RESILIENCE ASSESSMENT OF MICROGRIDS TRANSITIONING TO MULTI-MICROGRIDS IN RURAL AREAS

Mohd Khairi B. Mohd Zambri; Khaldon Ahmed Qaid; Chin Kim Gan; Mathaios Panteli; Eduardo A. Martínez Ceseña

RESILIENCE ASSESSMENT OF MICROGRIDS TRANSITIONING TO MULTI-MICROGRIDS IN RURAL AREAS

Mohd Khairi B. Mohd Zambri^*, Khaldon Ahmed Qaid, Chin Kim Gan, Mathaios Panteli, Eduardo A. Martínez Ceseña

^*Corresponding author for this work

EEE - Academic & Research

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

Abstract

Electrification is a priority for many countries, such as those seeking to achieve the United Nations Sustainable Development Goal 7, which focuses on supplying affordable, reliable, and sustainable energy for all. The use of Renewable Energy Sources (RES) to design off-grid Microgrids (MGs) in rural areas significantly contributes toward achieving this goal, especially as the MGs are eventually interconnected to form more extensive and reliable multi-MGs. However, due to their remote locations (e.g., resulting in longer time before support can reach the areas), MGs are particularly susceptible to weather shocks (e.g., Windstorms), and even if their transition to multi-MGs makes them more reliable, it is unclear if their resilience will also improve. To tackle this research question, this paper proposes an MG resilience assessment methodology which brings together (i) linear programming optimisation of energy resources to capture the use of RES with (ii) Sequential Monte Carlo simulations (SMCS) to capture the stochastic impacts of Windstorms on different MGs and multi-MGs configurations. The results, based on studies formulated with real data from the Sarawak area in Malaysia, show that even though the resilience of MGs can be improved by interconnecting them, the improvements can be limited if the interconnectors are prone to being impacted by extreme shocks.

Original language	English
Title of host publication	IET Conference Proceedings
Publisher	Institution of Engineering and Technology
Pages	249-254
Number of pages	6
Volume	2022
Edition	25
ISBN (Electronic)	9781839537042, 9781839537059, 9781839537189, 9781839537196, 9781839537424, 9781839537615, 9781839537769, 9781839537769, 9781839537776, 9781839537813, 9781839537820, 9781839537837, 9781839537868, 9781839537882, 9781839537899, 9781839537998, 9781839538063, 9781839538179, 9781839538186, 9781839538322, 9781839538391, 9781839538445, 9781839538476, 9781839538513, 9781839538544
Publication status	Published - 2022
Event	13th Mediterranean Conference on Power Generation, Transmission, Distribution and Energy Conversion, MEDPOWER 2022 - Valletta, Virtual, Malta Duration: 7 Nov 2022 → 9 Nov 2022

Conference

Conference	13th Mediterranean Conference on Power Generation, Transmission, Distribution and Energy Conversion, MEDPOWER 2022
Country/Territory	Malta
City	Valletta, Virtual
Period	7/11/22 → 9/11/22

Keywords

MICROGRID
RESILIENCE
RURAL ELECTRIFICATION

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

@inproceedings{fe6e46d112af48d5b9aaf3b605113d7e,

title = "RESILIENCE ASSESSMENT OF MICROGRIDS TRANSITIONING TO MULTI-MICROGRIDS IN RURAL AREAS",

abstract = "Electrification is a priority for many countries, such as those seeking to achieve the United Nations Sustainable Development Goal 7, which focuses on supplying affordable, reliable, and sustainable energy for all. The use of Renewable Energy Sources (RES) to design off-grid Microgrids (MGs) in rural areas significantly contributes toward achieving this goal, especially as the MGs are eventually interconnected to form more extensive and reliable multi-MGs. However, due to their remote locations (e.g., resulting in longer time before support can reach the areas), MGs are particularly susceptible to weather shocks (e.g., Windstorms), and even if their transition to multi-MGs makes them more reliable, it is unclear if their resilience will also improve. To tackle this research question, this paper proposes an MG resilience assessment methodology which brings together (i) linear programming optimisation of energy resources to capture the use of RES with (ii) Sequential Monte Carlo simulations (SMCS) to capture the stochastic impacts of Windstorms on different MGs and multi-MGs configurations. The results, based on studies formulated with real data from the Sarawak area in Malaysia, show that even though the resilience of MGs can be improved by interconnecting them, the improvements can be limited if the interconnectors are prone to being impacted by extreme shocks.",

keywords = "MICROGRID, RESILIENCE, RURAL ELECTRIFICATION",

author = "{Mohd Zambri}, {Mohd Khairi B.} and Qaid, {Khaldon Ahmed} and Gan, {Chin Kim} and Mathaios Panteli and {Mart{\'i}nez Cese{\~n}a}, {Eduardo A.}",

