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Pollutants removal and simulation model of combined membrane process for wastewater treatment and reuse in submarine cabin for long voyage 被引量:1
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作者 CHEN Zhaobo ZHOU Aijuan +2 位作者 REN Nanqi TIAN Yu HU Dongxue 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2009年第11期1503-1512,共10页
A laboratory scale test was conducted in a combined membrane process (CMP) with a capacity of 2.91 m3/d for 240 d to treat the mixed wastewater of humidity condensate, hygiene wastewater and urine in submarine cabin... A laboratory scale test was conducted in a combined membrane process (CMP) with a capacity of 2.91 m3/d for 240 d to treat the mixed wastewater of humidity condensate, hygiene wastewater and urine in submarine cabin during prolonged voyage. Removal performance of chemical oxygen demand (COD), ammonia nitrogen (NH4^+-N), turbidity and anionic surfactants (LAS) was investigated under different conditions. It was observed that the effluent COD, NH4^+-N, turbidity and LAS flocculated in ranges of 0.19-0.85 mg/L, 0.03-0.18 mg/L, 0.0-0.15 NTU and 0.0-0.05 mg/L, respectively in spite of considerable fluctuation in corresponding influent of 2120-5350 mg/L, 79.5-129.3 mg/L, 110-181.1NTU and 4.9-5.4 mg/L. The effluent quality of the CMP could meet the requirements of mechanical water and hygiene water according to the class I water quality standards in China (GB3838-2002). The removal rates of COD, NH4^+-N, turbidity and LAS removed in the MBR were more than 90%, which indicated that biodegradation is indispensable and plays a major role in the wastewater treatment and reuse. A model, built on the back propagation neural network (BPNN) theory, was developed for the simulation of CMP and produced high reliability. The average error of COD and NH4^+-N was 5.14% and 6.20%, respectively, and the root mean squared error of turbidity and LAS was 2.76% and 1.41%, respectively. The results indicated that the model well fitted the laboratory data, and was able to simulate the removal of COD, NH4^+-N, turbidity and LAS. It also suggested that the model proposed could reflect and manage the operation of CMP for the treatment of the mixed wastewaters in submarine. 展开更多
关键词 combined membrane process wastewater treatment and reuse back propagation neural network
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Pilot study on treatment of low turbidity and low temperature water by coagulation-immersed membrane process 被引量:1
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作者 康华 何文杰 +1 位作者 韩宏大 李辰 《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2011年第2期37-42,共6页
The objective of this paper was to investigate the practicability of coagulation-immersed membrane process during low-temperature period through the study of steady operation,chemical cleaning methods,water quality an... The objective of this paper was to investigate the practicability of coagulation-immersed membrane process during low-temperature period through the study of steady operation,chemical cleaning methods,water quality and agent consumption.Experimental results showed that:membrane performance decreases with the reduction of temperature,but low temperature has little effect on stable operation of immersed membrane when coagulation as pretreatment.EFM with 1200 mg/L sodium hypochlorite after every 48 filtration cycles was made for reducing membrane fouling efficiently,and the method,with 1.5% sodium hydroxide and 3500 mg/L sodium hypochlorite for 10 h and then 2% hydrochloric acid for 4 h,is an appropriate cleaning method under low temperature.Compared with convention treatment process,immersed membrane process not only has same agent consumption,but also permeated water quality is more superior such as fine removal effect on turbidity with average 0.10 NTU.Therefore,coagulation-immersed membrane process is more appropriate for increasing water quality demand and the treatment of low turbidity and low temperature water. 展开更多
关键词 low temperature coagulation-immersed membrane process filter performance chemical cleaning water quality
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Modeling of Mass Transfer in Cavity Limited by a Semi Permeable Membrane (Simulation of Spiral Wound Module) 被引量:1
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作者 J. Ben Nacib R. Chouikh S. Bouguecha 《Journal of Environmental Science and Engineering》 2011年第5期567-573,共7页
The reverse osmosis process has been applied in large industrial fields (water treatment, food industry, biotechnology, and ect.). Despite, this progress more investigation are required to optimize the reverse osmos... The reverse osmosis process has been applied in large industrial fields (water treatment, food industry, biotechnology, and ect.). Despite, this progress more investigation are required to optimize the reverse osmosis process. The present paper deals the modeling of mass transfer in a cavity limited by a semi-permeable membrane. Mass conservation and momentum balances are developed, dimensionless and control volume method has been applied. The velocity and concentration profiles versus the Reynolds number and Sherwood are studied. The results show that the permeability of the membrane decreases as function of the transversal (radial) component of the velocity. The axial (tangential) component of the velocity presents a good stability along the thickness of the cavity; this phenomenon can be attributed to the zero gradient of the tangential velocity. These preliminary results show that the phenomenon of the concentration polarization affects the mass transfer coefficient in a channel. Current study has considered the cavity without a promoter of the turbulence; whereas, the design of the spacer has an important role on mass transfer coefficient in the reverse osmosis module. Our next interest is the integration of the spacer in the cavity, and the study of the effect of its design on the concentration and velocity profiles and the mass transfer coefficient through the reverse osmosis membrane. 展开更多
关键词 membrane processes reverse osmosis spiral module modeling of mass transfer in a cavity (channel).
