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中文核心期刊

液滴结冰研究中的光学测量方法

ON THE OPTICAL MEASUREMENT TECHNIQUES FOR DROPLET ICING EXPERIMENTS

  • 摘要: 液滴结冰过程广泛存在于日常生活与技术应用当中, 理解液滴结冰过程对航空安全、风力发电和极地海洋装备设计等领域具有重要意义. 光学测量方法为研究液滴结冰过程提供了重要的非接触式测量手段. 旨在总结并评估液滴结冰研究中常用的光学测量方法, 为液滴结冰实验中光学测量手段的运用提供全面的视角和深入的剖析. 文章从液滴结冰过程中涉及到的关键物理过程与机理出发, 首先概述液滴结冰过程中的关键物理过程和机理, 随后分类介绍液滴结冰研究中常用的光学测量方法, 包括传统的光学显微观察、高速摄影技术、非相干光学方法、激光探测技术以及近年发展的先进光学技术, 介绍基本原理, 展示应用案例, 分析各自优缺点. 指出光学测量方法在可视化液滴结冰过程的微观细节、动力学和物理机制等方面发挥了重要作用, 但也面临一些挑战, 如时空分辨率、测量精度和干扰抑制等. 最后, 从提高光学测量的分辨率、灵敏度、准确性、全面性以及机器学习对光学测量技术的助推作用等角度, 展望了液滴结冰研究中光学测量方法的发展方向, 以期光学测量方法为相关领域的科学研究和工程应用提供更加有力的支持.

     

    Abstract: Droplet icing is a common phenomenon in various aspects of our daily life and industrial applications. Understanding the process of droplet icing is of great importance in fields such as aviation safety, wind power generation, and the design of polar marine equipment. Optical measurement methods provide an important and non-contact approach for investigating the process of droplet icing. This review aims to comprehensively summarize and evaluate commonly employed optical measurement methods in droplet icing research. By providing an in-depth analysis and comprehensive perspective, it seeks to enhance our understanding of optical measurement techniques in droplet icing experiments. The review begins by summarizing the key physical processes and mechanisms involved in droplet icing, emphasizing their importance in studying this phenomenon. It subsequently classifies and introduces commonly utilized optical measurement methods in droplet icing research. These methods include traditional optical microscopy, high-speed photography, incoherent optics, laser detection techniques, and advanced optical technologies that have emerged in recent years. By analyzing the principles, advantages, disadvantages, and application cases of each method, we point out that optical measurement methods play a crucial role in visualizing and revealing the microscopic details, dynamic processes, and underlying mechanisms of droplet icing. However, this review also acknowledges the challenges faced by these methods, such as limitations in spatiotemporal resolution, measurement accuracy, and interference suppression. With the hope that optical measurement methods can provide more powerful support for researches and applications in related fields, the review also identifies areas for improvement and discusses potential advancements to enhance the capabilities of optical measurement techniques. It discusses potential strategies for improving resolution, sensitivity, accuracy, and comprehensiveness of optical measurements. Additionally, it also explores the potential integration of machine learning to enhance optical measurement technology. The ultimate goal is to facilitate scientific research and engineering applications in fields impacted by droplet icing through the continued development and utilization of optical measurement methods.

     

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