Aimin Li
Dalian University of Technology
9 Papers
Aimin Li is an academic researcher from Dalian University of Technology. The author has contributed to research in topics: Chemistry & Pyrolysis. The author has an hindex of 7, co-authored 9 publications.
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Papers
Facile synthesis of nano ZnO/ZnS modified biochar by directly pyrolyzing of zinc contaminated corn stover for Pb(II), Cu(II) and Cr(VI) removals.
TL;DR: Generation of nano mineral modified biochar from heavy metals polluted biomass from slow pyrolysis of the zinc contaminated corn stover obtained from a biosorption process is suggested to be an attractive approach to treating and utilizing the waste biomass with a highly technical and economic feasibility.
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Mechanism of process imbalance of long-term anaerobic digestion of food waste and role of trace elements in maintaining anaerobic process stability
TL;DR: TEs supplementation eliminated all factors causing process imbalance and significantly enhanced process stability by maintaining strong ecological functions of methanogen and hydrogenotrophic methanogens via stimulating dominant growth of Methanosarcina and enhancing methanogenic community diversity.
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Comparative pyrolysis behaviors of tire tread and side wall from waste tire and characterization of the resulting chars.
TL;DR: By pyrolyzing the distinct sections of the waste tire is a promising approach to produce chars for more specific applications, which could be a good adsorbent or an activated carbon precursor.
91
Synergistic effects of anionic surfactants on adsorption of norfloxacin by magnetic biochar derived from furfural residue.
TL;DR: In this paper, the effect of anionic surfactants on the removal of norfloxacin from magnetic biochar from aqueous systems was investigated. And the results indicated that electrostatic adsorption played a decisive role in the removal process after introduction of SDS/SDBS.
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Thermally assisted bio-drying of food waste: Synergistic enhancement and energetic evaluation
TL;DR: It was found that staged heating acclimation was an effective strategy to obtain a superior thermophilic inoculum with high metabolic activity and microbial consortia and suggests that thermally assisted bio-drying is a promising approach to upgrade conventional bio-Drying with high efficiency and low energy cost.
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