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Development of CO2 Selective Poly(Ethylene Oxide)-Based Membranes: From Laboratory to Pilot Plant Scale 被引量:5
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作者 Torsten Brinkmann Jelena Lilleparg +4 位作者 Heiko Notzke Jan Pohlmann Sergey Shishatskiy Jan Wind Thorsten Wolff 《Engineering》 SCIE EI 2017年第4期485-493,共9页
Membrane gas separation is one of the most promising technologies for the separation of carbon dioxide (CO2) from various gas streams. One application of this technology is the treatment of flue gases from combustio... Membrane gas separation is one of the most promising technologies for the separation of carbon dioxide (CO2) from various gas streams. One application of this technology is the treatment of flue gases from combustion processes for the purpose of carbon capture and storage. For this application, poly(ethylene oxide)-containing block copolymers such as Pebax or PolyActiveTM polymer are well suited. The thin-film composite membrane that is considered in this overview employs PolyActiveTM polymer as a selective layer material. The membrane shows excellent CO2 permeances of up to 4 m^3(STP).(m^2·h·bar)^-1 (1 bar = 105 Pa) at a carbon dioxide/nitrogen (CO2/N2) selectivity exceeding 55 at ambient temperature. The membrane can be manufactured reproducibly on a pilot scale and mounted into fiat-sheet membrane modules of different designs. The operating performance of these modules can be accurately predicted by specifically developed simulation tools, which employ single-gas permeation data as the only experimental input. The performance of membranes and modules was investigated in different pilot plant studies, in which flue gas and biogas were used as the feed gas streams. The investigated processes showed a stable separation performance, indicating the applicability of PolyActiveTM polymer as a membrane material for industrialscale gas processing. 展开更多
关键词 Gas permeation Thin-film composite membrane CO2 separation Carbon capture and storage Biogas processing membrane modules
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Process Design of Continuous-Flow Pervaporation Separation for Alcohol Dehydration 被引量:1
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作者 陈欢林 朱长乐 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2000年第4期294-299,共6页
The separation characteristics of the PVA-CS (polyvinyl alcohol-chitosan) blended composite membrane for dehydration of ethanol-water mixture are examined. The relationships of flux and separation factor with the feed... The separation characteristics of the PVA-CS (polyvinyl alcohol-chitosan) blended composite membrane for dehydration of ethanol-water mixture are examined. The relationships of flux and separation factor with the feed concentration and operation temperature are established. Using this correlated equation, the continuous-flow pervaporation process about 500 kilolitres/year dehydrated ethanol is designed. The numbers of stage and reheater are calculated by stage-by-stage method for two kinds of cascades: one with equal membrane area and the other with 10℃ of temperature decrement per section. The results show that when the numbers of stage and reheater are the same, the cascade with 10℃ of temperature decrement has more advantages than that with equal membrane area. The influences of feed concentration and flow rate on the numbers of stage and reheater in the cascades are discussed. 展开更多
关键词 pervaporation membrane separation process design alcohol dehydration
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Nanocomposite Membranes based on Perfl uorosulfonic Acid/Ceramic for Proton Exchange Membrane Fuel Cells 被引量:1
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作者 李琼 WANG Guangjin +1 位作者 YE Hong YAN Shilin 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2015年第6期1125-1129,共5页
Perfl uorosulfonic acid/ceramic nanocomposite membranes were investigated as electrolytes for polymer electrolyte membrane fuel cell applications under low relative humidity. Different nanosized ceramics(SiO2, ZrO2, ... Perfl uorosulfonic acid/ceramic nanocomposite membranes were investigated as electrolytes for polymer electrolyte membrane fuel cell applications under low relative humidity. Different nanosized ceramics(SiO2, ZrO2, TiO2) with diameters in the range of 2-6 nm were synthesized in situ in Nafion solution through a sol-gel process and the formed nanosized ceramics were well-dispersed in the solution.The nanocomposite membranes were formed through a casting process. The nanocomposite membrane showes enhanced water retention ability and improved proton conductivity compared to those of pure Nafi on membrane. The mechanical strength of the formed nanocomposite membranes is slightly less than that of pure Nafi on membrane. The experimental results demonstrate that the polymer ceramic nanocompsite membranes are potential electrolyte for fuel cells operating at elevated temperature. 展开更多
