Separation of a C_(3)H_(6)/C_(2)H_(4) mixture using Pebax^(■) 2533/PEG600 blend membranes

In industry, ethylene(C_(2)H_(4))/propylene(C_(3)H_(6)) separations are usually performed by a cryogenic process,which is energy intensive. Membrane separation technology is an alternative separation process that saves energy and is efficient. In this study, blend membranes were prepared by doping polyethylene glycol(PEG600) into a poly(ether-block-amide)(Pebax^(■) 2533) matrix and were used to separate the C_(2)H_(4)/C_(3)H_(6) mixture. The PEG 600 and Pebax^(■) 2533 polymers have good compatibility because they share hydrogen bonds. The addition of PEG600 is conducive to the hydrophilicity and the free volume of blend membranes, and it is also conducive to the solubility of C_(2)H_(4) and C_(3)H_(6) in the membranes, which improves the ability of the membranes to separate this gas pair. The Pebax^(■) 2533/PEG600 blend membrane with 15%(mass) PEG600 showed the highest separation performance in our investigated membranes, with a C_(3)H_(6)/C_(2)H_(4) selectivity of 8.9 and a C_(3)H_(6) permeability of 196 barrer(1 barrer = 1.33×10^(14)m^(3)(STP)·m·m^(-2)·s^(-1)·kPa^(-1)) at 238 K and 0.2 MPa, which is higher than that of the Pebax^(■) 2533/NaY-6%(mass) membrane(α_(C_(3)H_(6)/C_(2)H_(4)) =6.5, P_(C_(3)H_(6))=211 barrer) reported in our previous work. It is confirmed that incorporating PEG600 into the Pebax^(■) 2533 matrix to fabricate blend membranes is an efficient strategy for separating light olefins.

从南海红树内生真菌No.2533分离出新的异香豆素

Avicennin A, a new isocoumarin, was isolated from ethyl acetate extract of the mangrove endophytic fungus No.2533 from the South China Sea, its structure was elucidated using spectroscopic methods, primarily 2D NMR techniques.

PEBA2533/PEG600/CuNaY混合基质膜的制备及对C_(3)H_(6)/C_(2)H_(4)混合气的分离性能

以聚醚嵌段共聚酰胺(PEBA2533)和聚乙二醇(PEG600)共混物为有机基质、自制CuNaY分子筛为添加剂,利用溶液浇注法制备了PEBA2533/PEG600/CuNaY混合基质膜。采用扫描电子显微镜(SEM)、电感耦合等离子体发射光谱(ICP-OES)、衰减全反射傅里叶红外光谱(ATR-FTIR)及差示扫描量热(DSC)等分析方法对PEBA2533/PEG600/CuNaY混合基质膜进行表征,考察了CuNaY分子筛中Cu^(2+)交换度和含量对混合基质膜微结构和C_(3)H_(6)/C_(2)H_(4)混合气(摩尔比50/50)分离效果的影响。结果表明:CuNaY与PEBA2533/PEG600发生物理混合,并使有机基质链的移动性增强;CuNaY分子筛在混合基质膜中质量分数不大于6%时,其分布均一,与有机基质结合良好;极化能力更强的Cu^(2+)取代Na^(+)提高了混合基质膜的分离性能,Cu^(2+)交换度对C_(3)H_(6)选择性存在最佳值,低温有利于提高C_(3)H_(6)/C_(2)H_(4)选择性。在温度-35℃、压力0.2 MPa的条件下,添加CuNaY分子筛质量分数6%、Cu^(2+)交换度12.90%时制备的混合基质膜对C_(3)H_(6)/C_(2)H_(4)混合气的分离性能最佳,C_(3)H_(6)/C_(2)H_(4)选择性可达10.5,C_(3)H_(6)渗透系数为350 barrer。

添加物尺寸对ZIF-71/PEBA2533/PTFE膜结构及其分离性能的影响

以合成的颗粒尺寸为140 nm×450 nm×1μm的ZIF-71晶体为添加物、PEBA2533为有机基质,在PTFE载体上制备了一系列ZIF-71/PEBA2533/PTFE混合基质膜,并利用SEM、XRD和FT-IR等表征方法研究不同尺寸ZIF-71晶体及相应膜材料的形貌和结构,探究ZIF-71颗粒尺寸对膜材料结构的调节作用,同时将膜材料应用于苯酚-水溶液的分离。结果表明,小尺寸的ZIF-71晶体在膜中分布均匀且未发生团聚,但当添加物颗粒尺寸较大时会发生团聚现象。掺杂小尺寸ZIF-71颗粒可同时提高膜材料的苯酚通量和分离因子。

