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@article{174554,
        author = {Shreya Ramteke and PROF.SAGAR BHAISARE and Sakshi gadling},
        title = {PERFORMANCE ANALYSIS OF HYBRID ELECTRIC VEHICLE  USING SUPERCAPACITOR ENERGY STORAGE SYSTEM},
        journal = {International Journal of Innovative Research in Technology},
        year = {2025},
        volume = {11},
        number = {11},
        pages = {452-456},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=174554},
        abstract = {a comprehensive performance analysis of hybrid electric vehicles (HEVs) utilizing a supercapacitor energy storage system (ESS). With rising concerns over environmental sustainability and the quest for energy-efficient transportation, HEVs with supercapacitors offer a promising solution for improving energy management and vehicle performance. The study investigates the integration of supercapacitors with conventional lithium-ion batteries, aiming to enhance the overall energy density, power output, and longevity of the energy storage system
A detailed simulation model is developed to analyze various driving cycles and assess key performance indicators such as acceleration, fuel efficiency, regenerative braking efficiency, and overall energy consumption. The supercapacitor's rapid charge and discharge capabilities allow for efficient energy capture during regenerative braking, significantly reducing battery stress and prolonging its lifespan.
Results indicate that HEVs equipped with supercapacitor ESS show marked improvements in performance metrics compared to traditional battery-only systems. Notably, the integration results in a 20% increase in energy efficiency and a reduction in peak load demand on batteries, demonstrating the effectiveness of supercapacitors in enhancing HEV performance. Additionally, the thermal stability and operational durability of the ESS are evaluated, highlighting the advantages of hybrid energy storage in various environmental conditions.
The findings suggest that incorporating supercapacitors in HEVs not only optimizes energy usage but also contributes to a more sustainable and eco-friendly transportation future. This analysis paves the way for further research into advanced energy management strategies and the design of next-generation hybrid systems leveraging supercapacitor technology.
Future work will explore the economic implications of supercapacitor integration and its potential in the global automotive market, evaluating cost-benefit scenarios for manufacturers and consumers alike.},
        keywords = {Arduino UNO, LCD, ADXL, Supercapacitor, Battery, E-vehicle, Regenerative braking system.},
        month = {March},
        }