financially supported by the Key R&D Program of Jiangxi Province of China (20152ACF60010);the Key Projects of Hunan Science and Technology Support Program of China (Application research of Guiye A male sterile lin...financially supported by the Key R&D Program of Jiangxi Province of China (20152ACF60010);the Key Projects of Hunan Science and Technology Support Program of China (Application research of Guiye A male sterile line);the Research Project of Humanities and Social Sciences in Universities of Jiangxi Province, China(JC1315);supported by Emmy Noether DFG grant MA 6473/1-1展开更多
Widespread contamination by nitrobenzene(NB) in sediments and groundwater requires better understanding of the biogeochemical removal process of the pollutant. NB degradation, coupled with dissimilatory iron reducti...Widespread contamination by nitrobenzene(NB) in sediments and groundwater requires better understanding of the biogeochemical removal process of the pollutant. NB degradation, coupled with dissimilatory iron reduction, is one of the most efficient pollutant removal methods. However, research on NB degradation coupled to indigenous microorganism dissimilatory iron reduction stimulated by electron donors is still experimental. A model for remediation in an actual polluted site does not currently exist.Therefore, in this study, the dynamics was derived from the Michaelis–Menten model(when the mass ratio of emulsified vegetable oil and NB reached the critical value 91:1). The effect of SO4^(2-), NO3^-, Ca^(2+)/Mg^(2+), and the grain size of aquifer media on the dynamics were studied, and the NB degradation dynamic model was then modified based on the most significant factors. Utilizing the model, the remediation time could be calculated in a contaminated site.展开更多
基金financially supported by the Key R&D Program of Jiangxi Province of China (20152ACF60010)the Key Projects of Hunan Science and Technology Support Program of China (Application research of Guiye A male sterile line)+1 种基金the Research Project of Humanities and Social Sciences in Universities of Jiangxi Province, China(JC1315)supported by Emmy Noether DFG grant MA 6473/1-1
文摘financially supported by the Key R&D Program of Jiangxi Province of China (20152ACF60010);the Key Projects of Hunan Science and Technology Support Program of China (Application research of Guiye A male sterile line);the Research Project of Humanities and Social Sciences in Universities of Jiangxi Province, China(JC1315);supported by Emmy Noether DFG grant MA 6473/1-1
基金funded by the National Natural Science Foundation of China(Nos.41272253,41402206 and 41530636)the National Science Foundation of Jilin Province(No.20130101027JC)+2 种基金 “the 12th Five-Year Plan” science and technology research projects of education department in Jilin Province(No.2014B012)the Graduate Innovation Fund of Jilin University(No.2015065)grateful for the support of the Key Laboratory of Groundwater Resources and Environment,Ministry of Education
文摘Widespread contamination by nitrobenzene(NB) in sediments and groundwater requires better understanding of the biogeochemical removal process of the pollutant. NB degradation, coupled with dissimilatory iron reduction, is one of the most efficient pollutant removal methods. However, research on NB degradation coupled to indigenous microorganism dissimilatory iron reduction stimulated by electron donors is still experimental. A model for remediation in an actual polluted site does not currently exist.Therefore, in this study, the dynamics was derived from the Michaelis–Menten model(when the mass ratio of emulsified vegetable oil and NB reached the critical value 91:1). The effect of SO4^(2-), NO3^-, Ca^(2+)/Mg^(2+), and the grain size of aquifer media on the dynamics were studied, and the NB degradation dynamic model was then modified based on the most significant factors. Utilizing the model, the remediation time could be calculated in a contaminated site.
