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Development of Bipolar Lead Acid Battery for Renewable Energy Storage Applications Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) Various types of substrates such as carbon composites, metallic substrates, oxide coated metallic substrates, Silicon sub- strates and multilayered hybrid substrates are tested for the […]

Design and Development of PCM based Pilot Solar Hybrid Thermal Storage System for Low Temperature Application Subcategory (under Clean Energy): Solar (thermal) Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) This research work has innovated a technology that could bridge a demand supply gap caused by the non-availability of solar

Design and processing of nanostructured hybrid composite materials for electrochemical energy storage Subcategory (under Clean Energy): Storage Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) We started the project by working on three different materials Co3O4, MnO2 and MoS2 and then we focused on MoS2 as a promising electrode material

Low-cost Iron Based Redox Flow Batteries For Energy Storage Applications Subcategory (under Clean Energy): Storage Technology Readiness Level (TRL): TRL 5 – Large prototype Technology Outline (Process Description) Low-cost Iron-based Redox Flow Batteries (IRFBs) are a promising technology for efficient and sustainable energy storage in renewable energy systems. IRFBs utilize abundant and inexpensive iron-based electrolytes,

Thermoelectric Materials Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) Phase boundaries, interfacial dislocations, and optimal graphene nano-inclusions play a significant role in improving phonon scattering and thus decreasing lattice thermal conductivity. An order of magnitude rise in the thermoelectric (TE) performance of the

High capacity Li4Ti5O12 anode for Li-ion battery applications Subcategory (under Clean Energy): Storage Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) Sol-gel synthesis has been established for scaled-up synthesis of cathode material. Sol-gel synthesis in brief: LiMn2O4 will be synthesized using lithium acetate and manganese (II) acetate tetrahydrate dissolved in

System and Method for Monitoring Battery Health using Image Analysis through Deep-learning Subcategory (under Clean Energy): Storage Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) The battery health monitoring system consists of an image capturing unit, algorithms for system regulation, and a data-driven model for fast predicting the State of

MXene Using Eco-Friendly Electrolyte Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) A new family of atomically thin and two-dimensional (2D) layered materials is emerging as a result of the successful discovery of graphene. Transition metal carbides and nitrides known as MXene, a fascinating

Si Anode development for very high- capacity Li-ion battery Subcategory (under Clean Energy): Storage Technology Readiness Level (TRL): TRL 5 – Large prototype Technology Outline (Process Description) Li-ion batteries are the most powerful energy storage technologies having high energy density and long cycle life. Replacing the present commercial anode material, i.e., graphite with Si (properly

Different Energy Vector Integration for Storage of Energy (DEVISE) Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) DEVISE aims to create a comprehensive storage system that can efficiently and rationally utilize all forms of energy. This will be achieved by creating a heterogeneous storage