Analysis of Bio hydrogen and Bio methane potential from organic waste using specific inoculum.

The increasing demand for renewable sources of energy has prompted a greater emphasis on using organic waste to produce bioenergy. By using a specific inoculum supplied by a well-known company in the sector, this study explores the biohydrogen and biomethane potential obtained from the dark fermentation of animal manure. The main goal of the study is to analyse the effectiveness of inoculum and bacterial growth throughout the experiment. A thorough examination of the biogas production potential was conducted as part of the experimental effort, with a focus on the inoculum's composition and efficiency. Controlled laboratory tests were a part of the research strategy to determine how the particular inoculum affected the bioconversion process. The dark fermentation process used the waste material, which came from animal manure, as a rich substrate. Methane and hydrogen yields, process stability, and degrading efficiency were among the parameters that were closely observed and examined. Preliminary results show that using the prescribed inoculum increases biohydrogen and biomethane production significantly more than without using the inoculum. The study clarifies the mutually beneficial relationships that exist between the complex organic matter of animal waste and the microbial population included in the inoculum. The study also looks into how the results might be used to produce bioenergy that is sustainable and scalable. This study offers a thorough examination of the microbial dynamics and effectiveness of a particular inoculum, which makes a significant contribution to the field of bioenergy research. Our understanding of waste-to-energy conversion is furthered by the results, which also have practical significance for optimizing biohydrogen and biomethane production processes within the larger framework of renewable energy.