新型气隙式膜蒸馏组件盐水浓缩的试验研究

利用新型气隙式膜蒸馏组件对氯化钠溶液进行膜蒸馏试验研究。考察了进料温度、流速、浓度对膜通量、造水比和截留率的影响。结果表明,膜通量和造水比随着进料温度T3升高而增大,随着进料浓度的增加而减小;料液流量增加时膜通量增大,造水比降低;试验过程中截留率基本保持不变,稳定在99.8%以上。当料液浓度为3.0%,进料温度T1为30.0℃,T3为95.0℃、流量为7.0 L/h时,膜通量为4.1 L/(m2·h),造水比为7.0,截留率可达99.8%,经过60 d浓缩试验后,膜通量、造水比和截留率均保持稳定。     

高温多效膜蒸馏用于处理高盐溶液的实验研究

膜蒸馏通常在温度低于90℃的条件下操作,而对于高盐溶液,由于浓差极化和饱和蒸气压下降比较明显,在通常操作温度下膜通量和热利用率都很低。采用具有内部潜热回收功能的多效膜蒸馏组件在高温操作条件下对以氯化钠为代表的无机盐浓溶液的深度浓缩进行了研究,着重考察了冷进料温度T1,加热后料液温度T3、浓度、流量等操作参数对膜通量、造水比和截留率的影响。结果表明,当料液质量分数为5%,热料液温度T3为100℃时,膜通量和造水比的值分别为3.1 L/(m2·h)和15.2;虽然膜通量和造水比均随料液浓度增大而下降,但是当料液质量浓度为25%,T3为105℃时,膜通量和造水比值仍可达1.53 L/(m2·h)和5.8;且截留率达到99.95%以上。在60 d的连续运行中,膜组件保持了良好的性能稳定性。结果表明高温多效膜蒸馏技术能够有效用于高盐溶液的深度浓缩。     

多效膜蒸馏技术用于果汁浓缩

利用自制的具有高效内部热量回收功能的多效膜蒸馏组件对西瓜汁、梨汁、柚子汁和苹果汁4种果汁进行了浓缩试验,考察了进料温度、浓度和料液流量对膜通量和造水比的影响。浓缩试验中选用温度为75℃的热水作为低品位热源以保障果汁经历的最高温度不超过70℃。在浓缩过程中膜平均通量约为3 L/（m2.h）,造水比约为7.5,相当于九效蒸发器的节能效果。选取苹果汁为料液,利用上述单因素、浓缩试验后的膜组件进行了周期为2个月的多效膜蒸馏浓缩操作稳定性试验,试验期间所用膜组件的操作性能没有明显下降。     

新型中空纤维空气隙式膜蒸馏用于海水淡化

利用自制的添加隔热管状隔网并呈螺旋缠绕结构编排的中空纤维膜组件进行了空气隙式膜蒸馏(AGMD)海水淡化过程性能研究, 实验以模拟标准海水(质量分数3.5%, 总溶解性固体含量35000 mg·L^-1)为热料液进水, 考察了热料液进水温度、热料液流量、冷凝液进水温度和冷凝液流量对膜通量、造水比和热效率的影响。结果表明, 随着热料液进水温度增加, 膜通量、造水比和热效率均增加;冷凝液进水温度增加, 膜通量下降而造水比和热效率增加;热料液流量增加, 膜通量上升而造水比和热效率明显下降;冷凝液进水流量对膜蒸馏过程性能影响较小。实验过程中产水TDS始终保持在3.0 mg·L^-1以下, 相应的离子去除率高于99.99%, 膜通量、造水比和热效率最高可分别达5.87 L·m^-2·h^-1、5.37和0.943。研究表明, 引入清洁能源取代传统电加热驱动热源将进一步突出膜蒸馏技术的实际应用潜力。     

新型空气隙膜蒸馏组件用于海水淡化

设计了一种基于中空纤维膜的螺旋缠绕式空气隙膜蒸馏组件,以模拟海水为原料液,考察了热料液进口温度T3、料液流量F、缠绕角度、空气隙厚度、内芯长度对膜通量和造水比的影响。实验结果表明,膜通量和造水比均随着热料液进口温度的增加而明显增大;当料液流量增加时,膜通量增大,造水比呈相反趋势;随着空气隙厚度的增加,膜通量和造水比均逐渐减小;膜通量和造水比均随着缠绕角度的增加而减小;内芯长度增加使得造水比提高,而膜通量则降低。实验过程中膜通量和造水比的最高值分别达到6.1 kg/(m~2·h)和5.8,产水电导率始终保持在20.0μS/cm以下。     

