ISI Journals

Anaerobic digestion is a crucial process in waste management and energy production, offering sustainable solutions by converting organic matter into biogas. This article explores the concept of "oil architecture" within the context of anaerobic digestion, focusing on the role of biomarkers in optimizing the process. The study examines the socioeconomic impacts of anaerobic digestion, considering how advancements in oil architecture and biomarker identification can influence the efficiency and scalability of biogas production. Through a comprehensive review of existing literature and empirical research, the study identifies key socioeconomic benefits, including job creation, energy security, and environmental sustainability, while also discussing the challenges and opportunities associated with integrating advanced technologies into anaerobic digestion. This study explores the intersection of oil architecture and biomarkers within anaerobic digestion processes, focusing on their role in enhancing biogas production efficiency and sustainability. By analyzing the structural components of oils and the presence of specific biomarkers, the research aims to optimize anaerobic digestion systems, leading to improved biogas yields. Additionally, the socioeconomic impacts of these advancements are evaluated, considering how enhanced biogas production can contribute to energy security, reduce waste management costs, and promote environmental sustainability. The findings highlight the potential of integrating oil architecture and biomarkers into anaerobic digestion as a strategy for addressing both technical and socioeconomic challenges in renewable energy production.