Separation Stability(分离稳定性)研究综述
Separation Stability 分离稳定性 - During repeated cycling separation, the slice exhibited excellent separation stability. [1] Notably, the ILs can be locked in the micropores by a facile high surface tension solvent treatment process to improve their separation stability, as evidenced by a 7-day continuous test. [2] Conventional polymer filtration membranes suffer from low efficiency, easy fouling and serious degradation in harsh environments, due to its low chemical and separation stability. [3] This effective and promising method provides a valuable way to maintain the separation stability of TFC membrane in long-term operation. [4] At last, the separation stability experiments results show that the chabazite membrane prepared in this study owns excellent cycle stability and excellent separation performance. [5] The minimum loss in water flux of TiO2/NaA zeolite membrane was about 17% after continuous PV dehydration of 10 wt% water/DMAc mixture for 24 h at 363 K while that of bare NaA zeolite membrane was over 95% within 15 h, indicating the effective improvement on separation stability of NaA zeolite membrane for PV dehydration of DMAc. [6] Blind separation algorithm has the problem of separation stability in the condition of multiple convolution signals. [7] 25 nm), but also demonstrated excellent separation stability and strong resistance to acid/alkali. [8] After 30 separation cycles, no significant separation efficiency loss was observed, indicating excellent separation stability. [9] The experiment result shows that the method can improve the reconstruction precision and the separation stability of fault signal and can effectively extract fault characteristics and realize fault diagnosis. [10] More importantly, the PA-PIL membrane exhibited excellent antifouling and antimicrobial properties and long-term separation stability owing to the antibacterial activities of the imidazole structure in PIL and the smooth membrane surface. [11]在反复循环分离过程中,切片表现出优异的分离稳定性。 [1] 值得注意的是,ILs 可以通过简单的高表面张力溶剂处理工艺锁定在微孔中,以提高它们的分离稳定性,这一点可以通过 7 天的连续测试得到证明。 [2] 传统的聚合物过滤膜由于其化学稳定性和分离稳定性低,在恶劣环境中存在效率低、容易结垢和严重降解的问题。 [3] 这种有效且有前景的方法为保持TFC膜在长期运行中的分离稳定性提供了有价值的途径。 [4] 最后,分离稳定性实验结果表明,本研究制备的菱沸石膜具有优异的循环稳定性和分离性能。 [5] 将 10 wt% 的水/DMAc 混合物在 363 K 下连续 PV 脱水 24 小时后,TiO2/NaA 沸石膜的最小水通量损失约为 17%,而裸 NaA 沸石膜在 15 小时内损失超过 95%,表明NaA沸石膜对DMAc PV脱水的分离稳定性的有效提高。 [6] 盲分离算法在多个卷积信号的情况下存在分离稳定性问题。 [7] 25 nm),还表现出优异的分离稳定性和强的耐酸碱性能。 [8] 在 30 个分离循环后,没有观察到明显的分离效率损失,表明分离稳定性极佳。 [9] 实验结果表明,该方法能够提高故障信号的重构精度和分离稳定性,能够有效提取故障特征,实现故障诊断。 [10] 更重要的是,由于 PIL 中咪唑结构的抗菌活性和光滑的膜表面,PA-PIL 膜表现出优异的防污抗菌性能和长期分离稳定性。 [11]
Excellent Separation Stability
During repeated cycling separation, the slice exhibited excellent separation stability. [1] 25 nm), but also demonstrated excellent separation stability and strong resistance to acid/alkali. [2] After 30 separation cycles, no significant separation efficiency loss was observed, indicating excellent separation stability. [3]在反复循环分离过程中,切片表现出优异的分离稳定性。 [1] 25 nm),还表现出优异的分离稳定性和强的耐酸碱性能。 [2] 在 30 个分离循环后,没有观察到明显的分离效率损失,表明分离稳定性极佳。 [3]