Litcius/Paper detail

Optimal Infrastructure Design and Power Management for a Photovoltaic and Battery Assisted Electric Vehicle Charging Station in Southern California

Yu Yang, Hen‐Geul Yeh, Nguyen Cam Thuy Dam

2024IEEE Access12 citationsDOIOpen Access PDF

Abstract

This paper presents a framework for the optimal design of a solar and battery assisted electric vehicle (EV) charging station in southern California, with a focus on maximizing long-term profits while addressing operational uncertainties. The problem is conceptualized as an iterative two-stage decision process. In Stage I, the sampled designs of station infrastructure, including the number of chargers, the size of photovoltaic (PV) array, and capacity of the battery energy storage system (BESS), are specified. In Stage II, the charging rule is designed and simulated based on the charging request and solar power datasets. A model predictive controller and an empirical rule-based approach with incoming car forecasts are developed and compared for the vehicle charging management. The simulated annual operational profit and infrastructure investment with the consideration of long-term battery degradation is synthesized to build response surface for better design exploration in Stage I. We find that the proposed rule-based approach is computationally more efficient and suitable to integrate with response surface methodology (RSM) for design optimization. In addition, RSM is compared with adaptive particle swarm optimization (PSO) with multiple trials to demonstrate its superiority in high-profit design.

Topics & Concepts

Photovoltaic systemBattery (electricity)Electrical engineeringElectric vehicleAutomotive engineeringCharging stationPower (physics)Rooftop photovoltaic power stationTelecommunicationsComputer scienceEnvironmental scienceEngineeringMaximum power point trackingVoltagePhysicsInverterQuantum mechanicsAdvanced Battery Technologies ResearchElectric Vehicles and InfrastructureElectric and Hybrid Vehicle Technologies