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Development of integrated technologies for CO2 reduction to value added products

CO2 Removal /

Development of integrated technologies for CO2 reduction to value added products Subcategory (under Clean Energy): CCU Technology Readiness Level (TRL): TRL 5-6 Technology Outline (Process Description) JNCASR Bengaluru Successfully developed a Pilot scale plant of 30 kg CO 2 /day capacity and was operated successfully for a continuous period of 40 A stable CO 2 […]

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Integrated CO2 absorption and conversion to methanol in slurry phase reactors using metal complexes as catalyst

CO2 Removal /

Integrated CO2 absorption and conversion to methanol in slurry phase reactors using metal complexes as catalyst Subcategory (under Clean Energy): CCU Technology Readiness Level (TRL): TRL 4 -5 Technology Outline (Process Description) The objective is to propose a one-pot CO2 capture and conversion to methanol at milder process conditions compared to the industrial methanol production

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Hierarchical Porous Covalent Organic Nanosheets and Nanosheets Based Hybrid Membranes for Carbon Capture and Separation of CO2

CO2 Removal /

Hierarchical Porous Covalent Organic Nanosheets and Nanosheets Based Hybrid Membranes for Carbon Capture and Separation of CO2 Subcategory (under Clean Energy): Carbon Capture Technology Readiness Level (TRL): 3-4- Early prototype Technology Outline (Process Description) In this project, initially team has demonstrated a simple strategy of interfacial layer-grafting to fabricate asymmetric COF- graphene Janus thin-films. The

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Systematic large-scale assessment for potential of CO2 enhanced oil and natural gas recovery in key sedimentary basins in India

CO2 Removal /

Systematic large-scale assessment for potential of CO2 enhanced oil and natural gas recovery in key sedimentary basins in India Subcategory (under Clean Energy): CCS Technology Readiness Level (TRL): TRL 3-4 Technology Outline (Process Description) Based on a review of best practices used worldwide and previous case studies, a workflow was developed for calculating estimates of

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DST-IIT Delhi Centre on Energy Storage Platform on Batteries

Materials for Energy Storage /

DST-IIT Delhi Centre on Energy Storage Platform on Batteries Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) ESPOB at IIT Delhi would bring together different expertise for the development of redox flow battery, ion-battery and photo-electrochemical water splitting technologies using earth abundant materials. The

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Aqueous Organic Redox Flow Battery

Materials for Energy Storage /

Aqueous Organic Redox Flow Battery Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) The redox flow battery (RFB) design consists of a two-chamber electrochemical cell and redox-active materials dissolved in liquid electrolytes pumped from external reservoirs through stacked porous electrodes for energy conversion. The

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Development of efficient and robust working electrodes/ photocatalysts for solar energy conversion to hydrogen via photoelectrochemical/ photocatalytic splitting of water: Next level up- scaling of laboratory experience.

Clean Hydrogen /

Development of efficient and robust working electrodes/ photocatalysts for solar energy conversion to hydrogen via photoelectrochemical/ photocatalytic splitting of water: Next level upscaling of laboratory experience. Subcategory (under Clean Energy): Hydrogen Technology Readiness Level (TRL): TRL 2 – Application formulated Technology Outline (Process Description) Amongst available technological options for solar hydrogen generation by water splitting,

Development of efficient and robust working electrodes/ photocatalysts for solar energy conversion to hydrogen via photoelectrochemical/ photocatalytic splitting of water: Next level up- scaling of laboratory experience. Read More »

Boron & Nitrogen-doped carbon boronitrides for the electrocatalytic 4-electron oxygen reduction reaction

Clean Hydrogen /

Boron & Nitrogen-doped carbon boronitrides for the electrocatalytic 4-electron oxygen reduction reaction Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) The core objective is to synthesise the porous electrocatalysts containing N-C-B and N2-C-B type sites for the oxygen reduction applications in fuel cell cathodes

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Hydrogen exhaling fuel cell

Clean Hydrogen /

Hydrogen exhaling fuel cell Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) We have designed an unprecedented fuel cell concept exhibiting cathodic hydrogen exhalation capability of anodically inhaled hydrogen, driven by the neutralization energy on decoupling the direct acid–base chemistry. This neutralisation energy can

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Design and Development of Graphene Reinforced Carbon fiber/epoxy composite based light weight High pressure hydrogen storage cylinder for vehicular applications

Clean Hydrogen /

Design and Development of composite based light weight High pressure hydrogen storage cylinder for vehicular applications Subcategory (under Clean Energy): Hydrogen Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) This project proposes to design and develop a graphene based high-performance and lightweight compressed hydrogen storage tank demonstrator for vehicular applciations.

Design and Development of Graphene Reinforced Carbon fiber/epoxy composite based light weight High pressure hydrogen storage cylinder for vehicular applications Read More »

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