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Separation-and-Recovery Technology for Organic Waste Liquid with a High Concentration of Inorganic Particles 被引量:3
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作者 Hualin Wang Pengbo Fu +7 位作者 Jianping Li Yuan Huang Ying Zhao Lai Jiang Xiangchen Fang Tao Yang Zhaohui Huang Cheng Huang 《Engineering》 2018年第3期406-415,共10页
The environmentally friendly and resourceful utilization of organic waste liquid is one of the frontiers of environmental engineering. With the increasing demand for chemicals, the problem of organic waste liq- uid wi... The environmentally friendly and resourceful utilization of organic waste liquid is one of the frontiers of environmental engineering. With the increasing demand for chemicals, the problem of organic waste liq- uid with a high concentration of inorganic pollutants in the processing of petroleum, coal, and natural gas is becoming more serious. In this study, the high-speed self-rotation and flipping of particles in a three- dimensional cyclonic turbulent field was examined using a synchronous high-speed camera technique; the self-rotation speed was found to reach 2000-6000 rad.s 1. Based on these findings, a cyclonic gas- stripping method for the removal of organic matter from the pores of particles was invented. A techno- logical process was developed to recover organic matter from waste liquid by cyclonic gas stripping and classifying inorganic particles by means of airflow acceleration classification. A demonstration device was built in Sinopec's first ebullated-bed hydro-treatment unit for residual oil. Compared with the T-STAR fixed-bed gas-stripping technology designed in the United States, the maximum liquid-removal effi- ciency of the catalyst particles in this new process is 44.9% greater at the same temperature, and the time required to realize 95% liquid-removal efficiency is decreased from 1956.5 to 8.4 s. In addition, we achieved the classification and reuse of the catalyst particles contained in waste liquid according to their activity. A proposal to use this new technology was put forward regarding the control of organic waste liquid and the classification recovery of inorganic particles in an ebullated-bed hydro-treatment process for residual oil with a processing capacity of 2×106 t.a^1. It is estimated that the use of this new tech- nology will lead to the recovery of 3100 t.a 1 of diesel fuel and 647 t.a^1 of high-activity catalyst; in addi- tion, it will reduce the consumption of fresh catalyst by 518 t.a^1. The direct economic benefits of this process will be as high as 37.28 million CNY per year. 展开更多
关键词 Organic waste liquid inorganic particles Cyclonic gas stripping Particle self-rotation Airflow acceleration classification
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A review of inorganic particles synthesized through electrical discharge in different dielectric media: from devices, structures and components to applications
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作者 Yifan Liu Guilu Qin +2 位作者 Liangjun Yin Xian Jian Xianglong Li 《Frontiers of Materials Science》 SCIE CSCD 2024年第2期1-35,共35页
Size effects and compositions constitute new properties for inorganic particles in different application fields.The physical method has recently attracted more attention in the preparation of inorganic materials.Herei... Size effects and compositions constitute new properties for inorganic particles in different application fields.The physical method has recently attracted more attention in the preparation of inorganic materials.Herein,a low-cost,eco-friendly,simple-operating,and time-saving technique,named electrical discharge,is reviewed in relation to developments from the nature of this technique in different dielectric media to the practical experience in controlling the main processing parameters,apparatuses,types of discharge,from the various structures and components to the wide applications.The development of the electrical discharge technique will play an important role in improving the technology to prepare superfine inorganic particles with high purity.Meanwhile,electrical discharge contributes to easily mixing solid materials from the atomic scale to several micrometers with different structures.Moreover,metal oxides or doping materials are accessible as the dielectric medium is changed.Considering some excellent advantages,new inorganic particles exploited through the electrical discharge method will promise to be the most rewarding in some potential applications. 展开更多
关键词 electrical discharge gas/liquid-phase dielectric medium inorganic particle sizeandcomposition application
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Inorganic virus-like nanoparticles for biomedical applications:a minireview
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作者 Liying Zhao Jiahong Zhou Dawei Deng 《Journal of Future Foods》 2024年第1期71-82,共12页
Nature has the ingenious capability to design spiky topological features at the macro-and nanoscales,which exhibits fascinating interface adhesive properties by means of multivalent interactions.Following a biomimetic... Nature has the ingenious capability to design spiky topological features at the macro-and nanoscales,which exhibits fascinating interface adhesive properties by means of multivalent interactions.Following a biomimetic approach,such as nanoscale virus particles are highly infectious toward host cells,a range of organic and inorganic spiky particles(virus-like nanostructures)have been precisely engineered for diverse biomedical applications.Generally,organic virus-like particles(VLPs)derived from viral capsids(often termed as virosomes)have been extensively studied and reviewed,but concomitant concerns regarding immunogenicity and risks of mutagenesis limit clinical potential of organic VLPs.In contrast,inorganic VLPs(viral-mimicking topography)possess fascinating physicochemical characteristics,such as excellent electrical,optical,magnetic,mechanical and catalytic properties,which make them particularly suitable for biomedical applications.Alternatively,there is no comprehensive review related to inorganic VLPs engineered with non-viral shell for biomedical applications.Hence,in this review,we present a brief overview on inorganic VLPs,followed by summarizing the construction and properties of virus-like nanostructures,as well as the mechanisms of nano-bio interface interactions initiated by spiky topography.Furthermore,we focus on the recent advances of VLPs for biomedical applications(including biosensing,antibacterial therapy and cancer treatment).Finally,the future outlook and emerging challenges will be presented.This review aims to provide future scope of the rational design of inorganic non-viral vectors,especially with respect to gene-based therapy platforms. 展开更多
