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HELIOS-NRG LLC
UEI: QN49PX2LFFA8
# of Employees: 3
HUBZone Owned: No
Socially and Economically Disadvantaged: No
Woman Owned: No
Award Charts
Award Listing
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CO2-Philic Block Copolymers with Intrinsic Microporosity for Post-Combustion CO2 Capture
Amount: $1,124,197.00The cost of capturing CO2 from coal-derived flue gas using existing technologies, like absorption far exceeds the DOE's target of around $30-40/ton of CO2. To overcome this hurdle, a novel transformat ...
SBIRPhase II2023Department of Energy -
CO2-philic Block Copolymers with Intrinsic Microporosity for Postcombustion CO2 Capture
Amount: $1,649,928.00Reducing CO2 emissions from coal-fueled power plants is widely viewed as a key element in mitigating global warming. However, adoption of proven CO2 capture technologies is constrained by high cost, w ...
STTRPhase II2021Department of Energy -
CO2-philic Block Copolymers with Intrinsic Microporosity (BCPIMs) for Postcombustion CO2 Capture
Amount: $256,420.00As fossil fuels continue to serve as a major energy source, CO2 capture for utilization or sequestration is the only option to mitigate the CO2 emissions to the environment. However, the separation of ...
STTRPhase I2020Department of Energy -
Novel Algae Technology for CO2 Utilization
Amount: $1,009,588.00There is an urgent need to significantly reduce CO2 emissions from coal burning power plants. Current CO2 capture technologies are too expensive and not economically viable. A new technology that can ...
SBIRPhase II2018Department of Energy -
Scalable Polymerized Metal-Organic Frameworks with CO2-philic Rubbery Polymers for Membrane CO2/N2 Separation
Amount: $149,978.00As fossil fuels continue to serve as a major energy source, CO2 capture for utilization or sequestration is the only option to mitigate the CO2 emissions to the environment. However, the separation of ...
STTRPhase I2018Department of Energy -
Novel Algae Technology for CO2 Utilization
Amount: $154,948.00There is an urgent need to significantly reduce CO2 emissions from coal burning power plants. Current CO2 capture technologies are too expensive and not economically viable. A new technology that can ...
SBIRPhase I2017Department of Energy -
Efficient Capture of CO2 from Fossil Fuel Power Plants using Algae and Conversion to Value Added Products
Amount: $149,941.00There is an urgent need to significantly reduce CO2 emissions from fossil fueled industries, particularly coal burning power plants. Current CO2 capture technologies are too expensive and not economic ...
SBIRPhase I2016Department of Energy -
Novel Integrated Technology Incorporating Anti-fouling Membranes to Dewater Algal Harvests
Amount: $149,902.00Dewatering algae from very dilute cultures 0.03-0.1% solids loading) to 20-30% loading is essential for commercial viability. A new technology that can significantly reduce energy and capital requirem ...
SBIRPhase I2015Department of Energy -
Advanced Membrane Technology for Helium Recovery
Amount: $999,503.00US production of Helium, a critical and irreplaceable resource that is currently produced from a few helium-rich natural gas reservoirs, is in rapid decline as these currently viable rich reserves are ...
STTRPhase II2014Department of Energy -
Advanced Membrane Technology for Helium Recover
Amount: $749,524.00This Small Business Technology Transfer (STTR) Phase 1 project will lead to the development of a simple, cost effective technology which can recover helium from gas reservoirs containing helium concen ...
STTRPhase II2011Department of Energy