氩气条件下水和叔丁醇水溶液声解过程中 H2O2、H2 和气泡温度的评估：溶液温度和无机添加剂（NaCl 和 KI）的影响。

IF 8.7 1区化学 Q1 ACOUSTICS

Ultrasonics Sonochemistry Pub Date : 2024-11-07 DOI:10.1016/j.ultsonch.2024.107146

Yuki Nakata , Yoshiteru Mizukoshi , Kenji Okitsu

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引用次数: 0

摘要

在惰性气体下对水溶液进行超声溶解时形成的 H2O2 和 H2 的产率是了解超声空化气泡化学效应的代表性指标。本研究评估了在 Ar 下形成的 H2O2 和 H2 的产率与 NaCl 或 KI 浓度的函数关系。利用归一化技术对这些产率进行分析后证实，与 H2O2 的产率相比，H2 的产率与 Ar 溶解度的关系更为明显，这表明 H2 是了解水中空化气泡化学效应的更真实的探针。NaCl 与 KI 对氧化剂声化学形成的影响也进行了比较。在对正丁醇水溶液进行超声处理时，随着溶液温度和盐浓度的升高，H2 的产率和塌陷气泡达到的最高温度（气泡温度）均有所下降，这表明这些参数影响了与活性气泡数量（和/或大小）有关的量以及与气泡温度有关的质。

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Evaluation of H2O2, H2, and bubble temperature in the sonolysis of water and aqueous t-butanol solution under Ar: Effects of solution temperatures and inorganic additives of NaCl and KI

The yields of H₂O₂ and H₂ formed in the sonolysis of aqueous solution under noble gas are representative indexes for understanding the chemical effects of ultrasonic cavitation bubbles. In this study, the yields of H₂O₂ and H₂ formed under Ar were evaluated as a function of the concentration of NaCl or KI. When these yields were analyzed by using a normalization technique, it was confirmed that the yields of H₂ were more clearly related to Ar solubility than those of H₂O_2, suggesting that H₂ is a more real probe to understand the chemical effects of cavitation bubbles in water. The effects of NaCl on sonochemical formation of oxidants were also compared with those of KI. When aqueous t-butanol solution was sonicated, the yields of H₂ and the maximum temperature attained in a collapsing bubble (bubble temperature) decreased with increasing solution temperature and salt concentration, suggesting that these parameters affected the quantity related to the number (and/or size) of active bubbles as well as the quality related to the bubble temperatures.

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来源期刊

Ultrasonics Sonochemistry 化学-化学综合

CiteScore

15.80

自引率

11.90%

发文量

361

审稿时长

59 days

期刊介绍： Ultrasonics Sonochemistry stands as a premier international journal dedicated to the publication of high-quality research articles primarily focusing on chemical reactions and reactors induced by ultrasonic waves, known as sonochemistry. Beyond chemical reactions, the journal also welcomes contributions related to cavitation-induced events and processing, including sonoluminescence, and the transformation of materials on chemical, physical, and biological levels. Since its inception in 1994, Ultrasonics Sonochemistry has consistently maintained a top ranking in the "Acoustics" category, reflecting its esteemed reputation in the field. The journal publishes exceptional papers covering various areas of ultrasonics and sonochemistry. Its contributions are highly regarded by both academia and industry stakeholders, demonstrating its relevance and impact in advancing research and innovation.