首页--工业技术论文--化学工业论文--一般性问题论文--化工机械与仪器、设备论文--化工过程用机械与设备论文--物质分离机械论文

Ceramic and Ceramic-polymer Composite Membranes Based on Silicon Nitride Hollow Fibers

摘要第5-8页
Abstract第8-11页
Abbreviations第12-21页
1. Literature Survey第21-39页
    1.1. Fresh water demand,the world concern第21-22页
    1.2. Conventional oily wastewater treatment第22-24页
    1.3. Limitation of traditional water treatment methods第24页
    1.4. Membrane separation technology第24-33页
        1.4.3. Membranes structure第25-27页
        1.4.4. Membranes materials第27-29页
        1.4.5. Membrane fabrication by phase inversion第29-30页
        1.4.6. Membranes modules configuration第30-31页
        1.4.7. Membrane process configuration第31-32页
        1.4.8. Concentration polarization and membrane fouling第32-33页
    1.5. General overview on membranes based on silicon nitride第33-34页
    1.6. Thesis overview第34-36页
    1.7. References第36-39页
2. Morphological engineering of silicon nitride hollow fiber membrane for oil-field-produced-water treatment第39-60页
    2.1. Introduction第39-41页
    2.2. Materials and experimental procedure第41-43页
        2.2.1. Preparation of Si_3N_4 hollow fiber membranes第41-42页
        2.2.2. Characterization第42-43页
        2.2.3. Microfiltration第43页
    2.3. Results and discussion第43-56页
    2.4. Conclusions第56-57页
    2.5. References第57-60页
3. Application of asymmetric Si_3N_4 hollow fiber membrane for cross-flowmicrofiltration of oily waste water第60-87页
    3.1. Introduction第61-62页
    3.2. Materials and experimental procedure第62-66页
        3.2.1. Fabrication and characterization of the membranes第62-63页
        3.2.2. Filtration experiments第63-66页
    3.3. Results and discussion第66-84页
        3.3.1. Characterization of Si_3N_4 hollow fiber membrane第66-68页
        3.3.2. Effect of operational parameters on membrane performance第68-79页
        3.3.3. Fouling第79-84页
    3.4. Conclusions第84页
    3.5. References第84-87页
4. SiO_2 nanoparticles modified Si_3N_4 hollow fiber membrane for efficient oilywastewater microfiltration第87-110页
    4.1. Introduction第88-89页
    4.2. Materials and experimental procedure第89-94页
        4.2.1. Fabrication, modification and characterization of the membranes第89-92页
        4.2.2. Filtration experiments第92-94页
    4.3. Results and discussion第94-106页
        4.3.1. Membrane structure and morphology第94-102页
        4.3.2. Membrane permeability and separation performance第102-106页
    4.4. Conclusions第106-107页
    4.5. References第107-110页
5. Amino functionalized silica nanoparticles incorporated thin film nanocompositemembrane with suppressed aggregation and high desalination performance第110-134页
    5.1. Introduction第111-113页
    5.2. Materials and experimental procedure第113-117页
        5.2.1. Si_3N_4/PES hollow fiber substrate第113-114页
        5.2.2. Thin film composite membrane第114-115页
        5.2.3. SNPs functionalization and TFN membrane fabrication第115-116页
        5.2.4. Characterization第116页
        5.2.5. Separation performance第116-117页
    5.3. Results and discussion第117-130页
        5.3.1. PAP functionalized SNPs (MSNPs)第117-119页
        5.3.2. Membrane structure and characteristics第119-127页
        5.3.3. Desalination performance第127-130页
    5.4. Conclusions第130页
    5.5. References第130-134页
6. High flux thin film nanocomposite membrane incorporated with functionalizedTiO_2@reduced graphene oxide nanohybrids for organic solvent nanofiltration第134-159页
    6.1. Introduction第135-137页
    6.2. Materials and experimental procedure第137-142页
        6.2.1. Materials第137-138页
        6.2.2. Si_3N_4/PAN composite hollow fiber第138页
        6.2.3. Amino functionalized TiO_2@rGO nanohybrids第138-139页
        6.2.4. TFC/TFN membranes fabrication第139-140页
        6.2.5. Characterization第140页
        6.2.6. Solvent resistance analys第140-141页
        6.2.7. Nanofiltration experiments第141-142页
    6.3. Results and discussion第142-154页
        6.3.1. Characterization of TiO_2@rGOnanohybrids第142-144页
        6.3.2. Characterization of the membranes第144-149页
        6.3.3. Solvents resistance and nanofiltration performance第149-154页
    6.4. Conclusions第154-155页
    6.5. References第155-159页
7. Multifunctional Thin Film Nanofiltration Membrane Incorporated withReduced Graphene Oxide@TiO_2@Ag Nanocomposites for High DesalinationPerformance, Dye Retention, and Antibacterial Properties第159-184页
    7.1. Introduction第160-162页
    7.2. Experimental section第162-167页
        7.2.1. Materials第162-163页
        7.2.2. Reduced Graphene oxide@TiO_2@Ag nanocomposites第163-164页
        7.2.3. TFC/MTFN membranes fabrication第164-166页
        7.2.4. Characterization第166页
        7.2.5. Nanofiltration experiments第166-167页
        7.2.6. Antimicrobial test第167页
    7.3. Results and discussions第167-178页
        7.3.1. Characterization of rGO@TiO_2@Ag nanocomposites第167-171页
        7.3.2. Membranes characterization第171-174页
        7.3.3. MTFN membranes performance: desalination, dye retention, and antibacterial activity第174-178页
    7.4. Conclusion第178-179页
    7.5. References第179-184页
8. Conclusion第184-188页
9. Appendices第188-201页
    9.1. Appendix A第189-192页
    9.2. Appendix B第192-198页
    9.3. Appendix C第198-201页
Peer-reviewed Publications第201-202页

论文共202页,点击 下载论文
上一篇:飞机液压能源系统振动特性研究
下一篇:通过粒子模拟和卫星观测对空间等离子体中波粒相互作用以及电子声孤立结构的研究