Biohydrogen Production Potential from Organic Waste in Balinese Markets and Utilization of Residual Byproducts for Polluted Water Treatment

Abstract

The objective of this research is to analyze influence of different inoculum types on the volume of hydrogen gas produced. To determine the optimal biohydrogen production time under various inoculum combinations and to explore the potential of biohydrogen production residue. Its extracts as biodegradation agents for improving polluted water quality. The research method includes determining the effect of different inoculum types in bioreactor on the hydrogen gas volume produced, extracting and testing enzymes from biohydrogen residues to enhance polluted water quality. This results align with other studies, underscoring microbial community selection and optimizing biogas production. The relationship between glucose dynamics and biohydrogen production highlights monitoring and controlling environmental and conditions to optimize hydrogen yield. The inverse relationship and the turning point at 36 hours provide valuable insights into the microbial fermentation process, guiding future research, industrial applications aimed at improving biohydrogen production efficiency. The novelty of this research lies in its approach with integrated the principle of sustainability by recycling biohydrogen waste into enzymatic active that are potential in reducing water pollution to improve the quality of water system.