Microbial-assisted organic wasteOrganic waste conversion has become a significant technique to turn waste into valuable products that encourage a circular economyCircular economy, sustainabilitySustainability, reduction of environmental impactsEnvironmental impact, and many more. Furthermore, different microbialMicrobial approaches break waste down through fermentation and anaerobic digestionAnaerobic digestion utilizing microorganisms like bacteria and fungi. These processes help convert waste into products like organic acids, biofuelsBiofuels, bio-oil, ethanol, and other valuable chemicals, which provides an eco-friendly way to manage industrialIndustrial, agricultural and household waste. Despite its benefits, several challenges affect microbialMicrobial waste to chemical conversion, which involves various factors such as dynamic environmentEnvironment, vulnerability, toxicity of pollutants, monitoring the degradationDegradation process, and bioavailability of contaminants. These factors impact the microbes that break down the pollutants in environmental conditions, and toxins can harm microbialMicrobial activity, making it difficult to track the degradationDegradation process. However, this creates challenges for microbes in cleaning up the environmentEnvironment efficiently. Moreover, recent advances, such as improved waste conversion techniques, increased biogas, biochar production, mitigating biomedical waste ash and the discovery of new microbialMicrobial pathways, have made the process more efficient and widely usable. Several advanced methods, such as microbial strain engineering, optimization of bioreactor systems, and integration with other waste treatment methods, are being introduced to address these challenges. These innovations help develop novel microbial pathways for converting complex waste components into desired chemicals. This chapter signifies current challenges and uses new technologies by recovering valuable microbialMicrobial resources to reduce pollution and supporting sustainable industrialIndustrial practices for environmental benefits.

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Leveraging the Catalytic Microbial Organic Waste to Sustainable Diverse Valuable Benefit

  • Rajeswari Rath,
  • Alok Prasad Das,
  • Sansuta Mohanty

摘要

Microbial-assisted organic wasteOrganic waste conversion has become a significant technique to turn waste into valuable products that encourage a circular economyCircular economy, sustainabilitySustainability, reduction of environmental impactsEnvironmental impact, and many more. Furthermore, different microbialMicrobial approaches break waste down through fermentation and anaerobic digestionAnaerobic digestion utilizing microorganisms like bacteria and fungi. These processes help convert waste into products like organic acids, biofuelsBiofuels, bio-oil, ethanol, and other valuable chemicals, which provides an eco-friendly way to manage industrialIndustrial, agricultural and household waste. Despite its benefits, several challenges affect microbialMicrobial waste to chemical conversion, which involves various factors such as dynamic environmentEnvironment, vulnerability, toxicity of pollutants, monitoring the degradationDegradation process, and bioavailability of contaminants. These factors impact the microbes that break down the pollutants in environmental conditions, and toxins can harm microbialMicrobial activity, making it difficult to track the degradationDegradation process. However, this creates challenges for microbes in cleaning up the environmentEnvironment efficiently. Moreover, recent advances, such as improved waste conversion techniques, increased biogas, biochar production, mitigating biomedical waste ash and the discovery of new microbialMicrobial pathways, have made the process more efficient and widely usable. Several advanced methods, such as microbial strain engineering, optimization of bioreactor systems, and integration with other waste treatment methods, are being introduced to address these challenges. These innovations help develop novel microbial pathways for converting complex waste components into desired chemicals. This chapter signifies current challenges and uses new technologies by recovering valuable microbialMicrobial resources to reduce pollution and supporting sustainable industrialIndustrial practices for environmental benefits.