D
Deli Wu
Researcher at Tongji University
Publications - 118
Citations - 4510
Deli Wu is an academic researcher from Tongji University. The author has contributed to research in topics: Catalysis & Radical. The author has an hindex of 26, co-authored 112 publications receiving 2513 citations.
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Fenton-Like Oxidation of Refractory Chemical Wastewater Using Pyrite
TL;DR: In this paper, pyrite, a natural iron bearing mineral, was used as a new kind of Fenton-like catalyst in the treatment of textile wastewater, and it was found that a homogeneous interaction between ferrous iron and H2O2 in a classical Haber-Weiss mechanism was also occurred.
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Oxidation of acetaminophen by Green rust coupled with Cu(II) via dioxygen activation: The role of various interlayer anions (CO32−, SO42−, Cl−)
TL;DR: In this article, three GR/Cu(II) composites were synthesized and used to activate dioxygen under weakly acidic conditions, and the change in the mechanism caused by three interlayer anions, CO32−, SO42−, and Cl−, was discussed for the first time.
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Insight into electrosorption behavior of monovalent ions and their selectivity in capacitive deionization: An atomic level study by molecular dynamics simulation
TL;DR: In this paper, the authors investigate the transport behavior of ions in the electrosorption process on an atomic level using molecular dynamics simulations, and explore the selectivity between two typical ions, namely Cl − and NO 3 − characterized by identical valence but distinct molecular geometry.
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Comparative performance of green rusts generated in Fe0-electrocoagulation for Cd2+ removal from high salinity wastewater: Mechanisms and optimization.
TL;DR: The experimental results indicated that the removal of Cd2+ from wastewater was depended on the property of Fe minerals, and the effect of Cl- and SO42- on the removal from wastewater using Fe0-electrocoagulation (Fe0-EC) were investigated by evaluating the transformation of Fe mineral.
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Comprehensive utilization of the pyrolysis products from sewage sludge
TL;DR: Benefit analysis showed the best economy of the pyrolysis parameters 450°C, 75 min, 3°C”min−1 and MC of 10%, which may serve as a microporous liquid adsorbent, while the bio-oil may Serve as a low grade fuel oil after upgrading it with conventional fuel oil and deacidification.