: Results from an Actual PV Connection Request

Christine Schaeler^*, Klaus Strasser, Robert Damböck, Hans-Peter Christian Schwefel

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Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

3 Citationer (Scopus)

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Abstract

The distributed generation and new load patterns caused by the energy transition put strong requirements on the distribution grids. The traditional worst-case planning approaches in the low-voltage grid will lead to excessive grid extensions. In this paper, through a digital twin of the low-voltage grid, the true status of the physical grid is used to detect grid bottlenecks and therefore allows to match grid investments to actual needs in the distribution grid. This paper presents preliminary results from a real case study for the novel planning approach which lead to an accurate picture of grid hosting capacity, which is a major step forward from previously used worst case assumptions.

Originalsprog	Engelsk
Titel	Dependable Computing - EDCC 2021 Workshops : DREAMS, DSOGRI, SERENE 2021, Munich, Germany, September 13, 2021, Proceedings
Redaktører	Rasmus Adler, Amel Bennaceur, Simon Burton, Amleto Di Salle, Nicola Nostro, Rasmus Løvenstein Olsen, Selma Saidi, Philipp Schleiss, Daniel Schneider, Hans-Peter Schwefel
Antal sider	9
Forlag	Springer
Publikationsdato	13 sep. 2021
Sider	90-98
ISBN (Trykt)	978-3-030-86506-1
ISBN (Elektronisk)	978-3-030-86507-8
DOI	https://doi.org/10.1007/978-3-030-86507-8_9
Status	Udgivet - 13 sep. 2021
Begivenhed	Dependable Computing - EDCC 2021 Workshops - München, Tyskland Varighed: 13 sep. 2021 → 13 sep. 2021

Konference

Konference	Dependable Computing - EDCC 2021 Workshops
Land/Område	Tyskland
By	München
Periode	13/09/2021 → 13/09/2021

Navn	Communications in Computer and Information Science
Vol/bind	1462
ISSN	1865-0929

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10.1007/978-3-030-86507-8_9

DSOGri2021_GridPlanning_submittedIndsendt manuskript, 394 KBLicens: Ikke-specificeret

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Net2DG: Leveraging Networked Data for the Digital Electricity Grid
Iov, F. (Projektdeltager), Olsen, R. L. (Projektdeltager), Stoustrup, J. (Projektdeltager), Bendtsen, J. D. (Projektdeltager), Schwefel, H.-P. (Projektdeltager), Shahid, K. (Projektdeltager), Pombo, D. V. (Projektdeltager) & Mardare, D. (Projektleder)
Horizon Europe
01/01/2018 → 30/06/2021
Projekter: Projekt › Forskning

Citationsformater

Schaeler, C., Strasser, K., Damböck, R., & Schwefel, H.-P. C. (2021). Increased Renewable Hosting Capacity of a Real Low-Voltage Grid Based on Continuous Measurements: Results from an Actual PV Connection Request. I R. Adler, A. Bennaceur, S. Burton, A. Di Salle, N. Nostro, R. L. Olsen, S. Saidi, P. Schleiss, D. Schneider, & H.-P. Schwefel (red.), Dependable Computing - EDCC 2021 Workshops: DREAMS, DSOGRI, SERENE 2021, Munich, Germany, September 13, 2021, Proceedings (s. 90-98). Springer. https://doi.org/10.1007/978-3-030-86507-8_9

Schaeler, Christine ; Strasser, Klaus ; Damböck, Robert et al. / Increased Renewable Hosting Capacity of a Real Low-Voltage Grid Based on Continuous Measurements : Results from an Actual PV Connection Request. Dependable Computing - EDCC 2021 Workshops: DREAMS, DSOGRI, SERENE 2021, Munich, Germany, September 13, 2021, Proceedings. red. / Rasmus Adler ; Amel Bennaceur ; Simon Burton ; Amleto Di Salle ; Nicola Nostro ; Rasmus Løvenstein Olsen ; Selma Saidi ; Philipp Schleiss ; Daniel Schneider ; Hans-Peter Schwefel. Springer, 2021. s. 90-98 (Communications in Computer and Information Science, Bind 1462).

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title = "Increased Renewable Hosting Capacity of a Real Low-Voltage Grid Based on Continuous Measurements: Results from an Actual PV Connection Request",

abstract = "The distributed generation and new load patterns caused by the energy transition put strong requirements on the distribution grids. The traditional worst-case planning approaches in the low-voltage grid will lead to excessive grid extensions. In this paper, through a digital twin of the low-voltage grid, the true status of the physical grid is used to detect grid bottlenecks and therefore allows to match grid investments to actual needs in the distribution grid. This paper presents preliminary results from a real case study for the novel planning approach which lead to an accurate picture of grid hosting capacity, which is a major step forward from previously used worst case assumptions.",

keywords = "electricity distribution grids, digital twin, planning, Hosting capacity, Grid measurements, Low-voltage grid",

author = "Christine Schaeler and Klaus Strasser and Robert Damb{\"o}ck and Schwefel, {Hans-Peter Christian}",

year = "2021",

month = sep,

day = "13",

doi = "10.1007/978-3-030-86507-8_9",

language = "English",

isbn = "978-3-030-86506-1",

series = "Communications in Computer and Information Science",

publisher = "Springer",

pages = "90--98",

editor = "Rasmus Adler and Amel Bennaceur and Simon Burton and {Di Salle}, Amleto and Nicola Nostro and Olsen, {Rasmus L{\o}venstein} and Selma Saidi and Philipp Schleiss and Daniel Schneider and Hans-Peter Schwefel",

booktitle = "Dependable Computing - EDCC 2021 Workshops",

address = "Germany",

note = "Dependable Computing - EDCC 2021 Workshops ; Conference date: 13-09-2021 Through 13-09-2021",

