International Transactions on Parametric Engineering Simulations (ITPES)
Volume 1, Issue 1
January 2026
A1
Power Management Strategy for PV-Battery-Supercapacitor Hybrid Energy Storage Systems in DC Microgrids
Shyam D
Correspondence: shyam.d@rajalakshmi.edu.in;
Received: 16-10-2025; Accepted: 20-01-2026; Published: 31-01-2026
Citation :
Shyam, D (2026), Power Management Strategy for PV-Battery-Supercapacitor Hybrid Energy Storage Systems in DC Microgrids, International Transactions on Parametric Engineering Simulations (ITPES), Volume 1, Issue 1, 2026010101.
A2
Design and Performance Analysis of a DC Microgrid-Based EV Charging Station with Hybrid PV-Wind and Battery Energy Storage Systems
Karthikeyan AG
Correspondence: karthikeyan.ag@stjoseph.ac.in;
Received: 21-10-2025; Accepted: 22-01-2026; Published: 31-01-2026
Citation :
Karthikeyan AG (2026), Design and Performance Analysis of a DC Microgrid-Based EV Charging Station with Hybrid PV-Wind and Battery Energy Storage Systems, International Transactions on Parametric Engineering Simulations (ITPES), Volume 1, Issue 1, 2026010102.
A3
Performance Analysis and Control Strategy of a Grid-Integrated Solar PV Electric Vehicle Charging Station
Sivamani D
Correspondence: sivamani.d@rajalakshmi.edu.in;
Received: 23-10-2025; Accepted: 19-01-2026; Published: 31-01-2026
Citation :
Sivamani, D (2026), Performance Analysis and Control Strategy of a Grid-Integrated Solar PV Electric Vehicle Charging Station, International Transactions on Parametric Engineering Simulations (ITPES), Volume 1, Issue 1, 2026010103.
A4
Design and Implementation of a Multi-Mode Solar PV-Integrated EV Charging Station with Bidirectional Grid Interaction
Vishnupriya M
Correspondence: vish0790@gmail.com;
Received: 27-10-2025; Accepted: 24-01-2026; Published: 31-01-2026
Citation :
Vishnupriya, M (2026), Solar PV fed parallel SEPIC converter for highly efficient multilevel inverter integration, International Transactions on Parametric Engineering Simulations (ITPES), Volume 1, Issue 1, 2026010104.
A5
Design and Energy Management of a Hybrid Fuel Cell–Battery–Supercapacitor Power System for Electric Vehicles
R. Essaki Raj
Correspondence: essakiraj.r@rajalakshmi.edu.in;
Received: 29-10-2025; Accepted: 27-01-2026; Published: 31-01-2026
Citation :
Essaki Raj, R (2026), Design and Energy Management of a Hybrid Fuel Cell–Battery–Supercapacitor Power System for Electric Vehicles, International Transactions on Parametric Engineering Simulations (ITPES), Volume 1, Issue 1, 2026010105.