Nowadays, a progressive increase in the penetration of dispersal renewable energies in electricity markets has imposed many serious challenges such as congestion of lines, customer dissatisfaction, and disassembly of nodal prices. To counter these problems, this article examines merchant cryogenic energy storage (CES) along with renewable resources to relieve the congestion of distribution systems considering distribution locational marginal pricing (DLMP). Moreover, a novel reconfiguration mechanism has been incorporated into the model to increase the performance of CES in smoothing DLMP. The proposed problem is formulated to alleviate the possible congestion aimed at maximizing the social welfare of the system while meeting the environmental constraints. To deal with uncertainty subject to renewable generation, and efficient risk-constrained stochastic programming is extended employing the conditional value-at-risk index to create a meaningful trade-off between the expected profit and the risk of exposure to the uncertainty. In the end, the simulation was demonstrated on the IEEE 33-bus and 118-bus distribution systems to prove the efficacy of the proposed method. The results evidenced that the proposed approach not only alleviates the congestion of network but also can smooth the LMPs at different locations.

Assessing the potential of merchant energy storage to maximize social welfare of renewable-based distribution networks considering risk analysis / Abdolahi, A.; Salehi, J.; Gazijahani, F. S.; Safari, A.. - In: ELECTRIC POWER SYSTEMS RESEARCH. - ISSN 0378-7796. - 188:(2020 Dec). [10.1016/j.epsr.2020.106522]

Assessing the potential of merchant energy storage to maximize social welfare of renewable-based distribution networks considering risk analysis

Abdolahi A.;
2020-12-01

Abstract

Nowadays, a progressive increase in the penetration of dispersal renewable energies in electricity markets has imposed many serious challenges such as congestion of lines, customer dissatisfaction, and disassembly of nodal prices. To counter these problems, this article examines merchant cryogenic energy storage (CES) along with renewable resources to relieve the congestion of distribution systems considering distribution locational marginal pricing (DLMP). Moreover, a novel reconfiguration mechanism has been incorporated into the model to increase the performance of CES in smoothing DLMP. The proposed problem is formulated to alleviate the possible congestion aimed at maximizing the social welfare of the system while meeting the environmental constraints. To deal with uncertainty subject to renewable generation, and efficient risk-constrained stochastic programming is extended employing the conditional value-at-risk index to create a meaningful trade-off between the expected profit and the risk of exposure to the uncertainty. In the end, the simulation was demonstrated on the IEEE 33-bus and 118-bus distribution systems to prove the efficacy of the proposed method. The results evidenced that the proposed approach not only alleviates the congestion of network but also can smooth the LMPs at different locations.
dic-2020
Assessing the potential of merchant energy storage to maximize social welfare of renewable-based distribution networks considering risk analysis / Abdolahi, A.; Salehi, J.; Gazijahani, F. S.; Safari, A.. - In: ELECTRIC POWER SYSTEMS RESEARCH. - ISSN 0378-7796. - 188:(2020 Dec). [10.1016/j.epsr.2020.106522]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11589/280528
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