Sustainable Energy Systems Planning, Integration and Management

Amjad Anvari-Moghaddam; Behnam  Mohammadi-Ivatloo; Somayeh  Asadi; Kim Guldstrand Larsen; Mohammad  Shahidehpour; Eugen  Rusu; Chia-Nan Wang; Girma  Gebresenbet; Daniel  Garcia; Sonja  Germer; Tongxiang  Liu; Peicong  Luo; Jose A.  Ruz-Hernandez; Hengjing  He; Changjiang  Wang; Shuhan Wang; José A.  Orosa; Yuhuan  Liu; Cong  Chen

doi:10.3390/books978-3-03928-047-6

Sustainable Energy Systems Planning, Integration and Management

Amjad Anvari-Moghaddam (Editor), Behnam Mohammadi-Ivatloo (Editor), Somayeh Asadi (Editor), Kim Guldstrand Larsen (Editor), Mohammad Shahidehpour (Editor), Eugen Rusu, Chia-Nan Wang, Girma Gebresenbet, Daniel Garcia, Sonja Germer, Tongxiang Liu, Peicong Luo, Jose A. Ruz-Hernandez, Hengjing He, Changjiang Wang , Shuhan Wang, José A. Orosa, Yuhuan Liu, Cong Chen

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Abstract

Energy systems worldwide are undergoing a major transformation as a consequence of the transition towards the widespread use of clean and sustainable energy sources. The electric power system in a sustainable future will augment the centralized and large-grid-dependent systems of today
with distributed, smaller-scale energy generation systems that increasingly adopt renewable energy sources (e.g., solar and wind) and rely on cyber technologies to ensure resiliency and efficient resource sharing. Basically, this involves massive changes in technical and organizational levels together
with tremendous technological upgrades in different sectors ranging from the energy generation and transmission systems down to the distribution systems. These actions constitute a huge science and engineering challenges and demands for expert knowledge in the field to create solutions for
a sustainable energy system (both at the energy supply and demand sides) that is economically, environmentally, and socially viable while meeting high security requirements. On energy consumers’ side, useful and efficient energy services such as light, heating and cooling, cooking, communication, power, and motion are needed. These services are offered by specific equipment/devices, which use
energy blocks either efficiently or inefficiently. Producing energy with high environmental, societal, or health risks is not a cheap way to meet such energy demand, but packages of efficient equipment and energy at least societal costs, which includes external costs, should be the ultimate objective to satisfy the needs of customers. At the supply side, there exists a bunch of opportunities for renewable energy technologies complemented with energy efficiency measures not only to provide local benefits, but also to contribute to sustainable development, which is framed in a three-pillar model: Economy, Ecology, and Society. Thus, the relationship between the use of renewables in energy mix and the sustainable developments goals (SDGs) can be viewed as a set of objectives and constraints that involve both global and local/regional considerations.

Original language	English

Publisher	MDPI AG
Number of pages	286
ISBN (Print)	978-3-03928-046-9
ISBN (Electronic)	978-3-03928-047-6
DOIs	https://doi.org/10.3390/books978-3-03928-047-6
Publication status	Published - Jan 2020

Keywords

Sustainable Energy
Integrated Energy Systems
Energy Management
Renewable Energy
Energy Planing

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Open Access versionFinal published version, 37.1 MBLicence: CC BY-NC-ND 4.0

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Anvari-Moghaddam, A. (Ed.), Mohammadi-Ivatloo, B. (Ed.), Asadi, S. (Ed.), Larsen, K. G. (Ed.), Shahidehpour, M. (Ed.), Rusu, E., Wang, C.-N., Gebresenbet, G., Garcia, D., Germer, S., Liu, T., Luo, P., Ruz-Hernandez, J. A., He, H., Wang , C., Wang, S., Orosa, J. A., Liu, Y., & Chen, C. (2020). Sustainable Energy Systems Planning, Integration and Management. MDPI AG. https://doi.org/10.3390/books978-3-03928-047-6

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abstract = "Energy systems worldwide are undergoing a major transformation as a consequence of the transition towards the widespread use of clean and sustainable energy sources. The electric power system in a sustainable future will augment the centralized and large-grid-dependent systems of todaywith distributed, smaller-scale energy generation systems that increasingly adopt renewable energy sources (e.g., solar and wind) and rely on cyber technologies to ensure resiliency and efficient resource sharing. Basically, this involves massive changes in technical and organizational levels togetherwith tremendous technological upgrades in different sectors ranging from the energy generation and transmission systems down to the distribution systems. These actions constitute a huge science and engineering challenges and demands for expert knowledge in the field to create solutions fora sustainable energy system (both at the energy supply and demand sides) that is economically, environmentally, and socially viable while meeting high security requirements. On energy consumers{\textquoteright} side, useful and efficient energy services such as light, heating and cooling, cooking, communication, power, and motion are needed. These services are offered by specific equipment/devices, which useenergy blocks either efficiently or inefficiently. Producing energy with high environmental, societal, or health risks is not a cheap way to meet such energy demand, but packages of efficient equipment and energy at least societal costs, which includes external costs, should be the ultimate objective to satisfy the needs of customers. At the supply side, there exists a bunch of opportunities for renewable energy technologies complemented with energy efficiency measures not only to provide local benefits, but also to contribute to sustainable development, which is framed in a three-pillar model: Economy, Ecology, and Society. Thus, the relationship between the use of renewables in energy mix and the sustainable developments goals (SDGs) can be viewed as a set of objectives and constraints that involve both global and local/regional considerations.",

