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HoSt Bio-Energy Systems, Bright Renewables to supply biogas tech for Kentucky RNG project

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HoSt Bio-Energy Systems North America and Bright Renewables North America have been selected to provide renewable natural gas (RNG) technologies for Global NRG Renewables' distillery waste-to-RNG project in Louisville, Kentucky.
The project will convert 105 million gallons per year of distillery waste into high-quality RNG, which can be used for heat, electricity, transportation, and the production of food-grade quality liquid bio-CO2.
HoSt, specialists in continuous stirred tank reactor (CSTR) anaerobic digesters, will supply three primary digesters and one secondary digester, each with a capacity of 3 million gallons.
Bright will provide the biogas upgrading system, with a capacity of 1400 SCFM (standard cubic feet per minute), and the CO2 liquefaction technology, which has a capacity of 600 SCFM.
Therefore, all the biogas beneficiation technologies will be integrated and supplied by the HoSt Group, reducing project complexity and risk.
Construction of the plant is slated to begin in early 2025, with Swinerton Energy responsible for the engineering, procurement, and construction (EPC), as well as commissioning and project handover.
"We are thrilled to collaborate with Global NRG Renewables on their inaugural RNG project," said Graham Hartlett, chief sales officer at HoSt Bio-Energy Systems NA.
"HoSt Group's proven experience with distillery projects in Europe, including the renowned Grolsch Brewery in the Netherlands, positions us well to bring this innovative solution to the US market. We are confident that with trusted Swinerton Energy as the EPC the project will be built on time and within budget."
Chris Negus, chief executive officer of Global NRG Renewables added: "This project exemplifies our commitment to sustainability and innovation in the RNG space. The full solution of HoSt's anaerobic digestion technologies and Bright's reliable biogas upgrading, and CO2 liquefaction systems will ensure high efficiency and quality of RNG production."






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