Search Results - "Wang, Huangying"

Electrodialytic Desalination of Tobacco Sheet Extract: Membrane Fouling Mechanism and Mitigation Strategies by Ge, Shaolin, Zhang, Zhao, Yan, Haiyang, Irfan, Muhammad, Xu, Yingbo, Li, Wei, Wang, Huangying, Wang, Yaoming

“…In the papermaking industry (reconstituted tobacco), a large number of tobacco stems, dust, and fines are discharged in the wastewater. This high salinity…”
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Asymmetric bipolar membrane electrodialysis for acid and base production by Fu, Rong, Wang, Huangying, Yan, Junying, Li, Ruirui, Jiang, Chenxiao, Wang, Yaoming, Xu, Tongwen

“…Bipolar membrane electrodialysis (BMED) is a promising technique for upgrading traditional manufacturing procedures and achieving a circular economy. However,…”
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A cascade electro-dehydration process for simultaneous extraction and enrichment of uranium from simulated seawater by Li, Ruirui, Wang, Huangying, Yan, Junying, Fu, Rong, Wang, Baoying, Jiang, Chenxiao, Wang, Yaoming, Xu, Tongwen

“…•Enables uranium enrichment and simultaneously desalts the majority of salts.•Facilitates ∼7.5 times uranium concentration.•Achieves >80% uranium extraction…”
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A cost-effective and high-efficiency online ED-BMED integrated system enables the conversion of 3.5 wt% NaCl aqueous solution into 6.20 mol/L NaOH by Fu, Rong, Wang, Huangying, Yan, Junying, Li, Ruirui, Wang, Baoying, Jiang, Chenxiao, Wang, Yaoming, Xu, Tongwen

“…[Display omitted] •3.5 wt% NaCl was converted into 6.20 M NaOH using online integrated ED-BMED;•BMED + ED has a limit for base concentration up to…”
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Bipolar Membrane Electrodialysis for Cleaner Production of Gluconic Acid: Valorization of the Regenerated Base for the Upstream Enzyme Catalysis by Wang, Huangying, Yan, Junying, Fu, Rong, Yan, Haiyang, Jiang, Chenxiao, Wang, Yaoming, Xu, Tongwen

“…Bipolar membrane electrodialysis (BMED) is an environmentally friendly, high-effective technique for the cleaner production of gluconic acid. However, the…”
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Ion exchange membrane related processes towards carbon capture, utilization and storage: Current trends and perspectives by Wang, Huangying, Yan, Junying, Song, Wanjie, Jiang, Chenxiao, Wang, Yaoming, Xu, Tongwen

“…[Display omitted] •IEMs are crucial to achieve the net zero greenhouse gas emissions goals.•The current trend of IEMs related process for CCUS are…”
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Separation and conversion of CO2 reduction products into high-concentration formic acid using bipolar membrane electrodialysis by Wang, Zihao, Yan, Junying, Wang, Huangying, Fu, Weicheng, He, Duyi, Wang, Baoying, Wang, Yaoming, Xu, Tongwen

“…Electrochemical CO2 reduction to value-added chemicals such as formate represents a crucial pathway in advancing carbon-neutral fuel production. However, the…”
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Electrodialysis for the volume reduction of the simulated radionuclides containing seawater by Li, Ruirui, Yan, Haiyang, Wang, Huangying, Yan, Junying, Jiang, Chenxiao, Wang, Yaoming, Xu, Tongwen

“…In this study, electrodialysis (ED) was performed to concentrate the radionuclides containing seawater for volume minimization. The concentration behaviors of…”
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Online neutralization promotes water dissociation equilibrium forward in bipolar membranes to achieve 9.2 mol/L NaOH production by Wu, Shuang, Fu, Rong, Yan, Junying, Wang, Huangying, Wang, Baoying, Wang, Yaoming, Xu, Tongwen

“…•The online neutralization reaction promotes water dissociation forward in bipolar membranes.•The online neutralization of the acid product increases the base…”
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Bipolar membrane crystallization enables near zero-waste production of high-purity oxalic acid crystals by Hou, Bowen, Wang, Huangying, Yan, Junying, Li, Ruirui, Wu, Shuang, Wang, Baoying, Wang, Yaoming, Xu, Tongwen

“…•The BMC method provides a near zero-waste production of oxalic acid.•Consecutive batch crystallization of H2C2O4·2H2O products meet the Chinese national…”
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Ion injection bipolar membrane electrodialysis realizes over 8 mol/L NaOH conversion from a brine stream by Fu, Rong, Wang, Huangying, Yan, Junying, Li, Ruirui, Wang, Baoying, Jiang, Chenxiao, Wang, Yaoming, Xu, Tongwen

