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Enlei Liang
Publications - 6
Citations - 41
Enlei Liang is an academic researcher. The author has contributed to research in topics: Medicine & Chemistry. The author has an hindex of 3, co-authored 6 publications receiving 41 citations.
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Magnetite-loaded rice husk biochar promoted the denitrification performance of Aquabacterium sp. XL4 under low carbon to nitrogen ratio: Optimization and mechanism.
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Performance of hydrogel immobilized bioreactors combined with different iron ore wastes for denitrification and removal of copper and lead: Optimization and possible mechanism.
TL;DR: In this paper , the authors used polyvinyl alcohol (PVA) to construct four immobilized bioreactors for the removal of mixed pollutants (nitrate and heavy metals) in industrial wastewater under heavy metal pollution.
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Simultaneous removal of nitrate, tetracycline, and Pb(II) by iron oxidizing strain Zoogloea sp. FY6 : Performance and mechanism.
TL;DR: Based on the prevalence of combined antibiotics and heavy metals contamination in the aquatic environment, this article utilized a microbial approach to achieve simultaneous removal of nitrate (NO3−-N), tetracycline (TTC), and Pb(II).
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Treatment of micro-polluted water with low C/N ratio by immobilized bioreactor using PVA/sintered ores@sponge cube: Performance effects and potential removal pathways.
TL;DR: In this paper , a novel biomaterial containing polyvinyl alcohol (PVA) and sponge cube with sintered ores was prepared to ensure the maximum NO3--N removal efficiency (96.21 %) of the bioreactor under the hydraulic retention time (HRT) of 7.0 h, pH of 6.0, and the carbon to nitrogen (C/N) of 1.5 that had the ability to remove TC and Pb2+ synergistically.
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Nano iron tetroxide-modified rice husk biochar promoted Feammox performance of Klebsiella sp. FC61 and synergistically removed Ni2+ and ciprofloxacin.
TL;DR: In this article , the iron-reducing bacterium Klebsiella sp. FC61 was attached by synthesizing nano-loadings of iron tetroxide (nFe3O4) onto rice husk biochar (RBC), and the RBC was used as an electron shuttle to participate in the biological iron reduction process of soluble and insoluble Fe3+ to improve the ammonia oxidation efficiency to 81.82%.