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相关概念视频

Excess Pressure Inside a Drop and a Bubble01:13

Excess Pressure Inside a Drop and a Bubble

1.7K
The shape of a small drop of liquid can be considered spherical, neglecting the effect of gravity. This drop can further be considered as two equal hemispherical drops put together due to surface tension. The forces acting on the spherical drop are due to the pressure of the liquid inside the drop, the pressure due to air outside the drop, and the force due to the surface tension acting on the two hemispherical drops.
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Free Jet01:14

Free Jet

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Free jets describe the flow of liquid exiting a reservoir through an opening into the atmosphere without resistance. The velocity (v) of the liquid jet is derived using Bernoulli's principle and expressed as:
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Heat Engines01:10

Heat Engines

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A heat engine is a device used to extract heat from a source and then convert it into mechanical work used for various applications. For example, a steam engine on an old-style train can produce the work needed for driving the train.
Whenever we consider heat engines (and associated devices such as refrigerators and heat pumps), we do not use the standard sign convention for heat and work. For convenience, we assume that the symbols Qh, Qc, and W represent only the amounts of heat transferred...
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Accelerating Fluids01:17

Accelerating Fluids

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When a fluid is in constant acceleration, the pressure and buoyant force equations are modified. Suppose a beaker is placed in an elevator accelerating upward with a constant acceleration, a. In the beaker, assume there is a thin cylinder of height h with an infinitesimal cross-sectional area, ΔS.
The motion of the liquid within this infinitesimal cylinder is considered to obtain the pressure difference. Three vertical forces act on this liquid:
1.1K
Vapor Pressure Lowering03:28

Vapor Pressure Lowering

27.1K
The equilibrium vapor pressure of a liquid is the pressure exerted by its gaseous phase when vaporization and condensation are occurring at equal rates:
 
Dissolving a nonvolatile substance in volatile liquid results in a lowering of the liquid’s vapor pressure. This phenomenon can be explained by considering the effect of added solute molecules on the liquid's vaporization and condensation processes. To vaporize, solvent molecules must be present at the surface of the solution....
27.1K
Internal Combustion Engine01:20

Internal Combustion Engine

1.4K
The internal combustion engine is a heat engine that uses the byproducts of combustion as the working fluid instead of using a heat transfer medium to transfer heat. The combustion is done in a way that produces high-pressure combustion products that can be expanded through a turbine or piston to create work. Internal combustion engines can again be categorized into three kinds: (1) spark ignition gasoline engines, most commonly used in automobiles, (2) compression ignition diesel engines that...
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相关实验视频

Updated: Jul 24, 2025

Glass-Based Devices to Generate Drops and Emulsions
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Glass-Based Devices to Generate Drops and Emulsions

Published on: April 5, 2022

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莱登弗罗斯特液滴喷气发动机是由气泡喷射喷气发动机.

Yukai Lin1, Xiaomin Wu1, Zhifeng Hu1

  • 1Key Laboratory for Thermal Science and Power Engineering of Ministry of Education, Department of Energy and Power Engineering, Tsinghua University, Beijing 100084, China.

Journal of colloid and interface science
|July 3, 2023
PubMed
概括
此摘要是机器生成的。

由于泡喷射,Leidenfrost 滴滴运动在沸状态下可以在水友表面表现出类似喷气发动机的排斥力. 这种由基质性质影响的现象,可以通过新模型进行预测.

关键词:
沸的制度 沸的制度这些泡就是泡.实力分析 实力分析莱登的水滴滴滴落在地上.排斥性运动是一种排斥性运动.

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相关实验视频

Last Updated: Jul 24, 2025

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08:45

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Cryogenic Liquid Jets for High Repetition Rate Discovery Science
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Visualization of High Speed Liquid Jet Impaction on a Moving Surface
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科学领域:

  • 流体动力学 流体动力学
  • 热传递是一种热传递.
  • 表面科学是一门科学.

背景情况:

  • 莱登弗罗斯特的滴滴运动在它的沸状态上得到了很好的研究.
  • 在各种沸模式,特别是泡生成中,滴滴的行为仍未得到充分研究.
  • 固体-液体界面上的气泡可以显著影响莱登弗罗斯特滴滴动态.

研究的目的:

  • 为了调查Leidenfrost的水滴运动在不同的沸状态.
  • 探索泡生成对滴滴动态的影响.
  • 为了识别和描述Leidenfrost滴滴行为中的新奇现象.

主要方法:

  • 使用具有温度梯度的水友性,水性和超水性基板.
  • 研究了各种流体类型,体积和速度的Leidenfrost水滴.
  • 记录了各种沸模式的滴滴行为,并在相位图中呈现了研究结果.

主要成果:

  • 观察到类似于喷气式发动机的莱登冰水滴在水友基底上的排斥运动.
  • 将排斥运动归因于核酸沸期间泡喷射的反向推力.
  • 证实这种现象在疏水性和超疏水性表面上不存在.
  • 开发了一种滴滴运动的预测模型,与实验数据进行验证.

结论:

  • 气泡喷射显著改变了Leidenfrost滴滴运动,使其能够在水友表面上自我排斥.
  • 基质特性 (水友性) 对于观察这种排斥现象至关重要.
  • 一个预测模型成功地捕获了各种条件中的复杂滴滴行为.