ZIF-93/Pebax 2533混合基质膜的制备及其CO_(2)/N_(2)分离性能研究

燃烧后CO_(2)捕获技术的发展对降低温室效应至关重要.CO_(2)选择性多孔骨架与高分子材料的结合有望开发高性能混合基质膜,用于CO_(2)/N_(2)混合气分离.考察了孔径在CO_(2)和N_(2)动力学直径之间的两种沸石咪唑酯骨架(ZIFs)材料,即ZIF-8和ZIF-93的吸附特性,结果表明ZIF-93由于骨架中醛基的存在具有CO_(2)优先吸附性能,其等摩尔CO_(2)/N_(2)混合气体的理论吸附选择性为25,远高于ZIF-8的6.5.通过旋涂法在PVDF载体上制备了具有非对称结构的ZIF-93/Pebax 2533混合基质膜.当ZIF-93负载量为12%时,ZIF-93/Pebax混合基质膜展示出最优的CO_(2)/N_(2)混合气分离性能,CO_(2)渗透率为47GPU,CO_(2)/N_(2)选择性为42.随着原料气中CO_(2)分压的增大,ZIF-93/Pebax混合基质膜的CO_(2)/N_(2)选择性基本不变,实现了高压下CO_(2)的高效分离.

泓格新品发布I-2533CS-60(CAN总线转单模光纤网桥)

I-2533CS-60模块为一种CAN通信接口与单模光纤通讯接口的网桥,能透过单模光纤链接两个CAN网络。为了解决CAN通信接口与光纤通信接口之间的信号转换问题。I-2533CS-60模块能够将CAN接口的信号,转换成光纤上的信号,并透过另外一个I-2533CS-60模块把数据再次还原成CAN接口的信号。不同于I-2532 CAN转光纤转换器,I-2533CS-60模块更具备了3个重要的特性:第一,它不会因为CAN网络的速率数值影响CAN数据的传输距离,无论用户使用多快的速率,它都能维持在光纤端最远60km。

基于ANSYS的MQ2533门座式起重机门架结构有限元分析

MQ2533门座式起重机是港口常用起重机械之一,本文利用SolidWorks和ANSYS软件进行其门架结构的三维建模以及有限元仿真分析。分析结果显示,圆筒与主梁连接处是局部应力最大区域,故在研发设计或日常维护保养时应重点关注并采取可能措施改善应力集中。

金士顿DDR2533内存

金士顿DDR2采用双速率技术，具有高性能和低功耗的特点。基于JEDECDDR2-533标准的金士顿DDR2533内存在单通道环境下即可提供4．3GBps的高速数据传输速度，而在双通道架构下。传输速度更可高达到84GBps。Intel的945PL芯片组支持最新的双核P4CPU，同时前端总线支持533MHz．可以把金士顿DDR2533内存的带宽优势发挥得淋漓尽致，两者搭配再加上双核处理器。毫无疑问将是追求性能的玩家挑战速度极限的有力武器。

PEBA/MCM-41杂化膜的制备及其对苯酚/水渗透汽化分离性能的研究

将介孔MCM-41分子筛填充到聚醚共聚乙酰胺(PEBA2533)中,制备PEBA/MCM-41杂化膜,用于分离稀水溶液中的苯酚.采用扫描电镜(SEM)、红外光谱(FT-IR)、热重分析(TGA)对膜的形貌、化学结构及热稳定性进行表征.考察MCM-41填充量对膜的吸附、扩散及渗透汽化分离性能的影响.结果表明:填充MCM-41使膜溶胀性能及扩散分离因子增大,溶胀度提高43%;随MCM-41填充量的增加,渗透通量增大,分离因子基本不变;当填充质量分数达到4%时,膜的分离效果最佳,苯酚通量提高21%.苯酚、水的扩散系数结果证实,填充MCM-41使分子在膜中的扩散速率增大.当原料液浓度增大时,通量增大,分离因子降低;通量、分离因子均随温度升高而增大.

PEBA渗透汽化膜用于分离回收稀水溶液中邻甲酚

考察了PEBA2533渗透汽化膜分离稀水溶液中邻甲酚的性能,并运用渗透汽化-分级冷凝工艺回收高纯度邻甲酚晶体。采用扫描电子显微镜对PEBA2533膜的表面及断面进行表征,通过膜的溶胀实验考察了PEBA2533膜对邻甲酚的吸附性能,考察了在不同原料质量浓度及原料液温度时PEBA2533膜对邻甲酚的分离性能。结果表明:随着原料液浓度增大,邻甲酚的通量不断增大;在原料液质量浓度范围2 000~7 000mg/L内,分离因子处于较高的范围(59~105).随着原料液温度升高,邻甲酚与水的通量均明显增大,同时分离因子也逐渐增大;当原料液质量浓度与温度为7 000mg/L,70℃时,邻甲酚晶体通量高达295.9g/(m^2·h),纯度为99.9%.