关键词 NANOTOPOGRAPHY Virus-like SPIKE inorganic particles Biomedical applications
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CHARACTERIZATION OF NANOSTRUCTURES:TOOLS AND CHALLENGES
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作者 G.Cox W.Wohlleben W.Schrepp 《Chinese Journal of Polymer Science》 SCIE CAS CSCD 2009年第1期77-83,共7页
Apart from long-known and applied nanostructures like carbon black for tyres or pigments for coatings nanotechnology has created highly sophisticated structures used for nano/molecular electronics,diagnostics,drug del... Apart from long-known and applied nanostructures like carbon black for tyres or pigments for coatings nanotechnology has created highly sophisticated structures used for nano/molecular electronics,diagnostics,drug delivery, UV-absorbers etc.Often the main question to be solved analytically is the local determination of tiny amounts of chemicals resulting in an ever increasing need for highly sensitive as well as locally resolved techniques.Applications of techniques like mass spectroscopy,transmission elect... 展开更多
关键词 Analytical ultracentrifugation Fuel cells inorganic particles NANOSTRUCTURES Surface energy
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Characterization of submicron particles during autumn in Beijing,China 被引量:7
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作者 Peng Xu Junke Zhang +4 位作者 Dongsheng Ji Zirui Liu Guiqian Tang Changsheng Jiang Yuesi Wang 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2018年第1期16-27,共12页
In this study, we performed a highly time-resolved chemical characterization of nonrefractory submicron particles(NR-PM_1) in Beijing by using an Aerodyne high-resolution time-of-flight aerosol mass spectrometer(HR... In this study, we performed a highly time-resolved chemical characterization of nonrefractory submicron particles(NR-PM_1) in Beijing by using an Aerodyne high-resolution time-of-flight aerosol mass spectrometer(HR-ToF-AMS). The results showed the average NR-PM_1 mass concentration to be 56.4 ± 58.0 μg/m^3, with a peak at 307.4 μg/m^3. Due to the high frequency of biomass burning in autumn, submicron particles significantly increased in organic content, which accounted for 51% of NR-PM_1 on average. Secondary inorganic aerosols(sulfate + nitrate + ammonium) accounted for 46% of NR-PM_1, of which sulfate,nitrate, and ammonium contributed 15%, 20%, and 11%, respectively. To determine the intrinsic relationships between the organic and inorganic species, we used the positive matrix factorization(PMF) model to merge the high-resolution mass spectra of the organic species and NO+and NO_2~+ions. The PMF analysis separated the mixed organic and nitrate(NO+and NO_2~+) spectra into four organic factors, including hydrocarbon-like organic aerosol(HOA), oxygenated organic aerosol(OOA), cooking organic aerosol(COA), and biomass burning organic aerosol(BBOA), as well as one nitrate inorganic aerosol(NIA) factor. COA(33%) and OOA(30%) contributed the most to the total organic aerosol(OA) mass, followed by BBOA(20%) and HOA(17%). We successfully quantified the mass concentrations of the organic and inorganic nitrates by the NO+and NO2+ions signal in the organic and NIA factors. The organic nitrate mass varied from 0.01-6.8 μg/m^3, with an average of 1.0 ±1.1 μg/m^3, and organic nitrate components accounted for 10% of the total nitrate mass in this observation. 展开更多
关键词 Submicron particles Biomass burning Source apportionment Organic and inorganic nitrates
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Roles of metal element substitutions from the bimetallic solid state electrolytes in lithium batteries 被引量:2
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作者 Wen Yu Nanping Deng +3 位作者 Lin Tang Kewei Cheng Bowen Cheng Weimin Kang 《Particuology》 SCIE EI CAS CSCD 2022年第6期51-71,共21页
All-solid-state lithium batteries(ASSLBs),receiving extensive attentions and studies,exhibit better safety,environmental friendliness,stability,wider electrochemical stability window and higher energy density than tra... All-solid-state lithium batteries(ASSLBs),receiving extensive attentions and studies,exhibit better safety,environmental friendliness,stability,wider electrochemical stability window and higher energy density than traditionally liquid lithium batteries.In a variety of inorganic materials,with highly replaceable,the non-lithium metal elements emerge in endlessly and affect performances in diversiform ways.Due to facile preparation,convertible structures and excellent properties,the lithium-containing bimetallic granular materials are often applied as important components of electrolytes in lithium batteries.In this review,in terms of the properties of substituted elements,changing crystal structures,increasing vacancies or defects and improving the interfacial conductions,the roles of metal element substitutions of inorganic particles on the improvement of solid-state electrolytes are expounded.And the applications of substituted strategies in ASSLBs as the host of inorganic particles electrolytes and as fillers or modifications for composite electrolytes are also investigated and discussed.It also summarizes the current concerns and obstacles that need to be broken through,as well as provides a basis guide for the selection and optimization of inorganic particles. 展开更多
关键词 Metal element substitutions Bimetallic inorganic particles Solid-state electrolytes All-solid-state lithium batteries MECHANISMS
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