“…The chlor‐alkali process is currently the predominant technology for caustic soda production but has several major challenges, such as enormous energy demand…”
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Bipolar membrane electrodialysis: A promising paradigm for caustic soda production by Wang, Huangying, Wang, Yang, Yan, Junying, Fu, Rong, Wang, Baoying, Jiang, Chenxiao, Wang, Yaoming, Xu, Tongwen

“…Currently, a supply‐demand imbalance between NaOH and Cl2 in the chlor‐alkali process places a great burden on the environment. Bipolar membrane…”
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Ion injection bipolar membrane electrodialysis realizes over 8mol/L NaOH conversion from a brine stream by Fu, Rong, Wang, Huangying, Yan, Junying, Li, Ruirui, Wang, Baoying, Jiang, Chenxiao, Wang, Yaoming, Xu, Tongwen

“…The chlor‐alkali process is currently the predominant technology for caustic soda production but has several major challenges, such as enormous energy demand…”
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Acid recovery from molybdenum metallurgical wastewater via selective electrodialysis and nanofiltration by Hussain, Arif, Yan, Haiyang, Ul Afsar, Noor, Wang, Huangying, Yan, Junying, Jiang, Chenxiao, Wang, Yaoming, Xu, Tongwen

“…•NF, SED, integration of NF-SED were investigated for acid recovery.•SED achieved 89.6 % acid recovery and 98.1% Mo6+ rejection.•NF achieved 59.1% acid…”
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Ion exchange membranes for acid recovery: Diffusion Dialysis (DD) or Selective Electrodialysis (SED)? by Yan, Junying, Wang, Huangying, Fu, Rong, Fu, Rongqiang, Li, Ruirui, Chen, Binglun, Jiang, Chenxiao, Ge, Liang, Liu, Zhaoming, Wang, Yaoming, Xu, Tongwen

“…Diffusion dialysis (DD) is a unique concentration-gradient membrane process for acid recovery by taking advantage of the perm-selectivity of anion-exchange…”
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Bipolar membrane electrodialysis for clean production of L‐10‐camphorsulfonic acid: From laboratory to industrialization by Yan, Junying, Yan, Haiyang, Wang, Huangying, Li, Qiuhua, Zhang, Hongjun, Jiang, Chenxiao, Ye, Bangjiao, Wang, Yaoming, Xu, Tongwen

“…In this study, bipolar membrane electrodialysis (BMED) was implemented for cleaner production of L‐10‐camphorsulfonic acid (L‐CSA) to lower the environmental…”
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Ionic liquid-based pore-filling anion-exchange membranes enable fast large-sized metallic anion migration in electrodialysis by Wang, Baoying, Yan, Junying, Wang, Huangying, Li, Ruirui, Fu, Rong, Jiang, Chenxiao, Nikonenko, Victor, Pismenskaya, Natalia, Wang, Yaoming, Xu, Tongwen

“…The development of low-resistance ion-exchange membranes enabling fast transport of large-sized metallic anions is extremely desirable for the treatment of…”
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Ion transmembrane behaviors in selective electrodialysis for acid recovery: Impact of ion categories by Yan, Junying, Wang, Huangying, Yan, Haiyang, Li, Ruirui, Fu, Rong, Fu, Weicheng, Ge, Liang, Wang, Baoying, Wang, Yaoming, Xu, Tongwen

“…Selective electrodialysis (SED) was found to be a promising technology for acid recovery. This study systematically investigated the acid recovery performances…”
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Ion Transport Behavior in Bipolar Membrane Electrodialysis: Role of Anions by Hussain, Arif, Wang, Huangying, Fu, Rong, Afsar, Noor Ul, Wang, Baoying, Jiang, Chenxiao, Wang, Yaoming, Xu, Tongwen

“…In this study, the conversion of different Na+-containing inorganic salts (NaF, NaCl, NaNO3, Na2SO4, Na2CO3, and Na3PO4) into their corresponding acids and…”
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Electro‐membrane reactor: A powerful tool for green chemical engineering by Chen, Binglun, Zhang, Zirui, Jiang, Chenxiao, Fu, Rong, Yan, Junying, Wang, Huangying, Li, Ruirui, Cao, Guangzhong, Wang, Yaoming, Xu, Tongwen

“…Electro‐membrane reactors use electro‐membranes for preferentially diffusive/electrophoretic migration or electroosmotic separation of in‐situ reactive…”
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