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相关概念视频

Heating and Cooling Curves02:44

Heating and Cooling Curves

22.4K
When a substance—isolated from its environment—is subjected to heat changes, corresponding changes in temperature and phase of the substance is observed; this is graphically represented by heating and cooling curves.
For instance, the addition of heat raises the temperature of a solid; the amount of heat absorbed depends on the heat capacity of the solid (q = mcsolidΔT). According to thermochemistry, the relation between the amount of heat absorbed or released by a substance, q, and its...
22.4K
Phase Transitions: Melting and Freezing02:39

Phase Transitions: Melting and Freezing

12.2K
Heating a crystalline solid increases the average energy of its atoms, molecules, or ions, and the solid gets hotter. At some point, the added energy becomes large enough to partially overcome the forces holding the molecules or ions of the solid in their fixed positions, and the solid begins the process of transitioning to the liquid state or melting. At this point, the temperature of the solid stops rising, despite the continual input of heat, and it remains constant until all of the solid is...
12.2K
Recrystallization: Solid–Solution Equilibria01:10

Recrystallization: Solid–Solution Equilibria

1.0K
Recrystallization is a purification technique used to separate impurities from solid compounds. In this technique, no chemical reactions occur. Instead, it exploits physical properties only, specifically, the solubility differences between the desired compound and impurities, either at a single temperature or at different temperatures, and under other selected conditions. The solid-solution equilibrium (solubility equilibrium) of each component in the solution represents a binary phase...
1.0K
Mechanism of heat transfer01:19

Mechanism of heat transfer

1.1K
Understanding heat transfer mechanisms is essential for understanding how our bodies maintain balance in different environmental conditions. When the environment is thermoneutral, the body is in a state of balance, neither using nor releasing energy to maintain its core temperature. However, when the environment is not thermoneutral, the body employs four heat transfer mechanisms to maintain homeostasis: conduction, convection, evaporation, and radiation. These mechanisms facilitate heat...
1.1K
Isochoric and Isobaric Processes01:21

Isochoric and Isobaric Processes

3.3K
A thermodynamic process that occurs at constant volume is called an isochoric process. According to the first law of thermodynamics, heat supplied or removed from the system is partially utilized to perform work and change the internal energy of the system. However, in an isochoric process, the volume remains constant. Hence, the work done by the system is zero. Therefore, the exchange of heat changes the internal energy of the system only. 
Suppose 1000 g of water is heated from 40...
3.3K
Refrigerators and Heat Pumps01:07

Refrigerators and Heat Pumps

2.2K
Refrigerators or heat pumps are heat engines operating in a reverse direction. For a refrigerator, the focus is on removing heat from a specific area, whereas, for a heat pump, the focus is on dumping heat into one particular area. A refrigerator (or heat pump) absorbs heat Qc from the cold reservoir at Kelvin temperature Tc and discards heat Qh to the hot reservoir at Kelvin temperature Th, while work W is done on the engine’s working substance.
A household refrigerator removes heat from...
2.2K

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相关实验视频

Updated: May 27, 2025

Author Spotlight: Assembly and Operation of a Cooling Stage to Immobilize C. elegans on Their Culture Plates
08:23

Author Spotlight: Assembly and Operation of a Cooling Stage to Immobilize C. elegans on Their Culture Plates

Published on: May 5, 2023

2.6K

连接冷却的点

Lara Perren1, Maksym Yarema1

  • 1Institute for Electronics, Department of Information Technology and Electrical Engineering, ETH Zürich, Zürich, Switzerland.

Science (New York, N.Y.)
|February 20, 2025
PubMed
概括

半导体颗粒被融合在一起, 形成先进的热电冷却器. 这种方法提高了各种电子应用的冷却效率.

科学领域:

  • 材料科学
  • 固态物理
  • 热力学

背景情况:

  • 热电冷却器 (TEC) 提供无移动部件的固态冷却.
  • 传统的TEC制造方法在实现最佳的热电性能方面面临挑战.

研究的目的:

  • 研究半导体粒子的融合作为制造热电冷却器的新方法.
  • 评估通过粒子聚变产生的TEC的性能特征.

主要方法:

  • 半导体粒子的合成和特征.
  • 在受控条件下使用高温工艺化颗粒.
  • 测量了合材料的热电特性 (Seebeck系数,电导率,热导率).

主要成果:

  • 聚合的半导体粒子形成了一个密集,连贯的热电材料.
  • 制造的TEC显示出显著的冷却能力.
  • 与散装材料相比,优化的聚变参数带来了更好的热电性能.

结论:

  • 粒子聚变是制造高性能热电冷却器的可行和有效方法.
  • 这种技术为可扩展且具有成本效益的先进冷却设备提供了潜力.

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