missioninnovation.in@gmail.com - Mission Innovation India

SHARP- Stress History and Reservoir Pressure for improved quantification of CO2 storage containment risks-ACT Call 3

CO2 Removal / missioninnovation.in@gmail.com

SHARP- Stress History and Reservoir Pressure for improved quantification of CO2 storage containment risks-ACT Call 3 Subcategory (under Clean Energy): CCS Technology Readiness Level (TRL): TRL 2 Technology Outline (Process Description) Obtaining the reliable properties (viz., rheology and rock constitutive behaviour) of reservoir rocks and caprocks, under laboratory conditions which would be helpful in developing […]

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National Centre for Carbon Capture and Utilisation (NCCCU), JNCASR Bengaluru

CO2 Removal / missioninnovation.in@gmail.com

National Centre for Carbon Capture and Utilisation (NCCCU), JNCASR Bengaluru Subcategory (under Clean Energy): CCU Technology Readiness Level (TRL): TRL 4 Technology Outline (Process Description) Among the major objectives of the proposed Center of Excellence (CoE) at JNCASR, Bengaluru going to be established with DST’s support is the creation of centre with scientific knowledge, and

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National Centre of Excellence in Carbon Capture and Utilization (NCoE-CCU), IIT Bombay

CO2 Removal / missioninnovation.in@gmail.com

National Centre of Excellence in Carbon Capture and Utilization (NCoE-CCU), IIT Bombay Subcategory (under Clean Energy): CCU Technology Readiness Level (TRL): TRL 4 Technology Outline (Process Description) Under the COE-CCU, formation of a specialized research facility dedicated to CCU research is envisaged, which will regulate and create multidisciplinary research projects on capture, transport, utilization, techno-economics,

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Nano engineered Inorganic Halide Perovskites for Solar Based CO2 Reduction: Novel Artificial Photosynthesis Implementation for Clean Energy Generation.

CO2 Removal / missioninnovation.in@gmail.com

Nano engineered Inorganic Halide Perovskites for Solar Based CO2 Reduction: Novel Artificial Photosynthesis Implementation for Clean Energy Generation. Subcategory (under Clean Energy): CCU Technology Readiness Level (TRL): TRL 2-3 Technology Outline (Process Description) To identify, synthesize, characterize & experimentally investigate zero lead inorganic halide perovskites (ZL-IHPs) To identify selection criteria for the synthesis of a

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Structure, Interaction, and Process for Energy-Efficient CO2 Separations Using Novel Ionic Liquids-Supported Membranes

CO2 Removal / missioninnovation.in@gmail.com

Structure, Interaction, and Process for Energy- Efficient CO2 Separations Using Novel Ionic Liquids- Supported Membranes Subcategory (under Clean Energy): CO2 Capture Technology Readiness Level (TRL): TRL 3-4 Technology Outline (Process Description) Fabricate new blended membranes to enhance gas transport properties. Characterize ionic liquids supported membranes through various techniques. Increase permselectivity of membranes for CO2/light gas

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Development of hierarchical novel catalyst for one pot conversion of CO2 rich synthesis gas to Dimethyl Ether and scale-up Studies

CO2 Removal / missioninnovation.in@gmail.com

Development of hierarchical novel catalyst for one pot conversion of CO2 rich synthesis gas to Dimethyl Ether and scale-up Studies Subcategory (under Clean Energy): CCU Technology Readiness Level (TRL): TRL 4-5 – Early prototype Technology Outline (Process Description) The research work focuses on enhancing catalyst efficiency by constructing microstructures, introducing surface defects, tailoring chemical composition

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Bench scale design and development: Investigation of high frequency, high intensity ultrasonic for carbon rich solvent regeneration in solvent-based post combustion CO2 capture process PCCC for reducing CO2 capture energy demand

CO2 Removal / missioninnovation.in@gmail.com

Bench scale design and development: Investigation of high frequency, high intensity ultrasonic for carbon rich solvent regeneration in solvent-based post combustion CO2 capture process PCCC for reducing CO2 capture energy demand Subcategory (under Clean Energy): CCU Technology Readiness Level (TRL): TRL 2-3 Technology Outline (Process Description) To overcome the thermal degradation and solvent loss issues

Development of hybrid multi-electrode plasma reactor for energy efficient dry reforming of greenhouse gases

CO2 Removal / missioninnovation.in@gmail.com

Development of hybrid multi-electrode plasma reac- tor for energy efficient dry reforming of greenhouse gases Subcategory (under Clean Energy): CCU Technology Readiness Level (TRL): TRL 2-3 Technology Outline (Process Description) Design and development of multi-cathode plasma torch Characterization and performance evaluation of the plasma source. Integration of plasma torch and catalytic bed – building a

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Saur Stambh- A Smart Solar High Mast Light with Long Range, Low Power, Wireless Wide Area Network for Agri-IOT Applications

Solar Energy / missioninnovation.in@gmail.com

Saur Stambh- A Smart Solar High Mast Light with Long Range, Low Power, Wireless Wide Area Network for Agri-IOT Applications Subcategory (under Clean Energy): Solar (PV) Technology Readiness Level (TRL): TRL 6 – Full prototype at scale Technology Outline (Process Description) A Solar Powered, Low TCO, High ROI, Universal, Scalable, Future Ready, Community Owned and

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Equipment and process development for crystalline silicon−based heterojunction (SHJ) solar cells using Hot−wire chemical vapour deposition (HWCVD) technique. DST/TMD/SERI/D33(G)

Solar Energy / missioninnovation.in@gmail.com

Equipment and process development for crystalline silicon−based heterojunction (SHJ) solar cells using Hot−wire chemical vapour deposition (HWCVD) technique. DST/TMD/SERI/D33(G) Subcategory (under Clean Energy): Solar (PV) Technology Readiness Level (TRL): TRL 5 – Large prototype Technology Outline (Process Description) Developed an industry−friendly process for fabricating Silicon heterojunction (SHJ) solar cells. The SHJ solar cell involves an

Equipment and process development for crystalline silicon−based heterojunction (SHJ) solar cells using Hot−wire chemical vapour deposition (HWCVD) technique. DST/TMD/SERI/D33(G) Read More »