A secure tri-level planner-disaster-risk-averse replanner model for enhancing the resilience of energy systems

Aldarajee, Ammar H.M.; Hosseinian, Seyed Hossein; Vahidi, Behrooz

doi:10.1016/j.energy.2020.117916

Cited by 16 publications

(5 citation statements)

References 34 publications

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“…In [32] model predictive control is presented for power allocation optimization and voltage control in DC microgrids by using hybrid energy SSs against various disturbances. In [33] investment planning based-risk averse index is considered for transmission lines resilience with attention to placement of the wind farms, static VAR compensators and installing gas pipelines. In [34] complex network theory is proposed for withstand capability of the electrical distribution grid under extreme events for optimal planning and operational resilience using solar panels installing.…”

Section: Related Studiesmentioning

confidence: 99%

Enhancing resilience of the smart urban electrical and gas grids considering reserve scheduling and pre-event responses via the onsite supply strategy of the energy storage systems and demand response

Darvish,

Derakhshan,

Hakimi

2024

Journal of Energy Storage

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Section: Related Studiesmentioning

confidence: 99%

Enhancing resilience of the smart urban electrical and gas grids considering reserve scheduling and pre-event responses via the onsite supply strategy of the energy storage systems and demand response

Darvish,

Derakhshan,

Hakimi

2024

Journal of Energy Storage

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Section: Related Studiesmentioning

confidence: 99%

Enhancing resilience of the smart urban electrical and gas grids considering reserve scheduling and pre-event responses via the onsite supply strategy of the energy storage systems and demand response

Darvish,

Derakhshan

2023

Preprint

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Due to climate change and the occurrence of natural disasters in recent decades, energy supply to consumers has faced risks in different areas, especially in urban areas. Hurricanes are the most common natural disasters in urban areas in the damage to energy grids like electrical distribution grids. This study focused on enhancing resilience oriented in the electrical distribution grids in urban areas with smart grid technologies. The poles outage by hurricanes in the electrical distribution grid is introduced as a natural event subject to scenario generation via the pole fragility function. The short-term reserve scheduling is proposed as a pre-event response for enhancing resilience oriented against event at day-ahead. The reserve scheduling is implemented with attention to three strategies such as installing backup generators (BGs), demand response program (DRP), and storage systems (SSs) utilization considering microgrids formation in the damaged areas. The BGs are fed by urban gas grids for supply electrical demand in the damaged areas. In following, DRP is considered for demand management based on offer prices to consumers for demand reduction. Also, the SSs are operated by consumers as onsite generation for meet self-demand in the during event. The implementation of the proposed approach is done by using tri-objectives such as 1) minimizing the reserve costs, 2) minimizing the consumers’ dissatisfaction, and 3) maximizing the resilience oriented of the electrical distribution grid. The GAMS software and augmented ε-constraint method are presented for solving reserve scheduling. Finally, the superiority of the pre-event responses considering proposed reserve scheduling is verified via numerical simulation on the IEEE 33-bus distribution grid in the several case studies.

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“…Broadly, enhancing system capacity for resilience is needed to deal with possible disturbances and threats to the reliability of the system [90,91]. Modularity and flexibility have been identified as desirable system characteristics to minimize vulnerability and maximize recovery capacity.…”

Section: Supporting Design Options That Minimize Vulnerability and Ma...mentioning

confidence: 99%

Advancing a New Generation of Sustainability-Based Assessments for Electrical Energy Systems: Ontario as an Illustrative Application—A Review

Aguilar,

Gibson

2023

Energies

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Negative social and ecological trends are putting essential life-support systems at risk. Necessary responses include sustainability transformations in diverse sectors to enhance the planetary capacity to deliver more positive effects to all. Sustainability-based assessment frameworks are tools to guide the evaluation of initiatives in different human sectors and promote decisions that enhance overall social and ecological well-being. However, advancing sustainability remains difficult, in part because it must be pursued in a world of complex interactions and must respect the specifics of each case and context. This paper reports the process of building a sustainability-based assessment framework for electrical energy systems carried out by Aguilar. This work further specified the framework for electrical energy systems for application in the case and context of the electrical energy system in the Canadian province of Ontario. The illustrative application revealed that Ontario’s electrical energy system has made some progress towards contributions to sustainability but requires improved efforts to be on a path to adequate transformation. The research found that the sustainability-based assessment framework for electrical energy systems is promising and well-suited for further application to particular electricity-related initiatives. However, more applications are needed to further test the utility of the framework and refine the proposed criteria.

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A secure tri-level planner-disaster-risk-averse replanner model for enhancing the resilience of energy systems

Cited by 16 publications

References 34 publications

Enhancing resilience of the smart urban electrical and gas grids considering reserve scheduling and pre-event responses via the onsite supply strategy of the energy storage systems and demand response

Enhancing resilience of the smart urban electrical and gas grids considering reserve scheduling and pre-event responses via the onsite supply strategy of the energy storage systems and demand response

Enhancing resilience of the smart urban electrical and gas grids considering reserve scheduling and pre-event responses via the onsite supply strategy of the energy storage systems and demand response

Advancing a New Generation of Sustainability-Based Assessments for Electrical Energy Systems: Ontario as an Illustrative Application—A Review

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