Flow battery system for high altitude Subcategory (under Clean Energy): Storage Technology Readiness Level (TRL): TRL 7 – Pre-commercial demonstration Technology Outline (Process Description) The proposed project aims to develop a Vanadium Redox Flow Battery with an appropriate thermal management system to cater the energy demand in extreme cold climate. The system consists of 50 […]
A Method To Form A Hybrid Bipolar Supercapacitor Subcategory (under Clean Energy): Storage Technology Readiness Level (TRL): TRL 3 – Concept needs validation Technology Outline (Process Description) Specific capacitance of supercapacitors depends considerably on the architecture of the fabricated electrode, the size of electrolyte ions, the concentration of the electrolyte ions, and the working potential
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MES/Development of Phase Change Material based Solar Thermal Energy Storage System for Combined Heating and Cooling Applications Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) This project aimed to develop a PCM-based solar thermal energy storage system for combined heating and cooling applications. This
Hybrid Energy Storage Devices based on Multifunctional Nanocomposite Materials Subcategory (under Clean Energy): Storage Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) Design and fabrication of a sodium ion hybrid capacitor with novel pseudocapacitive layered sodium titanium oxide hydroxide Na2Ti2O4(OH)2 (Na-TOH) material as the anode and highly porous carbon material
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LiNMC and NaNMC/NFM cathode-based battery packs for e-bike Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) Nickel manganese and cobalt based cathode materials, known as NMC, are emerging as promising options due to their high discharge capacity compared to conventional materials for application in
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CDL Supercapacitor: Powering the Future of Energy Storage Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) The ‘CDL Supercapacitor’ technology employs a solid-state flexible asymmetric supercapacitor (SS-FASC) design to revolutionize energy storage. The process begins with the fabrication of MnO2 and CuS thin film
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PCM Integrated Solar Powered Space Heating System Subcategory (under Clean Energy): Solar (thermal) Technology Readiness Level (TRL): TRL 7 – Pre-commercial demonstration Technology Outline (Process Description) A PCM integrated room heating system which is capable of providing thermal comfort in high altitude areas where temperature during night falls to as low as -20OC. The system
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Adsorption based biomethane storage for vehicular applications Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) Adsorption-based gas storage (ANG) system on sustainable materials is an alternative to the compression-based gas storage (CBG/CBG) methane rich biogas or natural gas. Currently, higher pressure compression of methane
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Phase change material integrated heat sink for thermal management and thermal energy storage application Subcategory (under Clean Energy): Storage Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) The present invention is aimed to develop novel phase change material (PCM) based light-weight heat sink for thermal man- agement of various systems
FLEXIBLE SOLID-STATE SUPERCAPACITORDEVICE Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) Flexible solid-state supercapacitors: SS/MWCNTs/MX //(Gel-PVA+ Conducting Electrolyte)//MX/MWCNTs/SS: Use of flexible conductive stainless steel (SS) substrates Coating of commercially available MWCNTs (EDLC) by ‘Dip and dry’ coating at room temperature Use of chemical bath
