Performances Enhancement(性能增强)研究综述
Performances Enhancement 性能增强 - To overcome these issues, an integrated configuration was developed for performances enhancement on simultaneous bioelectricity generation and wastewater treatment in single chamber up-flow membrane-less microbial fuel cell (UFML-MFC). [1] The performances enhancement of TiO2 nanoparticles modified composites was mainly attributed to the interfacial bonding improvement, demonstrated by the Cole–Cole curves of dynamic mechanical analysis and the morphological analysis of fracture surface, as well as the increased crystallinity revealed with differential scanning calorimetry measurements. [2] An assessment on the non-CMOS RFEH that includes the Schottky diode and Rectenna is also concisely described to analyze their contribution to RFEH’s performances enhancement. [3] In this chapter, usage of different types of membranes for FO desalination application and their performances enhancement by suitable modification has been discussed. [4] Therefore, the negative feedback is an effective and reliable method for performances enhancement of CCFM, and it has potential utilization on the oscillation systems with similar dynamic peculiarities for factor adjustment. [5]为了克服这些问题,开发了一种集成配置,用于在单室上流式无膜微生物燃料电池 (UFML-MFC) 中同时提高生物发电和废水处理的性能。 [1] TiO2 纳米粒子改性复合材料的性能增强主要归因于界面结合的改善,动态力学分析的 Cole-Cole 曲线和断面的形态分析表明,以及差示扫描量热法测量显示的结晶度增加。 [2] 还简明地描述了对包括肖特基二极管和矩形的非 CMOS RFEH 的评估,以分析它们对 RFEH 性能提升的贡献。 [3] 在本章中,讨论了不同类型的膜在 FO 脱盐应用中的用途以及通过适当的修改提高它们的性能。 [4] 因此,负反馈是提高CCFM性能的一种有效且可靠的方法,它在具有相似动态特性的振荡系统中具有潜在的应用价值,可用于因子调整。 [5]