6533b7d7fe1ef96bd1268ea3
RESEARCH PRODUCT
Hydrogen Dark Fermentation for Degradation of Solid andLiquid Food Waste
Vira HovorukhaG V GladkaAntonina KalinichenkoOleksandr TashyrevOlesia HavryliukMonika SporekAgnieszka Dołhańczuk-śródkasubject
PollutionControl and OptimizationMunicipal solid wasteHydrogen020209 energymedia_common.quotation_subjectbiohydrogenEnergy Engineering and Power Technologychemistry.chemical_elementSewage02 engineering and technology010501 environmental scienceslcsh:Technology01 natural sciencessolid food waste0202 electrical engineering electronic engineering information engineeringenvironmental biotechnologyBiohydrogenElectrical and Electronic EngineeringEngineering (miscellaneous)fermentation0105 earth and related environmental sciencesmedia_commonliquid food wastelcsh:TRenewable Energy Sustainability and the Environmentbusiness.industryDark fermentationPulp and paper industryFood wastegreen energychemistryEnvironmental scienceFermentationbiohydrogen; green energy; fermentation; solid food waste; liquid food waste; environmental biotechnologybusinessEnergy (miscellaneous)description
The constant increase in the amount of food waste accumulating in landfills and discharged into the water reservoirs causes environment pollution and threatens human health. Solid and liquid food wastes include fruit, vegetable, and meat residues, alcohol bard, and sewage from various food enterprises. These products contain high concentrations of biodegradable organic compounds and represent an inexpensive and renewable substrate for the hydrogen fermentation. The goal of the work was to study the efficiency of hydrogen obtaining and decomposition of solid and liquid food waste via fermentation by granular microbial preparation (GMP). The application of GMP improved the efficiency of the dark fermentation of food waste. Hydrogen yields reached 102 L/kg of solid waste and 2.3 L/L of liquid waste. The fermentation resulted in the 91-fold reduction in the weight of the solid waste, while the concentration of organics in the liquid waste decreased 3-fold. Our results demonstrated the potential of granular microbial preparations in the production of hydrogen via dark fermentation. Further development of this technology may help to clean up the environment and reduce the reliance on fossil fuels by generating green hydrogen via recycling of household and industrial organic wastes.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-03-25 | Energies |