Modelling and Optimizing the Effect of pH on Remediation of Crude Oil Polluted Soil with Biochar Blend: RSM Approach

Abstract: This research modelled the effect of pH on the remediation of crude oil-polluted soil using biochar blend. The biochar blends, PL-500, pW-500, and RS-400, were made by pyrolyzing poultry litter, pine wood, and rice straw at varied temperatures and times. The pH of the crude oil polluted soil was 4.72. Response surface experimental design mixed biochar to remediate total petroleum hydrocarbons (TPH). Following 30 days of bioremediation, 15g PL-500, 3g PW-500 and 6g RS-400, removed a maximum of 46% TPH. The expe… Show more

“…The contamination of marine ecosystems by crude oil remains a pressing environmental concern, necessitating urgent action to mitigate its far-reaching ecological 2 and socioeconomic impacts [1]. Oil spills, whether resulting from industrial accidents, transportation mishaps, or natural disasters, pose immediate threats to marine life, coastal habitats, and human health [2]. In response to these challenges, bioremediation has emerged as a promising and environmentally sustainable approach for mitigating the impacts of oil pollution [3,4].…”

“…In addressing the pervasive challenges posed by crude oil pollution, mathematical modelling has emerged as a crucial tool for understanding and predicting the dynamics of oil biodegradation and remediation processes [10]. With the increasing frequency of oil spills and their detrimental impacts on the environment, there is a growing imperative to develop effective strategies for mitigating oil pollution [2]. Modelling approaches offer valuable insights into the complex interactions between environmental factors, microbial activity, and oil degradation kinetics, thereby facilitating the design and optimization of bioremediation techniques [11].…”

Biodegradation Potential of Neptunomonas naphthovoran - NAG-2N-126 for Crude Oil Pollution Mitigation: Experimental and Modelling Insights

“…The contamination of marine ecosystems by crude oil remains a pressing environmental concern, necessitating urgent action to mitigate its far-reaching ecological 2 and socioeconomic impacts [1]. Oil spills, whether resulting from industrial accidents, transportation mishaps, or natural disasters, pose immediate threats to marine life, coastal habitats, and human health [2]. In response to these challenges, bioremediation has emerged as a promising and environmentally sustainable approach for mitigating the impacts of oil pollution [3,4].…”

“…In addressing the pervasive challenges posed by crude oil pollution, mathematical modelling has emerged as a crucial tool for understanding and predicting the dynamics of oil biodegradation and remediation processes [10]. With the increasing frequency of oil spills and their detrimental impacts on the environment, there is a growing imperative to develop effective strategies for mitigating oil pollution [2]. Modelling approaches offer valuable insights into the complex interactions between environmental factors, microbial activity, and oil degradation kinetics, thereby facilitating the design and optimization of bioremediation techniques [11].…”

Biodegradation Potential of Neptunomonas naphthovoran - NAG-2N-126 for Crude Oil Pollution Mitigation: Experimental and Modelling Insights