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Schaeler, C, Strasser, K, Damböck, R & Schwefel, H-PC 2021, Increased Renewable Hosting Capacity of a Real Low-Voltage Grid Based on Continuous Measurements: Results from an Actual PV Connection Request. i R Adler, A Bennaceur, S Burton, A Di Salle, N Nostro, RL Olsen, S Saidi, P Schleiss, D Schneider & H-P Schwefel (red), Dependable Computing - EDCC 2021 Workshops: DREAMS, DSOGRI, SERENE 2021, Munich, Germany, September 13, 2021, Proceedings. Springer, Communications in Computer and Information Science, bind 1462, s. 90-98, Dependable Computing - EDCC 2021 Workshops, München, Tyskland, 13/09/2021. https://doi.org/10.1007/978-3-030-86507-8_9

Increased Renewable Hosting Capacity of a Real Low-Voltage Grid Based on Continuous Measurements: Results from an Actual PV Connection Request. / Schaeler, Christine; Strasser, Klaus; Damböck, Robert et al.
Dependable Computing - EDCC 2021 Workshops: DREAMS, DSOGRI, SERENE 2021, Munich, Germany, September 13, 2021, Proceedings. red. / Rasmus Adler; Amel Bennaceur; Simon Burton; Amleto Di Salle; Nicola Nostro; Rasmus Løvenstein Olsen; Selma Saidi; Philipp Schleiss; Daniel Schneider; Hans-Peter Schwefel. Springer, 2021. s. 90-98 (Communications in Computer and Information Science, Bind 1462).

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

TY - GEN

T1 - Increased Renewable Hosting Capacity of a Real Low-Voltage Grid Based on Continuous Measurements

T2 - Dependable Computing - EDCC 2021 Workshops

AU - Schaeler, Christine

AU - Strasser, Klaus

AU - Damböck, Robert

AU - Schwefel, Hans-Peter Christian

PY - 2021/9/13

Y1 - 2021/9/13

N2 - The distributed generation and new load patterns caused by the energy transition put strong requirements on the distribution grids. The traditional worst-case planning approaches in the low-voltage grid will lead to excessive grid extensions. In this paper, through a digital twin of the low-voltage grid, the true status of the physical grid is used to detect grid bottlenecks and therefore allows to match grid investments to actual needs in the distribution grid. This paper presents preliminary results from a real case study for the novel planning approach which lead to an accurate picture of grid hosting capacity, which is a major step forward from previously used worst case assumptions.

AB - The distributed generation and new load patterns caused by the energy transition put strong requirements on the distribution grids. The traditional worst-case planning approaches in the low-voltage grid will lead to excessive grid extensions. In this paper, through a digital twin of the low-voltage grid, the true status of the physical grid is used to detect grid bottlenecks and therefore allows to match grid investments to actual needs in the distribution grid. This paper presents preliminary results from a real case study for the novel planning approach which lead to an accurate picture of grid hosting capacity, which is a major step forward from previously used worst case assumptions.

KW - electricity distribution grids

KW - digital twin

KW - planning

KW - Hosting capacity

KW - Grid measurements

KW - Low-voltage grid

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T3 - Communications in Computer and Information Science

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BT - Dependable Computing - EDCC 2021 Workshops

A2 - Adler, Rasmus

A2 - Bennaceur, Amel

A2 - Burton, Simon

A2 - Di Salle, Amleto

A2 - Nostro, Nicola

A2 - Olsen, Rasmus Løvenstein

A2 - Saidi, Selma

A2 - Schleiss, Philipp

A2 - Schneider, Daniel

A2 - Schwefel, Hans-Peter

PB - Springer

Y2 - 13 September 2021 through 13 September 2021

ER -

Schaeler C, Strasser K, Damböck R, Schwefel HPC. Increased Renewable Hosting Capacity of a Real Low-Voltage Grid Based on Continuous Measurements: Results from an Actual PV Connection Request. I Adler R, Bennaceur A, Burton S, Di Salle A, Nostro N, Olsen RL, Saidi S, Schleiss P, Schneider D, Schwefel HP, red., Dependable Computing - EDCC 2021 Workshops: DREAMS, DSOGRI, SERENE 2021, Munich, Germany, September 13, 2021, Proceedings. Springer. 2021. s. 90-98. (Communications in Computer and Information Science, Bind 1462). doi: 10.1007/978-3-030-86507-8_9

Increased Renewable Hosting Capacity of a Real Low-Voltage Grid Based on Continuous Measurements: Results from an Actual PV Connection Request

Abstract

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AUB Link

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Fingeraftryk

Projekter

Net2DG: Leveraging Networked Data for the Digital Electricity Grid

Citationsformater