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贝壳中维界面的亲疏水特征
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作者 王日泽 高若何 +1 位作者 俸鑫 张刚生 《广东海洋大学学报》 CAS 2020年第1期111-115,共5页
【目的】从亲疏水特征的角度对贝壳各层次结构中的界面进行分析探讨。【方法】采用接触角测量仪对贝壳的中维界面、无机文石及无机方解石进行水接触角测量。【结果】贝壳内表面的水接触角普遍大于90°,其中最大值为113°,最小值... 【目的】从亲疏水特征的角度对贝壳各层次结构中的界面进行分析探讨。【方法】采用接触角测量仪对贝壳的中维界面、无机文石及无机方解石进行水接触角测量。【结果】贝壳内表面的水接触角普遍大于90°,其中最大值为113°,最小值为91°;贝壳表壳层内表面边缘位置的水接触角平均值为67°,内部位置的水接触角平均值为112°;无机文石及无机方解石平整表面的水接触角均小于90°,其平均值分别为50°、49°。【结论】贝壳内表面具有疏水性,即有机质层具有疏水性;由于具有亲水特征的文石及方解石为贝壳矿物的主要成分,说明贝壳矿物结构具有亲水性;贝壳表壳层内表面边缘呈现亲水特征,内部呈现疏水特征。 展开更多
关键词 贝壳 中维界面 亲水性 疏水性 接触角
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CO2/CH4 separation using inside coated thin film composite hollow fiber membranes prepared by interfacial polymerization 被引量:4
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作者 Eun-Sung Jo Xinghai An +3 位作者 Pravin G.Ingole Won-Kil Choi Yeong-Sung Park Hyung-Keun Lee 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2017年第3期278-287,共10页
Carbon dioxide(CO_2) is greenhouse gas which originates primarily as a main combustion product of biogas and landfill gas. To separate this gas, an inside coated thin film composite(TFC) hollow fiber membrane was deve... Carbon dioxide(CO_2) is greenhouse gas which originates primarily as a main combustion product of biogas and landfill gas. To separate this gas, an inside coated thin film composite(TFC) hollow fiber membrane was developed by interfacial polymerization between 1,3–cyclohexanebis–methylamine(CHMA) and trimesoyl chloride(TMC). ATR-FTIR, SEM and AFM were used to characterize the active thin layer formed inside the PSf hollow fiber. The separation behavior of the CHMA-TMC/PSf membrane was scrutinized by studying various effects like feed gas pressure and temperature. Furthermore, the influence of CHMA concentration and TMC concentration on membrane morphology and performance were investigated. As a result, it was found that mutually the CHMA concentration and TMC concentration play key roles in determining membrane morphology and performance. Moreover, the CHMA-TMC/PSf composite membrane showed good CO_2/CH_4 separation performance. For CO_2/CH_4 mixture gas(30/70 by volume) test, the membrane(PD1 prepared by CHMA 1.0% and TMC 0.5%) showed a CO_2 permeance of 25 GPU and the best CO_2/CH_4 selectivity of 28 at stage cut of 0.1. The high CO_2/CH_4 separation performance of CHMA-TMC/PSf thin film composite membrane was mostly accredited to the thin film thickness and the properties of binary amino groups. 展开更多
关键词 Thin-film composite hollow fiber membrane Interfacial polymerization CHMA/TMC CO2/CH4 separation
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