Flexibility in Sustainable Electricity Systems: Multivector and Multisector Nexus Perspectives

Eduardo Alejandro Martinez Cesena; Nicholas Good; Mathaios Panteli; Joseph Mutale; Pierluigi Mancarella

doi:10.1109/MELE.2019.2908890

Flexibility in Sustainable Electricity Systems: Multivector and Multisector Nexus Perspectives

Eduardo Alejandro Martinez Cesena, Nicholas Good, Mathaios Panteli, Joseph Mutale, Pierluigi Mancarella

Research output: Contribution to journal › Article › peer-review

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Abstract

As environmental concerns increase, researchers, policy makers, and the public in general are becoming more interested in options to make energy more sustainable while at the same time ensuring that energy systems are affordable, reliable, and resilient. This dynamic is bringing about challenges across the world, as established energy systems (such as those in cities) must be enhanced to integrate large volumes of renewable energy sources (RES), while new or evolving systems (for instance, in developing economies) must be planned to manage the increasingly extreme conditions associated with climate change. In these contexts, the flexibility to intelligently use and invest in resources that go beyond the power system (e.g., other energy vectors such as heat, gas, or water dams) can be extremely valuable from the perspective of sustainable development.

Original language	English
Pages (from-to)	12-21
Number of pages	9
Journal	IEEE Electrification Magazine
Volume	7
Issue number	2
Early online date	5 Jun 2019
DOIs	https://doi.org/10.1109/MELE.2019.2908890
Publication status	Published - 2019

UN SDGs

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

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10.1109/MELE.2019.2908890

A_Manuscript_Final (1)Accepted author manuscript, 2.52 MB

GCRF: DAMS 2.0: Design and assessment of resilient and sustainable interventions in water-energy-food-environment Mega-Systems
Hulme, D. (PI), Anderson, K. (CoI), Bottacin Busolin, A. (CoI), Dimova, R. (CoI), Foster, T. (CoI), Harou, J. (CoI), Imai, K. (CoI), Larkin, A. (CoI), Lavers, T. (CoI), Mancarella, P. (CoI), Mutale, J. (CoI), Panteli, M. (CoI), Sen, K. (CoI) & Whittington, D. (CoI)
1/10/17 → 31/12/21
Project: Research

Orange Data for Development Challenge in Senegal - Energy Prize and First Prize
Martinez-Cesena, E. (Recipient) & Mancarella, P. (Recipient), 10 Apr 2015
Prize: Prize (including medals and awards)

1 Participating in a conference, workshop, exhibition, performance, inquiry, course etc

IEEE Powertech 2019
Panteli, M. (Co-Chair), Martinez-Cesena, E. (Co-Chair), Moreno, R. (Co-Chair) & Mancarella, P. (Co-Chair)
23 Jun 2019
Activity: Participating in or organising event(s) › Participating in a conference, workshop, exhibition, performance, inquiry, course etc › Research

Cite this

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title = "Flexibility in Sustainable Electricity Systems: Multivector and Multisector Nexus Perspectives",

abstract = "As environmental concerns increase, researchers, policy makers, and the public in general are becoming more interested in options to make energy more sustainable while at the same time ensuring that energy systems are affordable, reliable, and resilient. This dynamic is bringing about challenges across the world, as established energy systems (such as those in cities) must be enhanced to integrate large volumes of renewable energy sources (RES), while new or evolving systems (for instance, in developing economies) must be planned to manage the increasingly extreme conditions associated with climate change. In these contexts, the flexibility to intelligently use and invest in resources that go beyond the power system (e.g., other energy vectors such as heat, gas, or water dams) can be extremely valuable from the perspective of sustainable development.",

author = "{Martinez Cesena}, {Eduardo Alejandro} and Nicholas Good and Mathaios Panteli and Joseph Mutale and Pierluigi Mancarella",

year = "2019",

doi = "10.1109/MELE.2019.2908890",

language = "English",

volume = "7",

pages = "12--21",

journal = "IEEE Electrification Magazine",

publisher = "IEEE",

number = "2",

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TY - JOUR

T1 - Flexibility in Sustainable Electricity Systems: Multivector and Multisector Nexus Perspectives

AU - Martinez Cesena, Eduardo Alejandro

AU - Good, Nicholas

AU - Panteli, Mathaios

AU - Mutale, Joseph

AU - Mancarella, Pierluigi

PY - 2019

Y1 - 2019

N2 - As environmental concerns increase, researchers, policy makers, and the public in general are becoming more interested in options to make energy more sustainable while at the same time ensuring that energy systems are affordable, reliable, and resilient. This dynamic is bringing about challenges across the world, as established energy systems (such as those in cities) must be enhanced to integrate large volumes of renewable energy sources (RES), while new or evolving systems (for instance, in developing economies) must be planned to manage the increasingly extreme conditions associated with climate change. In these contexts, the flexibility to intelligently use and invest in resources that go beyond the power system (e.g., other energy vectors such as heat, gas, or water dams) can be extremely valuable from the perspective of sustainable development.

AB - As environmental concerns increase, researchers, policy makers, and the public in general are becoming more interested in options to make energy more sustainable while at the same time ensuring that energy systems are affordable, reliable, and resilient. This dynamic is bringing about challenges across the world, as established energy systems (such as those in cities) must be enhanced to integrate large volumes of renewable energy sources (RES), while new or evolving systems (for instance, in developing economies) must be planned to manage the increasingly extreme conditions associated with climate change. In these contexts, the flexibility to intelligently use and invest in resources that go beyond the power system (e.g., other energy vectors such as heat, gas, or water dams) can be extremely valuable from the perspective of sustainable development.

U2 - 10.1109/MELE.2019.2908890

DO - 10.1109/MELE.2019.2908890

M3 - Article

VL - 7

SP - 12

EP - 21

JO - IEEE Electrification Magazine

JF - IEEE Electrification Magazine

IS - 2

ER -

Flexibility in Sustainable Electricity Systems: Multivector and Multisector Nexus Perspectives

Abstract

UN SDGs

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Projects

GCRF: DAMS 2.0: Design and assessment of resilient and sustainable interventions in water-energy-food-environment Mega-Systems

Prizes

Orange Data for Development Challenge in Senegal - Energy Prize and First Prize

Activities

IEEE Powertech 2019

Cite this