Multi-Objective Energy Optimization with Load and Distributed Energy Source Scheduling in the Smart Power Grid-Reference-Cited by-同舟云学术

Multi-Objective Energy Optimization with Load and Distributed Energy Source Scheduling in the Smart Power Grid

Published:2023-06-22 Issue:13 Volume:15 Page:9970
ISSN:2071-1050
Container-title:Sustainability
language:en
Short-container-title:Sustainability

Author:

Alzahrani Ahmad¹^ORCID,Hafeez Ghulam²^ORCID,Ali Sajjad³^ORCID,Murawwat Sadia⁴,Khan Muhammad Iftikhar⁵,Rehman Khalid⁶^ORCID,Abed Azher M.⁷

Affiliation:

1. Electrical Engineering Department, College of Engineering, Najran University, Najran 11001, Saudi Arabia

2. Department of Electrical Engineering, University of Engineering and Technology, Mardan 23200, Pakistan

3. Department of Telecommunication Engineering, University of Engineering and Technology, Mardan 23200, Pakistan

4. Department of Electrical Engineering, Lahore College for Women University, Lahore 51000, Pakistan

5. Department of Electrical Engineering, University of Engineering and Technology, Peshawar 25000, Pakistan

6. Department of Electrical Engineering, CECOS University of IT and Emerging Sciences, Peshawar 25100, Pakistan

7. Air Conditioning and Refrigeration Techniques Engineering Department, Al-Mustaqbal University College, Babylon 51001, Iraq

Abstract

Multi-objective energy optimization is indispensable for energy balancing and reliable operation of smart power grid (SPG). Nonetheless, multi-objective optimization is challenging due to uncertainty and multi-conflicting parameters at both the generation and demand sides. Thus, opting for a model that can solve load and distributed energy source scheduling problems is necessary. This work presents a model for operation cost and pollution emission optimization with renewable generation in the SPG. Solar photovoltaic and wind are renewable energy which have a fluctuating and uncertain nature. The proposed system uses the probability density function (PDF) to address uncertainty of renewable generation. The developed model is based on a multi-objective wind-driven optimization (MOWDO) algorithm to solve a multi-objective energy optimization problem. To validate the performance of the proposed model a multi-objective particle swarm optimization (MOPSO) algorithm is used as a benchmark model. Findings reveal that MOWDO minimizes the operational cost and pollution emission by 11.91% and 6.12%, respectively. The findings demonstrate that the developed model outperforms the comparative models in accomplishing the desired goals.

Funder

Deanship of Scientific Research at Najran University

Publisher

MDPI AG

Subject

Management, Monitoring, Policy and Law,Renewable Energy, Sustainability and the Environment,Geography, Planning and Development,Building and Construction

Link

https://www.mdpi.com/2071-1050/15/13/9970/pdf

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