Search Results - "Hong, Bengen"

Effects of Concentration of Pore Solution on Stability of Ion-Absorbed Rare Earth Ore Aggregate by Wang, Jie, Wang, Guanshi, Hong, Bengen

“…The continuous change in solution concentration in ore pores during in situ mineral leaching influences the stability of ore aggregate. In this study,…”
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Desorption of REEs from Halloysite and Illite: A Link to the Exploitation of Ion-Adsorption RE Ore Based on Clay Species by Sen Qiu, Huashan Yan, Bengen Hong, Qibang Long, Jie Xiao, Fujian Li, Lichao Tong, Xiaowen Zhou, Tingsheng Qiu

“…The adsorption/desorption characteristics for light and heavy rare earth elements (REEs) on halloysite and illite (which are beneficial for the utilization of…”
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ZIF‑8 Used for the Selective Recovery of Heavy Rare Earth Elements from Mining Wastewater by Wu, Ronghao, Hong, Bengen, Xue, Chao, Chen, Zhibiao, Chen, Zuliang

“…In this study, a sample of 2-methylimidazole zinc salt (ZIF-8) demonstrated high selectivity for the recovery of heavy rare earth elements (REEs) from real…”
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Pilot-scale remediation of rare earth elements ammonium wastewater by Chlamydomonas sp. YC in summer under outdoor conditions by Zhou, Youcai, He, Yongjin, Guo, Xu, Dai, Jingxuan, Lai, Xiaobin, Hong, Bengen, Chen, Bilian, Wang, Mingzi

“…[Display omitted] •Microalga was used to treat rare earth elements wastewater and fix carbon dioxide.•Three pilot-scale photobioreactors were selected to treat…”
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Transport and distribution of residual nitrogen in ion-adsorption rare earth tailings by Ou, Xiaolin, Chen, Zhibiao, Hong, Bengen, Wang, Haiyan, Feng, Liujun, Liu, Youcun, Zhu, Mingyong, Chen, Zuliang

“…A large amount of nitrogen remains in ion-absorption rare earth tailings with in-situ leaching technology, and it continually ends up in groundwater sources…”
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Highly selective recovery of yttrium from mining wastewater using biosynthetic iron sulfide nanoparticles by Zhou, Ganchen, Hong, Bengen, Li, Heng, Jin, Xiaoying, Owens, Gary, Chen, Zuliang

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DFT study of the effect of impurity defects on the inner-layer adsorption of hydrated Al(OH)2+ on the kaolinite (001) surface by Miao, Yuqi, Yan, Huashan, Hong, Bengen, Zhou, Xiaowen, Tong, Lichao, Xiao, Yanfei, Qiu, Sen, Yang, Bin, Long, Qibang, Li, Yong, Xia, Yi, Qiu, Tingsheng

“…•The stable hydration configuration of Al(OH)2+ is Al(OH)2(H2O)4+.•Al tends to bond with Ot and filled with bonding orbitals between them.•Mg- and Ca-doped is…”
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