关键词 proton exchange membrane ceramic sol-gel process ionic conductivity
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Gas separation using sol–gel derived microporous zirconia membranes with high hydrothermal stability 被引量:1
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作者 李丽 漆虹 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2015年第8期1300-1306,共7页
A microporous zirconia membrane with hydrogen permeance about 5 × 10-8mol·m-2·s-1·Pa-1, H2/CO2 permselectivity of ca. 14, and excellent hydrothermal stability under steam pressure of 100 k Pa was f... A microporous zirconia membrane with hydrogen permeance about 5 × 10-8mol·m-2·s-1·Pa-1, H2/CO2 permselectivity of ca. 14, and excellent hydrothermal stability under steam pressure of 100 k Pa was fabricated via polymeric sol–gel process. The effect of calcination temperature on single gas permeance of sol–gel derived zirconia membranes was investigated. Zirconia membranes calcined at 350 °C and 400 °C showed similar single gas permeance, with permselectivities of hydrogen towards other gases, such as oxygen, nitrogen, methane, and sulfur hexa fluoride, around Knudsen values. A much lower CO2permeance(3.7 × 10-9mol·m-2·s-1·Pa-1)was observed due to the interaction between CO2 molecules and pore wall of membrane. Higher calcination temperature, 500 °C, led to the formation of mesoporous structure and, hence, the membrane lost its molecular sieving property towards hydrogen and carbon dioxide. The stability of zirconia membrane in the presence of hot steam was also investigated. Exposed to 100 k Pa steam for 400 h, the membrane performance kept unchanged in comparison with freshly prepared one, with hydrogen and carbon dioxide permeances of 4.7 × 10-8and ~ 3 × 10-9mol·m-2·s-1·Pa-1, respectively. Both H2 and CO2permeances of the zirconia membrane decreased with exposure time to 100 k Pa steam. With a total exposure time of 1250 h, the membrane presented hydrogen permeance of 2.4 × 10-8mol·m-2·s-1·Pa-1and H2/CO2 permselectivity of 28, indicating that the membrane retains its microporous structure. 展开更多
关键词 Microporous membrane Zirconia Gas separation Sol–gel process Hydrothermal stability
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Membrane modification in enhancement of virus removal:A critical review
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作者 Jie Zeng Peter Desmond +5 位作者 Huu Hao Ngo Wei Lin Xiao Liu Bingsheng Liu Guibai Li An Ding 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2024年第12期198-216,共19页
Many waterborne diseases are related with viruses,and COVID-19 worldwide has raised the concern of virus security in water into the public horizon.Compared to other conventional water treatment processes,membrane tech... Many waterborne diseases are related with viruses,and COVID-19 worldwide has raised the concern of virus security in water into the public horizon.Compared to other conventional water treatment processes,membrane technology can achieve satisfactory virus removal with fewer chemicals,and prevent the outbreaks of viruses to a maximal extent.Researchers developed new modification methods to improve membrane performance.This review focused on the membrane modifications that enhance the performance in virus removal.The characteristics of viruses and their removal by membrane filtration were briefly generalized,and membrane modifications were systematically discussed through different virus removal mechanisms,including size exclusion,hydrophilic and hydrophobic interactions,electronic interactions,and inactivation.Advanced functional materials for membrane modification were summarized based on their nature.Furthermore,it is suggested that membranes should be enhanced through different mechanisms mainly based on their ranks of pore size.The current review provided theoretical support regarding membrane modifications in the enhancement of virus removal and avenues for practical application. 展开更多
关键词 membrane process membrane modification Virus removal mechanisms Water treatment
