Transport-Energy Integration Driven Pathways for Electromobility: A Swedish Case Study
Paper in proceeding, 2025
The integration of transportation and energy is essential for sustainability, yet large-scale EV adoption faces challenges such as inaccurate energy demand forecasting, in-efficient charging deployment, and increased grid stress. This study proposes the Electrified Optimization for Infrastructure and Energy Transmission (EOIET) framework, integrating en-ergy demand estimation, charging infrastructure optimization, and grid impact assessment. Urban demand is estimated from historical data, while highway consumption is predicted via an LSTM-GRU model with Rayleigh distribution. Charging stations are optimized using a discrete urban distribution model for cities and simulated annealing for highways. Grid stability under large- scale EV adoption is evaluated through Monte Carlo simulations. Validated with Swedish data, this framework offers a scalable and resilient approach to transportation-energy integration.
Traffic Flow Prediction
EV Charging
Grid Stability
Positioning charging infrastructure
Author
Shenglai Jin
Student at Chalmers
Torbjörn Thiringer
Chalmers, Electrical Engineering, Electric Power Engineering
Proceedings 2025 10th Asia Conference on Power and Electrical Engineering Acpee 2025
2676-2682
9798331504076 (ISBN)
10th Asia Conference on Power and Electrical Engineering, ACPEE 2025
Beijing, China,
Beijing, China,
Areas of Advance
Transport
Energy
Subject Categories (SSIF 2025)
Transport Systems and Logistics
Energy Systems
Infrastructure Engineering
DOI
10.1109/ACPEE64358.2025.11041568