基于光纤光栅传感技术的门座式起重机SHM实施

结构健康监测(SHM)技术能在线实时监测结构健康情况、切实提高设备安全性能而日益引起人们的关注。将光纤光栅传感技术引入起重机SHM中,以一台MQ2533门座式起重机为试点,以有限元方法得出结构应力集中点作为传感器布点依据。采用32个光纤光栅传感器,通过光路复用成11路传感通道进行实时应变数据的采集。针对光纤光栅传感器温度和应变的交叉敏感问题,推导出光纤光栅温度式传感器和应变式传感器的一次线性拟合算法。利用该算法编写结构健康监测与安全预警软件平台。通过有限元计算得到关键点和重要点能够承受的最大应力,并给予一定的余量,计算出了各个关键点的预警值和报警值。经过半年多的运行,表明所开发的基于光纤光栅传感技术的门座式起重机结构健康监测系统能较好地实时在线监测起重机的结构状况,在发生危险前能发出预警信息。

氟化改性ZIF-8-90杂化膜的制备及其渗透汽化脱醇研究

有机-无机杂化膜是目前膜分离研究的热点,但是有机基体-无机粒子之间的界面缺陷是目前面临的重要问题.使用五氟丙胺改性ZIF-8-90粒子(F-ZIF-8-90),为了改善有机基体-ZIF-8-90之间的界面缺陷和提高ZIF-8-90的疏水性,红外谱图证实了五氟丙胺的成功接枝.以F-ZIF-8-90为填充料,制备了一系列Pebax 2533/F-ZIF-8-90杂化膜,考察了杂化膜的形貌结构、疏水性能和渗透汽化性能.研究结果表明,F-ZIF-8-90填充质量分数为5%时,70℃测试条件下杂化膜对质量分数5%乙醇水溶液的渗透通量最高可达201.5 g/(m^2·h),对应的分离因子为5.4.相比较纯Pebax 2355膜,渗透通量和分离因子分别提高了24.1%和151.9%,打破了渗透通量和分离因子相互制约的效应.

Polyetheramide Templated Synthesis of Monodisperse Mn_3O_4 Nanoparticles with Controlled Size and Study of the Electrochemical Properties

Monodisperse Mn3O4 nanoparticles were prepared solvothermally starting from manganese acetate by using polyether amide block copolymers(Pebax2533) as a template in isopropanol. The diameter of the nanoparticles in the range of 8.7 nm^31.5 nm was decreased with increase of Pebax2533 concentration.The electrochemical properties and application in supercapacitor of Mn3O4 nanoparticles were further studied.The results showed that smaller nanoparticles had a larger capacitance. The higher capacitance of 217.5 F/g at a current density of 0.5 A/g was obtained on 8.7 nm Mn3O4 nanoparticles. The specific capacitance retention of 82% was maintained after 500 times of continuous charge-discharge cycles.

Effect of nano Al_(2)O_(3) addition on cycling performance of poly(ether block amide)based solid-state lithium metal batteries

A novel poly(ether block amide)(PEBA)based solid-state polymer electrolyte(SPE)was prepared using a casting method,in which 20wt%lithium(Li)bis-(trifluoromethanesulfonyl)imide(LiTFSI)and aluminum oxide(Al_(2)O_(3))nanoparticles were used as the Li salt and solid plasticizer,respectively.In the case of addition of 3wt%Al_(2)O_(3) nanoparticles,ion conductivity of the obtained PEBA 2533-20wt%LiTFSI-3wt%Al_(2)O_(3) SPE was 3.57×10^(−5) S cm^(−1) at 25°C.Furthermore,the Li symmetrical battery assembled with it showed excellent cycling stability(1000 h)at 0.1 mA cm^(−2).While,the assembled all-solid-state Li/PEBA 2533-20%LiTFSI-3wt%Al_(2)O_(3)/LiFePO 4(areal capacity:0.15 mAh cm^(−2))battery maintained 94.9%of the maximal capacity(133.9 mAh g^(−1@0.1) mA cm^(−2))at 60°C even after 650 cycles with a superior average coulombic efficiency(CE)of 99.84%.By using X-ray photoelectron spectroscope(XPS),self-aggregation layer(SAL)of polyamide 12(PA12)of PEBA 2533 was discovered,which should contribute to promoting the robustness of lithium fluoride(LiF)enriched solid-electrolyte interphase(SEI)layer.In addition,it is considered that the state of interface between SPE and cathode should be the cause of voltage polarization of the full cell.

无线传感器网络在蔬菜大棚中的应用

无线传感器网络采用ZigBee技术,协议栈使用TI的Z-Stack,网络拓扑结构为树形,文章给出了系统设计方案,画出了传感器节点和协调节点的硬件框图,并开发出PC机上的管理软件。