MUMBAI, India, June 22 -- Intellectual Property India has published a patent application (202641047837 A) filed by Prathyusha Engineering College on April 15, 2026, for Celluvolt A Smart And Sustainable Cellulose Based Energy Storage System.
Inventors include Dr. Soumya T R; Chinakampalle Gangoli; K Vamsi Vardhan; and Gokul M.
The application for the patent was published on June 12, 2026, under issue no. 24/2026.
Abstract: ABSTRACT The rapid demand for sustainable and high-performance energy storage systems has led to the exploration of cellulose-based materials as eco-friendly alternatives for traditional battery components. This project, CelluVolt, focuses on developing a comprehensive multimodule system that evaluates the performance of cellulose in electrochemical energy applications. The proposed system is divided into four structured modules, each addressing 1 distinct aspect of cellulose-based energy storage, ranging from electrolyte absorption to integration with real-world electronic devices. The Admin manages system operations including module approvals, requirement uploads, log tracking, and report generation. Eacb functional module (Electrolyte Absorption, Ion Conductivity, Electrochemical Performance, Sustainability & Lifecycle, Benchmarking, and Integration) begins with user registration. followed by admin verification. Encrypted login credentials and secure key- based authentication ensure data privacy and controlled access. Once logged in, users perform calculations based on uploaded requirements, with results generated as detailed analytical reports. The analytical modules compute crucial performance parameters such as electrolyte uptake, retention capacity, ion conductivity, capacitance, energy density, power density. recyclability, and lifecycle improvement using well-defined mathematical models. To enhance accuracy, TheilSenRegressor combined with MultiOutputRegressor (Scikit-learn) is implemented in Module 4 for purification and prediction tasks, while deep learning models (PyTorch NN and optimizers) are employed ,for advanced benchmarking and multi-parameter improvement analysis. The final Integration demonstrates the practical applicability of thf developed cellulose-based battery system across diverse domains such as portable electronics. wearables, loT devices, medical equipment, drones, e-mobility, and energy storage systems.
Disclaimer: Curated by HT Syndication.