多效膜蒸馏过程用于海水和浓海水的深度浓缩

研究了离子交换法选择性脱钙与多效膜蒸馏相结合用于海水淡化和淡化厂浓水深度浓缩的可行性。海水或浓海水中钙离子能脱除90%以上,可防止高倍数浓缩时海水中硫酸钙沉淀对膜造成污染。本文以膜通量、造水比和馏出液电导率为多效膜蒸馏过程的性能指标,研究了操作条件对过程性能的影响。膜通量最高可达6.07 L/(m2?h),造水比最高可达13.2;当海水浓缩至250 g/L时,馏出液的电导率小于200 μm/cm,膜通量和造水比仍可达3.61 L/(m2?h)和4.96。以除钙后的浓海水为料液,利用两种多效膜蒸馏组件分别进行了持续45天的操作稳定性实验研究,在试验期间膜组件性能没有明显下降。该研究结果表明,多效膜蒸馏结合选择性脱钙是适合于海水深度浓缩及资源综合利用的高效节能技术。     

直接接触式膜蒸馏用于处理含盐溶液的实验研究

采用聚偏氟乙烯（PVDF）中空纤维膜作为膜材料,利用直接接触式膜蒸馏法处理质量分数分别为5%、15%和25%的NaCl溶液;使用正交实验方法对操作条件进行优化设计,研究表明当料液侧入口温度T₁为80℃,渗透液侧入口温度T₃为20℃,流量100 L/h时膜通量最大,可达12.599 kg/（m²·h）;当料液侧入口温度T₁为80℃,渗透液侧入口温度T₃为35℃,流量Q为40 L/h时造水比最高,可达13.775,截留率均可达到99.9%以上;单因素实验结果表明膜通量随着T₁和Q的增大而增加,随着T₃的升高而降低;造水比随着T₁、T₃的升高而增加,随着Q的增加而降低。研究表明膜蒸馏技术处理含盐溶液具有很好的应用前景。     

气扫式多效膜蒸馏过程研究

针对气扫式膜蒸馏(SGMD)过程能耗高的问题,设计了1种气扫式多效膜蒸馏(SGMEMD)过程,其特征是在传统SGMD过程中设立独特的热量回用系统。该系统同时具有蒸汽的换热冷凝与料液的预热升温双重作用,从而实现蒸汽潜热的梯级回收利用。实验研究了吹扫气流速、料液循环流量、膜组件内料液与吹扫气流向、料液浓度对SGMEMD过程膜蒸馏通量和造水比(GOR)的影响。结果表明,当采用质量分数2.5%的NaCl溶液作为原料液,料液温度为78℃、循环体积流量为5.0L/h、吹扫气流速为1.6m/s(标准状态),膜组件内吹扫气与料液为逆向流动时,SGMEMD过程的GOR可达3.1。     

多效膜蒸馏技术分离尿素水溶液的研究

应用新型多效膜蒸馏技术,对尿素水溶液体系进行分离试验研究。用正交试验方法对操作条件进行优化设计,结果表明,在试验范围内,当膜侧进口温度90℃,料液流量30 L/h,料液初始质量分数0.5%,膜通量最大;当膜侧进口温度90℃,料液流量10 L/h,料液初始质量分数0.5%,造水比最大;膜通量随膜侧进口温度升高而增加,膜通量随进料流量增大而增加,造水比反之。     

