Bi-Level Unit Commitment Considering Virtual Power Plants and Demand Response Programs Using Information Gap Decision Theory

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Babaei Shahmars Y.; SALEHI J.; TAGHIZADEGAN KALANTARI N.

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Journal Paper

Paper Information

Journal: JOURNAL OF OPERATION AND AUTOMATION IN POWER ENGINEERING Year:2021 | Volume:9 | Issue:2 Page(s): 88-102

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Title

Bi-Level Unit Commitment Considering Virtual Power Plants and Demand Response Programs Using Information Gap Decision Theory

Author(s)

Babaei Shahmars Y. | SALEHI J. | TAGHIZADEGAN KALANTARI N. | Issue Writer Certificate

Keywords

Virtual Power Plants

Demand Response Programms

Smart Grids

Unit Commitment

Bi-Level Programming

Information Gap Decision

Abstract

The integration of the distributed energy resources into a single entity can do with Virtual Power Plants. VPP is a cluster of dispatchable and non-dispatchable resource with flexible loads which distributed in allover the grid that aggregated and acts as a unique power plant. Flexible load is able to change the consumption so demand response program is applied to use them to improvement of the power system performance. Virtual power plant generation has uncertainty and it make hard to schedule the VPP. To deal this matter Information Gap Decision theory hint us to optimal schedule of the VPP. To show the effects of VPP and DRP on power system operation cost a bi-level Unit Commitment with regard the VPPs and DRP is solved in modified IEEE 24 bus reliability test system. Results in presence of VPP and DRP in both IGDT strategies are compared with disregard VPP and DRP and effectiveness of the proposed model is reflected.

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APA: Copy

Babaei Shahmars, Y., SALEHI, J., & TAGHIZADEGAN KALANTARI, N.. (2021). Bi-Level Unit Commitment Considering Virtual Power Plants and Demand Response Programs Using Information Gap Decision Theory. JOURNAL OF OPERATION AND AUTOMATION IN POWER ENGINEERING, 9(2), 88-102. SID. https://sid.ir/paper/980653/en

Vancouver: Copy

Babaei Shahmars Y., SALEHI J., TAGHIZADEGAN KALANTARI N.. Bi-Level Unit Commitment Considering Virtual Power Plants and Demand Response Programs Using Information Gap Decision Theory. JOURNAL OF OPERATION AND AUTOMATION IN POWER ENGINEERING[Internet]. 2021;9(2):88-102. Available from: https://sid.ir/paper/980653/en

IEEE: Copy

Y. Babaei Shahmars, J. SALEHI, and N. TAGHIZADEGAN KALANTARI, “Bi-Level Unit Commitment Considering Virtual Power Plants and Demand Response Programs Using Information Gap Decision Theory,” JOURNAL OF OPERATION AND AUTOMATION IN POWER ENGINEERING, vol. 9, no. 2, pp. 88–102, 2021, [Online]. Available: https://sid.ir/paper/980653/en

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