Security-Constrained Optimal Sizing and Siting of BESS in Hybrid AC/DC Microgrid Considering Post-Contingency Corrective Rescheduling

Gong, Kai; Wang, Xu; Jiang, Chuanwen; Shahidehpour, Mohammad; Liu, Xiaolin; Zhu, Zean

doi:10.1109/tste.2021.3080707

Cited by 37 publications

(7 citation statements)

References 38 publications

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“…Today, rapid developments in diverse types of RESs and vehicle electrification, as well as efficient utilization of them, are recognized as the proper opportunities for sustainably developing the modern society threatened by global warming and the energy crisis 50 . Under this circumstance, the system faces a variety of renewable technologies that each of them depends on a certain climate factor in cleaner energy production 51 , 52 . The climate factors such as solar irradiance and wind speed that are known as uncertain parameters in the energy grid assessments have various behaviors during the day that are different from each other in nature.…”

Section: Methodsmentioning

confidence: 99%

An innovative transactive energy architecture for community microgrids in modern multi-carrier energy networks: a Chicago case study

Daneshvar

Mohammadi‐Ivatloo

Zare

2023

Sci Rep

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As the technology of multi-energy carbon-free systems is strikingly developed, renewable-based multi-vector energy integration has become a prevalent trend in the decarbonization procedure of multi-carrier energy networks (MCENs). This paper proposes a fair transactive energy model for structuring an innovative local multi-energy trading market to allow multi-carrier multi-microgrids (MCMGs) with 100% renewable energy sources (RESs) in Chicago for free energy exchange aiming to balance energy in the renewable-dominant environment. Indeed, the main goal of the proposed model is to facilitate the modernization of future MCENs that are targeted to be equipped with 100% RESs and require a holistic model engaged with innovative technologies for the realization. To this end, the transactive energy architecture is designed for techno-environmental-economic assessing hybrid MCMGs to increase their flexibility in unbroken energy serving, decreasing their dependency on the main grid, and improving their economic benefits by considering their contribution level in energy interactions. To effectively model uncertainties of MCENs with 100% RESs, the novel hybrid technique is proposed that considers various stochastic changes of uncertain parameters to achieve confident results. The results highlighted the capability of the proposed model in effectively utilizing fully produced clean energy as well as continuously multi-energy serving of MCMGs in the presence of 100% RESs. Moreover, MCMGs reached techno-environmental-economic benefits by operating under the proposed transactive energy-based model, in which the technical, environmental, and economic goals are respectively realized by considering all constraints of MCENs, producing 100% clean energy by RESs, and reducing the total energy cost from $1,274,742.55 in the based model to $1,159,235.89 in the proposed one.

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Section: Methodsmentioning

confidence: 99%

An innovative transactive energy architecture for community microgrids in modern multi-carrier energy networks: a Chicago case study

Daneshvar

Mohammadi‐Ivatloo

Zare

2023

Sci Rep

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“…As for residential and commercial, the energy consumed by both sectors is rising, from 721 ktoe in the year 1978 to 8,729 ktoe in the year 2016. Hence, it shows that residential and commercial also consume a lot of energy as before and it will gradually increase as population growth is getting higher and housing areas are being developed rapidly in urban and rural areas, yet various solutions have been taken into consideration to overcome this issue [5], [6]. Due to the rise in demand for electricity, especially in urban areas, it is very important to have transmission networks that have the capability of delivering large amounts of electricity to consumers without encountering any problems [7], [8].…”

Section: Introductionmentioning

confidence: 99%

A proton-exchange membrane fuel cell and ultra-capacitor system model for stand-alone residential applications

Alhamrouni¹,

Salem

Jusoh

et al. 2022

TELKOMNIKA

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Energy consumption by sector in Malaysia is rising significantly, especially for residential and commercial sectors, and is expected to continue to increase in the upcoming years. The existing power generated from a protonexchange membrane fuel cell (PEMFC) system may be insufficient to sustain peak load demands during peak periods in stationary residential applications. The presence of an ultra-capacitor (UC) bank would be beneficial as a support as it can supply a large burst of power. The integration of PEMFC and UC has the potential to provide an effective way to supply power demands, has better energy efficiency, and is also economically friendly. In this research, we demonstrate a proposed combined PEMFC and UC bank that operates in parallel. A novel design methodology and dynamic model for both PEMFC and UC systems as energy sources have been developed for stand-alone residential applications. The simulation results are shown in Matlab Simulink. These results are based on mathematical and dynamic models of the system being shown.

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“…Ref. [38] focuses on the planning of battery ESS in hybrid AC/DC microgrids considering post‐contingency corrective rescheduling, where stochastic programming and robust optimisation are used to deal with the uncertainties. For the planning problem in distribution systems, an algorithm is proposed for planning ESS to control voltage in ref.…”

Section: Introductionmentioning

confidence: 99%

Coordinate sizing of energy storage and transmission line for a remote renewable power plant

Xie

Wei

et al. 2022

IET Renewable Power Gen

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To protect the environment and reduce carbon emissions, renewable power generation has been growing rapidly during the past decade. Renewable energy resources are sometimes far away from the main grid, leading to expensive grid‐connection transmission lines. Deploying on‐site energy storage can smooth the output power and help to reduce the renewable power spillage and the requirement of transmission line capacity. This paper presents a method to coordinately size on‐site energy storage and grid‐connection transmission line for a remote renewable power plant, minimising the total investment cost subject to the constraint of renewable curtailment risk. Through an optimal operation model, the renewable curtailment is proven to be a piecewise affine function of capacity parameters and renewable power generation, and a linear programming‐based algorithm is proposed to generate an approximate expression. A distributionally robust optimisation model is proposed to determine the sizes. The renewable generation uncertainty is modelled by a Wasserstein‐metric‐based ambiguity set containing probability distributions around the empirical distribution constructed from the historical data. The utilisation rate is ensured in the worst‐case distribution. The sizing problem is transformed into a tractable linear program. The case study demonstrates the effectiveness of the proposed method.

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Security-Constrained Optimal Sizing and Siting of BESS in Hybrid AC/DC Microgrid Considering Post-Contingency Corrective Rescheduling

Cited by 37 publications

References 38 publications

An innovative transactive energy architecture for community microgrids in modern multi-carrier energy networks: a Chicago case study

An innovative transactive energy architecture for community microgrids in modern multi-carrier energy networks: a Chicago case study

A proton-exchange membrane fuel cell and ultra-capacitor system model for stand-alone residential applications

Coordinate sizing of energy storage and transmission line for a remote renewable power plant

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