热回收式板框膜蒸馏组件的制备及性能研究

制备了一种新型的热回收式板框膜蒸馏组件,该组件主要由疏水性平板微孔膜和中空纤维换热丝构成,并对其负压辅助气隙式膜蒸馏过程进行了研究。重点考察了进料液温度、进料液流量和透过侧真空度等操作参数对膜组件膜通量、造水比及脱盐率等性能的影响。实验结果表明,膜通量随着进料液温度、进料液流量及真空度的升高而增大;造水比随进料温度和真空度的升高而增大,但随进料流量的加大而减小。在进料液温度为95℃、进料液流量为70 L/h、真空度为0.05 MPa时,膜通量和造水比最高可达33.0 kg/(m~2·h)和2.050,而脱盐率始终在99.98%以上,与传统膜蒸馏相比,造水比提高1倍以上,表现出了高通量下较好的热回收效果。     

Concentrating aqueous hydrochloric acid by multiple-effect membrane distillation

Multiple-effect membrane distillation (MEMD) using a hollow fiber-based air-gap membrane distillation module was experimentally examined for concentrating dilute aqueous hydrochloric acid. The effects of the hot and cold feed-in temperatures, and the feed-in volumetric flow rates on the performance of the MEMD process were studied. The performance was evaluated using the performance ratio (PR), the average selectivity of water over HCl (β_avg) and the permeation flux (N). Two types of porous fibers made from polypropylene were used to fabricate the MEMD modules. The experimental data indicated that hollow fibers with high porosity were preferred for the MEMD process. The PR, β_avg and N all decreased as the feed concentration increased. When the feed concentration was below 12 wt-%, the PR was 6.0 – 9.6 and β_avg was 10 – 190. When the concentration of HCl reached 18 wt-%, the PR and β_avg were about 4.4 and 2.3, respectively. However, β_avg sharply decreased to around 1.0 when the feed was further concentrated. During an operational stability test that lasted for 30 days, the performance of the MEMD modules remained good.     

Hollow Fiber Ultrafiltration Membranes from Poly(Vinyl Chloride): Preparation,Morphologies, and Properties

Hollow fiber poly(vinyl chloride) membranes were prepared by using the dry/wet spinning method. Cross-section, internal, and external surfaces of the hollow fibers structure were studied by SEM. The pore size and pore size distribution of the hollow fibers were measured by a PMI capillary flow porometer. UF experiments of pure water and aqueous solution of PVP K-90 were carried out. The effect of the PVC concentration on the hollow fibers mechanical properties was also investigated. It was found that the PVC fibers cross-sectional structure was affected by the polymer concentration in the dope solution. In particular, reduction of macrovoids size was observed when increasing PVC concentration from 15 to 19 wt%. The pore size distribution of the PVC hollow fibers was controlled by adjusting the PVC concentration. Indeed, an increase of PVC concentration up to 19 wt% leads to fibers with sharp pore size distribution (the 99% of pores is about 0.15 µm).The pure water permeation flux decreased from 162 to 128 (l/m² · h · bar), while the solute separation performance increased from 82 to 97.5%, when increasing the PVC concentration. The elongation at break, the tensile strength, and the Young's modulus of the PVC hollow fibers were improved with PVC concentration in dope solution.     

Pervaporation separation of levulinic acid aqueous solution by ZSM-5/PDMS composite membrane

This work aims at investigating the special application of ZSM-5/polydimethylsiloxane (PDMS) membrane being used for pervaporation separation of levulinic acid aqueous solutions. The effects of temperature, downstream pressure, feed concentration, and raw material ratio on the separation performance are investigated by self-made flat-sheet films. When the flow rate of feed pump remained at 0.4 ml/min (10 wt% levulinic acid), a levulinic acid permeation flux of 334.13 g/(m²h) and a separation factor of 2.382 at 75°C are observed over the composite membrane doped with 10 wt% ZSM-5. In addition, the acid resistance is enhanced after the PDMS membranes are doped with ZSM-5. Besides, the functionalized process also makes the membranes increase in its hydrophobicity. The results demonstrate that the ZSM-5/PDMS-based membranes show profound prospects for separating levulinic acid aqueous solution.     