note = "Publisher Copyright: {\textcopyright} 2022 IET Conference Proceedings. All rights reserved.; 13th Mediterranean Conference on Power Generation, Transmission, Distribution and Energy Conversion, MEDPOWER 2022 ; Conference date: 07-11-2022 Through 09-11-2022",

year = "2022",

language = "English",

volume = "2022",

pages = "249--254",

booktitle = "IET Conference Proceedings",

publisher = "Institution of Engineering and Technology ",

address = "United Kingdom",

edition = "25",

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Mohd Zambri, MKB, Qaid, KA, Gan, CK, Panteli, M & Martínez Ceseña, EA 2022, RESILIENCE ASSESSMENT OF MICROGRIDS TRANSITIONING TO MULTI-MICROGRIDS IN RURAL AREAS. in IET Conference Proceedings. 25 edn, vol. 2022, Institution of Engineering and Technology , pp. 249-254, 13th Mediterranean Conference on Power Generation, Transmission, Distribution and Energy Conversion, MEDPOWER 2022, Valletta, Virtual, Malta, 7/11/22.

TY - GEN

T1 - RESILIENCE ASSESSMENT OF MICROGRIDS TRANSITIONING TO MULTI-MICROGRIDS IN RURAL AREAS

AU - Mohd Zambri, Mohd Khairi B.

AU - Qaid, Khaldon Ahmed

AU - Gan, Chin Kim

AU - Panteli, Mathaios

AU - Martínez Ceseña, Eduardo A.

PY - 2022

Y1 - 2022

N2 - Electrification is a priority for many countries, such as those seeking to achieve the United Nations Sustainable Development Goal 7, which focuses on supplying affordable, reliable, and sustainable energy for all. The use of Renewable Energy Sources (RES) to design off-grid Microgrids (MGs) in rural areas significantly contributes toward achieving this goal, especially as the MGs are eventually interconnected to form more extensive and reliable multi-MGs. However, due to their remote locations (e.g., resulting in longer time before support can reach the areas), MGs are particularly susceptible to weather shocks (e.g., Windstorms), and even if their transition to multi-MGs makes them more reliable, it is unclear if their resilience will also improve. To tackle this research question, this paper proposes an MG resilience assessment methodology which brings together (i) linear programming optimisation of energy resources to capture the use of RES with (ii) Sequential Monte Carlo simulations (SMCS) to capture the stochastic impacts of Windstorms on different MGs and multi-MGs configurations. The results, based on studies formulated with real data from the Sarawak area in Malaysia, show that even though the resilience of MGs can be improved by interconnecting them, the improvements can be limited if the interconnectors are prone to being impacted by extreme shocks.

AB - Electrification is a priority for many countries, such as those seeking to achieve the United Nations Sustainable Development Goal 7, which focuses on supplying affordable, reliable, and sustainable energy for all. The use of Renewable Energy Sources (RES) to design off-grid Microgrids (MGs) in rural areas significantly contributes toward achieving this goal, especially as the MGs are eventually interconnected to form more extensive and reliable multi-MGs. However, due to their remote locations (e.g., resulting in longer time before support can reach the areas), MGs are particularly susceptible to weather shocks (e.g., Windstorms), and even if their transition to multi-MGs makes them more reliable, it is unclear if their resilience will also improve. To tackle this research question, this paper proposes an MG resilience assessment methodology which brings together (i) linear programming optimisation of energy resources to capture the use of RES with (ii) Sequential Monte Carlo simulations (SMCS) to capture the stochastic impacts of Windstorms on different MGs and multi-MGs configurations. The results, based on studies formulated with real data from the Sarawak area in Malaysia, show that even though the resilience of MGs can be improved by interconnecting them, the improvements can be limited if the interconnectors are prone to being impacted by extreme shocks.

KW - MICROGRID

KW - RESILIENCE

KW - RURAL ELECTRIFICATION

UR - http://www.scopus.com/inward/record.url?scp=85174648114&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:85174648114

VL - 2022

SP - 249

EP - 254

BT - IET Conference Proceedings

PB - Institution of Engineering and Technology

T2 - 13th Mediterranean Conference on Power Generation, Transmission, Distribution and Energy Conversion, MEDPOWER 2022

Y2 - 7 November 2022 through 9 November 2022

ER -

RESILIENCE ASSESSMENT OF MICROGRIDS TRANSITIONING TO MULTI-MICROGRIDS IN RURAL AREAS

Abstract

Conference

Keywords

UN SDGs

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