Company
Portfolio Data
Back to Company SearchENEXOR ENERGY, LLC
UEI: DWZGPSAW9QJ8
Number of Employees: 37
HUBZone Owned: No
Woman Owned: No
Socially and Economically Disadvantaged: No
SBIR/STTR Involvement
Year of first award: 2022
1
Phase I Awards
2
Phase II Awards
200%
Conversion Rate
$199,459
Phase I Dollars
$3,741,998
Phase II Dollars
$3,941,457
Total Awarded
Awards
Modular Biomass Preprocessing System Development
Amount: $199,459 Topic: C58-13b
The escalating challenge of managing increasing volumes of organic waste poses a pressing environmental threat, necessitating innovative solutions. This proposal addresses the critical need for sustainable waste management, aligning with DOE's interest in advancing public initiatives related to environmental conservation and clean energy generation. Enexor BioEnergy ("Enexor"), in collaboration with Idaho National Laboratory (ôINLö), proposes a project focused on the development and commercialization of a modular pre-processing system that will transform a wide array of organic materials, including agricultural and food waste, into biofuels for Enexorĺs distributed Bio-CHP to generate renewable electricity and thermal energy. In Phase I, Enexor will test and showcase the capabilities of the developed pre-processing methods through a Bio-CHP demonstration unit at its facility to measure the viability and operational effectiveness of the biofuels created using organic waste streams from AB InBev in Idaho Falls. Phase I In Phase I, Enexor and INL plan to mix organic algae waste and barley dust and utilize extrusion technology to maximize algae waste processed. Subsequently, Enexor will run the processed feedstock through the Bio-CHP to generate energy. Concurrently, Enexor will collect market and techno-economic data to conduct a report on financial feasibility, environmental impact, market impact, and impact on disadvantaged communities. Expanding through Phase II, III, and beyond, the project holds promising commercialization opportunities, with immense economic and environmental benefits for various industries throughout the United States.
Tagged as:
SBIR
Phase I
2024
DOE
Clean onsite energy from organic, biomass, and plastic waste, to reduce greenhouse gas emissions and deliver renewable energy, improved resiliency, and cost savings to the U.S. Army.
Amount: $1,971,761 Topic: A224-016
The Enexor BioEnergy xTechSBIR Phase II Sequential project will demonstrate how the Bio-CHP system, a small-scale waste-to-energy solution, can efficiently convert organic and plastic waste into renewable energy. Developed with support from the Army's SBIR Phase 2, the system has demonstrated that it is ready for military and commercial deployment.Ā The primary objective of the Sequential Phase 2 project is to advance the Bio-CHP technology to Technology Readiness Level 9 (TRL-9) and showcase the systemÆs capabilities and performance. This will be accomplished through a demonstration period at Fort Campbell, in which the technology will be evaluated in a commercial setting to prove reliability and feasibility. A secondary objective of the project will be to demonstrate the integration of a novel carbon conversion system, the Bio-CO2, to transform carbon from organic waste into high-purity CO2.Ā
Tagged as:
SBIR
Phase II
2024
DOD
ARMY
Clean onsite energy from organic, biomass, and plastic waste, to reduce greenhouse gas emissions and deliver renewable energy, improved resiliency, and cost savings to the U.S. Army.
Amount: $1,770,237 Topic: A224-016
Abstract The Enexor BioEnergy xTechSBIR Phase II project will demonstrate how the Enexor Bio-CHP, a modular, grid-independent, distributed renewable energy technology, will enable Army facilities to redirect organic and plastic waste from ending in landfills to generating onsite, 24/7 reliable, and affordable renewable power and thermal energy to meet the Army Climate Strategy’s (ACS) End State and Goals. Enexor’s Bio-CHP system uses a patented and proprietary non-gasification technology to convert a wide range of organic, plastic, and biomass waste, in any combination, into clean renewable energy. Enexor will install Bio-CHP systems at an Army facility to demonstrate system performance, with minimal warfighter operational support required. The project will also demonstrate how the Bio-CHP systems can be relocated on military installations within a 48-hour period, providing significant energy resiliency improvement benefits.
Tagged as:
SBIR
Phase II
2022
DOD
ARMY