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The Development of a Renewable-Energy-Driven Reverse Osmosis System for Water Desalination and Aquaculture Production 被引量:1
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作者 Clark C K Liu 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2013年第8期1357-1362,共6页
Water and energy are closely linked natural resources - the transportation, treatment, and distribution of water depends on low-cost energy; while power generation requires large volumes of water. Seawater desalinatio... Water and energy are closely linked natural resources - the transportation, treatment, and distribution of water depends on low-cost energy; while power generation requires large volumes of water. Seawater desalination is a mature technology for increasing freshwater supply, but it is essentially a trade of energy for freshwater and is not a viable solution for regions where both water and energy are in short supply. This paper discusses the development and application of a renewable-energy-driven reverse osmosis (RO) system for water desalination and the treatment and reuse of aquaculture wastewater. The system consists of (1) a wind-driven pumping subsystem, (2) a pressure-driven RO membrane desalination subsystem, and (3) a solar-driven feedback control module. The results of the pilot experiments indicated that the system, operated under wind speeds of 3 m s-~ or higher, can be used for brackish water desalination by reducing the salinity of feedwater with total dissolved solids (TDS) of over 3 000 mg L-1 to product water or permeate with a TDS of 200 mg L-~ or less. Results of the pilot experiments also indicated that the system can remove up to 97% of the nitrogenous wastes from the fish pond effluent and can recover and reuse up to 56% of the freshwater supply for fish pond operation. 展开更多
关键词 renewable energy DESALINATION pressure-driven membrane processes AQUACULTURE fish pond
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Effect of ozone on the performance of a hybrid ceramic membrane-biological activated carbon process 被引量:11
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作者 Jianning Guo Jiangyong Hu +2 位作者 Yi Tao Jia Zhu Xihui Zhang 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2014年第4期783-791,共9页
Two hybrid processes including ozonation-ceramic membrane-biological activated carbon (BAC) (Process A) and ceramic membrane-BAC (Process B) were compared to treat polluted raw water. The performance of hybrid p... Two hybrid processes including ozonation-ceramic membrane-biological activated carbon (BAC) (Process A) and ceramic membrane-BAC (Process B) were compared to treat polluted raw water. The performance of hybrid processes was evaluated with the removal efficiencies of turbidity, ammonia and organic matter. The results indicated that more than 99% of particle count was removed by both hybrid processes and ozonation had no significant effect on its removal. BAC filtration greatly improved the removal of ammonia. Increasing the dissolved oxygen to 30.0 mg/L could lead to a removal of ammonia with concentrations as high as 7.80 mg/L and 8.69 mg/L for Processes A and B, respectively. The average removal efficiencies of total organic carbon and ultraviolet absorbance at 254 nm (UV254, a parameter indicating organic matter with aromatic structure) were 49% and 52% for Process A, 51% and 48% for Process B, respectively. Some organic matter was oxidized by ozone and this resulted in reduced membrane fouling and increased membrane flux by 25%-30%. However, pre-ozonation altered the components of the raw water and affected the microorganisms in the BAC, which may impact the removals of organic matter and nitrite negatively. 展开更多
关键词 biological activated carbon ceramic membrane hybrid process ozone
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Integration of molecular dynamic simulation and free volume theory for modeling membrane VOC/gas separation 被引量:1
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作者 Bo Chen Yan Dai +2 位作者 Xuehua Ruan Yuan Xi Gaohong He 《Frontiers of Chemical Science and Engineering》 SCIE EI CAS CSCD 2018年第2期296-305,共10页