复合体系下磷酸和硫酸的萃取动力学

为了深入了解萃取过程的机理和动力学特征,采用了恒界面池法研究了复合体系下磷酸和硫酸的萃取动力学,分别考察了比界面积、初始水相中磷酸浓度、初始水相中硫酸浓度对磷酸、硫酸萃取速率的影响,并提出了60℃下硫酸-磷酸复合体系中萃取磷酸和硫酸的动力学方程。实验结果表明:磷酸和硫酸的萃取速率随着比界面积增大而减小,随着初始水相中磷酸浓度的升高而逐步增加;初始水相中硫酸浓度的增大也有利于提高磷酸和硫酸的萃取速率。并研究了在60℃硫酸-磷酸复合体系中,磷酸和硫酸的萃取动力学方程,并用工业原料磷酸对萃取动力学进行了验证,表明拟合所得的方程计算的磷酸和硫酸萃取速率和实际测得的值相近。     

采用不同载体的中空纤维更新液膜Cu(Ⅱ)传质的研究(英文)

The extraction ability of organophosphorus extractant D2EHPA (di-2-ethylhexyl phosphoric acid) and hydroximic extractant Lix984N are investigated by the extraction equilibrium experiments. Effects of carrier concentration and organic/aqueous volume ratio on the mass transfer of hollow fiber renewal liquid membrane (HFRLM) are studied. Results show that, in the extracting process, kerosene and n-heptane are more suitable than methyl-isobutyl ketone, butylacetate and benzene as the diluents of D2EHPA or Lix984N. The favorable feed pH is 4.4 for D2EHPA and 2.6 for Lix984N. The mass transfer flux of HFRLM increases with carrier concentration and finally reaches a plateau. The mass transfer flux and the overall transfer coefficient increase with the or-ganic/aqueous volume ratio, reach the maximum and then decrease.     

Separation of Zinc Ions from an Acidic Mine Drainage using a Stirred Transfer Cell–Type Emulsion Liquid Membrane Contactor

Abstract

This is a report on the separation and recovery of zinc ions from an acidic mine drainage using a stirred transfer cell‐type emulsion liquid membrane contactor. Di(2‐ethylhexyl) phosphoric acid was used as a highly selective carrier for the transport of zinc ions through the emulsified liquid membrane. A study was made of the effect on the extraction extent and initial extraction rate of the following variables: pH and initial metal concentration of the feed phase, carrier content in the organic solution, a stripping agent concentration in the receiving phase, and stirring speed in the transfer cell. The content of sulfuric acid as a stripping agent did not show in the studied range any significant influence on metal permeation through the SLM, although a minimum hydrogen ion concentration of 100 g/L is suggested in the internal aqueous solution to ensure an acidity gradient between both aqueous phases to promote the permeation of metal ions toward the strip liquor. Results show that using a pH of 4.0 in the feed acid solution, a concentration of 3% w/w_o of phosphoric carrier in the organic phase and a H₂SO₄ content of 100 g/L in the strip liquor, the extent and rate of extraction through the liquid membrane can be highly favored, pointing to the potential of this method for extracting heavy metals from many kinds of dilute aqueous solutions.     

PTFE中空纤维膜萃取烟酸工艺研究

以氢氧化钠溶液为萃取剂,采用PTFE中空纤维膜萃取料液中的烟酸,考察了料液相烟酸的初始浓度、料液相初始pH值、料液相与萃取相流量比、萃取剂的初始浓度对烟酸萃取率(η)的影响。结果表明,随着料液初始浓度增大,η增大,当烟酸浓度0.9 g/L时,η减小,但膜通量基本不变,即存在一个最大膜通量,此时烟酸浓度变化对传质无影响;烟酸料液存在一个最佳pH值为4~5;萃取相氢氧化钠浓度增大,η增大;存在一个最佳相流量比(Q料/Q萃)为2.1;温度升高有利于膜萃取。     

PTFE中空纤维膜萃取苯甲酸工艺研究

以氢氧化钠溶液为萃取剂,采用PTFE中空纤维膜萃取料液中的苯甲酸,考察了料液相苯甲酸的初始浓度、料液相初始pH、料液相与萃取相流量比、萃取剂的初始浓度对苯甲酸萃取率(η)的影响。结果表明,随着料液初始浓度增大,η增大,当苯甲酸浓度1 g/L时,η减小,但膜通量基本不变,即存在一个最大膜通量,此时苯甲酸浓度变化对传质无影响;料液的pH值下降,η增大;萃取相氢氧化钠浓度增大,η增大;存在一个最佳相流量比(Q料/Q萃)为1.8。另外,温度升高有利于膜萃取。