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author = "Eugen Rusu and Chia-Nan Wang and Girma Gebresenbet and Daniel Garcia and Sonja Germer and Tongxiang Liu and Peicong Luo and Ruz-Hernandez, {Jose A.} and Hengjing He and Changjiang Wang and Shuhan Wang and Orosa, {Jos{\'e} A.} and Yuhuan Liu and Cong Chen",

editor = "Amjad Anvari-Moghaddam and Behnam Mohammadi-Ivatloo and Somayeh Asadi and Larsen, {Kim Guldstrand} and Mohammad Shahidehpour",

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Anvari-Moghaddam, A (ed.), Mohammadi-Ivatloo, B (ed.), Asadi, S (ed.), Larsen, KG (ed.), Shahidehpour, M (ed.), Rusu, E, Wang, C-N, Gebresenbet, G, Garcia, D, Germer, S, Liu, T, Luo, P, Ruz-Hernandez, JA, He, H, Wang , C, Wang, S, Orosa, JA, Liu, Y & Chen, C 2020, Sustainable Energy Systems Planning, Integration and Management. MDPI AG. https://doi.org/10.3390/books978-3-03928-047-6

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AU - Rusu, Eugen

AU - Wang, Chia-Nan

AU - Gebresenbet, Girma

AU - Garcia, Daniel

AU - Germer, Sonja

AU - Liu, Tongxiang

AU - Luo, Peicong

AU - Ruz-Hernandez, Jose A.

AU - He, Hengjing

AU - Wang , Changjiang

AU - Wang, Shuhan

AU - Orosa, José A.

AU - Liu, Yuhuan

AU - Chen, Cong

A2 - Anvari-Moghaddam, Amjad

A2 - Mohammadi-Ivatloo, Behnam

A2 - Asadi, Somayeh

A2 - Larsen, Kim Guldstrand

A2 - Shahidehpour, Mohammad

PY - 2020/1

Y1 - 2020/1

N2 - Energy systems worldwide are undergoing a major transformation as a consequence of the transition towards the widespread use of clean and sustainable energy sources. The electric power system in a sustainable future will augment the centralized and large-grid-dependent systems of todaywith distributed, smaller-scale energy generation systems that increasingly adopt renewable energy sources (e.g., solar and wind) and rely on cyber technologies to ensure resiliency and efficient resource sharing. Basically, this involves massive changes in technical and organizational levels togetherwith tremendous technological upgrades in different sectors ranging from the energy generation and transmission systems down to the distribution systems. These actions constitute a huge science and engineering challenges and demands for expert knowledge in the field to create solutions fora sustainable energy system (both at the energy supply and demand sides) that is economically, environmentally, and socially viable while meeting high security requirements. On energy consumers’ side, useful and efficient energy services such as light, heating and cooling, cooking, communication, power, and motion are needed. These services are offered by specific equipment/devices, which useenergy blocks either efficiently or inefficiently. Producing energy with high environmental, societal, or health risks is not a cheap way to meet such energy demand, but packages of efficient equipment and energy at least societal costs, which includes external costs, should be the ultimate objective to satisfy the needs of customers. At the supply side, there exists a bunch of opportunities for renewable energy technologies complemented with energy efficiency measures not only to provide local benefits, but also to contribute to sustainable development, which is framed in a three-pillar model: Economy, Ecology, and Society. Thus, the relationship between the use of renewables in energy mix and the sustainable developments goals (SDGs) can be viewed as a set of objectives and constraints that involve both global and local/regional considerations.

AB - Energy systems worldwide are undergoing a major transformation as a consequence of the transition towards the widespread use of clean and sustainable energy sources. The electric power system in a sustainable future will augment the centralized and large-grid-dependent systems of todaywith distributed, smaller-scale energy generation systems that increasingly adopt renewable energy sources (e.g., solar and wind) and rely on cyber technologies to ensure resiliency and efficient resource sharing. Basically, this involves massive changes in technical and organizational levels togetherwith tremendous technological upgrades in different sectors ranging from the energy generation and transmission systems down to the distribution systems. These actions constitute a huge science and engineering challenges and demands for expert knowledge in the field to create solutions fora sustainable energy system (both at the energy supply and demand sides) that is economically, environmentally, and socially viable while meeting high security requirements. On energy consumers’ side, useful and efficient energy services such as light, heating and cooling, cooking, communication, power, and motion are needed. These services are offered by specific equipment/devices, which useenergy blocks either efficiently or inefficiently. Producing energy with high environmental, societal, or health risks is not a cheap way to meet such energy demand, but packages of efficient equipment and energy at least societal costs, which includes external costs, should be the ultimate objective to satisfy the needs of customers. At the supply side, there exists a bunch of opportunities for renewable energy technologies complemented with energy efficiency measures not only to provide local benefits, but also to contribute to sustainable development, which is framed in a three-pillar model: Economy, Ecology, and Society. Thus, the relationship between the use of renewables in energy mix and the sustainable developments goals (SDGs) can be viewed as a set of objectives and constraints that involve both global and local/regional considerations.

KW - Sustainable Energy

KW - Integrated Energy Systems

KW - Energy Management

KW - Renewable Energy

KW - Energy Planing

U2 - 10.3390/books978-3-03928-047-6

DO - 10.3390/books978-3-03928-047-6

M3 - Book

SN - 978-3-03928-046-9

BT - Sustainable Energy Systems Planning, Integration and Management

PB - MDPI AG

ER -

Sustainable Energy Systems Planning, Integration and Management

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