Gas membrane separation process is highly unpredictable due to interacting non-ideal factors, such as composition/pressure-dependent permeabilities and real gas behavior. Although molecular dynamic (MD) simulation c... Gas membrane separation process is highly unpredictable due to interacting non-ideal factors, such as composition/pressure-dependent permeabilities and real gas behavior. Although molecular dynamic (MD) simulation can mimic those complex effects, it cannot precisely predict bulk properties due to scale limitations of calculation algorithm. This work proposes a method for modeling a membrane separation process for volatile organic compounds by combining the MD simulation with the free volume theory. This method can avoid the scale-up problems of the MD method and accurately simulate the performance of membranes. Small scale MD simulation and pure gas permeation data are employed to correlate pressure-irrelevant parameters for the free volume theory; by this approach, the microscopic effects can be directly linked to bulk properties (non-ideal permeability), instead of being fitted by a statistical approach. A lab-scale hollow fiber membrane module was prepared for the model validation and evaluation. The comparison of model predictions with experimental results shows that the deviations of product purity are reduced from 10% to less than 1%, and the deviations of the permeate and residue flow rates are significantly reduced from 40% to 4%, indicating the reliability of the model. The proposed method provides an efficient tool for process engineering to simulate the membrane recovery process. 展开更多
关键词 membrane vapor separation membrane process modeling process engineering free volume theory volatile organic compound
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Nenofiltration for separation and purification of saccharides from biomass 被引量:4
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作者 Xianhui Li Sheng Tan +1 位作者 Jianquan Luo Manuel Pinelo 《Frontiers of Chemical Science and Engineering》 SCIE EI CAS CSCD 2021年第4期837-853,共17页
Saccharide production is critical to the development of biotechnology in the field of food and biofuel.The extraction of saccharide from biomass-based hydrolysate mixtures has become a trend due to low cost and abunda... Saccharide production is critical to the development of biotechnology in the field of food and biofuel.The extraction of saccharide from biomass-based hydrolysate mixtures has become a trend due to low cost and abundant biomass reserves.Compared to conventional methods of fractionation and recovery of saccharides,nanofiltration(NF)has received considerable attention in recent decades because of its high selectivity and low energy consumption and environmental impact.In this review the advantages and challenges of NF based technology in the separation of saccharides are critically evaluated.Hybrid membrane processes,i.e.,combining NF with ultrafiltration,can complement each other to provide an efficient approach for removal of unwanted solutes to obtain higher purity saccharides.However,use of NF membrane separation technology is limited due to irreversible membrane fouling that results in high capital and operating costs.Future development of NF membrane technology should therefore focus on improving material stability,antifouling ability and saccharide targeting selectivity,as well as on engineering aspects such as process optimisation and membrane module design. 展开更多
关键词 saccharides nanofiltration membrane hybrid membrane process biomas
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Research progress in removal of trace carbon dioxide from closed spaces 被引量:2
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作者 ZHANG Yatao FAN Lihai +1 位作者 ZHANG Lin CHEN Huanlin 《Frontiers of Chemical Science and Engineering》 SCIE EI CSCD 2007年第3期310-316,共7页
In this paper,the removal of trace carbon dioxide from closed spaces through membrane process and biotrans-formation are introduced in detail.These methods include the microalgae photobioreactor,membrane microalgae ph... In this paper,the removal of trace carbon dioxide from closed spaces through membrane process and biotrans-formation are introduced in detail.These methods include the microalgae photobioreactor,membrane microalgae photobio-reactor,supported liquid membrane,membrane gas-liquid contactor,hydrogel membrane,and enzyme membrane biore-actor.The advantages and disadvantages of these methods are compared.It is found that higher CO_(2) removal efficiency can be obtained in biotransformation and membrane process.However,a large volume and high energy consumption are needed in biotransformation,while the low permeability and stability must be solved in the membrane process. 展开更多
关键词 CO_(2)removal membrane process MICROALGAE BIOTRANSFORMATION
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