Litcius/Paper detail

Biochar-enhanced anaerobic mixed culture for biodegradation of 1,2-dichloroethane: Microbial community, mechanisms, and techno-economics

Khaled Hasanan, Omnia A. Badr, Rasha M. El-Meihy, Mahmoud Nasr, Ahmed Tawfik

2024Chemosphere15 citationsDOIOpen Access PDF

Abstract

While anaerobic digestion (AD) has been employed for the degradation of chlorinated aliphatic hydrocarbons , the associated digester performance might suffer from volatile fatty acids accumulation, insufficient substrate-microbes interaction, and lower biogas yields. To overcome these limitations, this study is the first to augment the hydrocarbon-degrading microbial capacities by adding agricultural waste-based biochar to the digestion medium. 1,2-dichloroethane (1,2-DCA) was selected as the target pollutant because it is discharged in large quantities from oil refining, petrochemical , and chemical industries, causing serious environmental and human health concerns. A multi-chamber anaerobic reactor (MAR) was operated at a 1,2-DCA loading rate of 1.13 g/L/d, glucose dosage (as an electron donor) range of 200–700 mg/L, and hydraulic retention time of 11.2 h, giving dechlorination = 32.2 ± 6.9% and biogas yield = 210 ± 30 mL/g COD removed . These values increased after biochar supplementation (100 mg/g volatile solids, VS, as an inoculum carrier) up to 60.2 ± 11.5% and 290 ± 40 mL/g COD removed , respectively, owing to the enhancement of dehydrogenase enzyme activities. Burkholderiales (15.3%), Clostridiales (2.3%), Bacteroidales (3.5%), Xanthomonadales (3.3%), and Rhodobacterales (6.1%) involved in 1,2-DCA degradation were dominant in the reactor supplemented with biochar. It's suggested that biochar played a major role in facilitating the direct interspecies electron transfer (DIET) between syntrophic bacteria and methanogens , where chloride, ethylene glycol , and acetate derived from 1,2-DCA dechlorination could be further used to promote methanogenesis and methane production. The synergetic effect of adsorption and dechlorination towards 1,2-DCA removal was validated at various biochar dosages (50–120 mg/g) and 1,2-DCA concentrations (50–1000 mg/L). The techno-economic results showed that the cost of treating 1,2-DCA-laden discharge (100 m 3 /d) by the MAR module could be 0.83 USD/m 3 with a payback period of 6.24 years (NPV = 2840 USD and IRR = 10%), retrieving profits from pollution reduction (9542 USD/yr), biogas selling (10418 USD/yr), and carbon credit (10294 USD/yr).

Topics & Concepts

BiocharMethanogenesisChemistryAnaerobic digestionBiogasBiodegradationAcetogenesisMicrobial consortiumBioaugmentationEnvironmental chemistryMicrobial population biologyPulp and paper industryWaste managementMicroorganismMethaneBacteriaOrganic chemistryBiologyEngineeringPyrolysisGeneticsMicrobial bioremediation and biosurfactantsAnaerobic Digestion and Biogas ProductionAtmospheric and Environmental Gas Dynamics