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相关概念视频

Mechanism of heat transfer01:19

Mechanism of heat transfer

1.2K
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...
1.2K
Heating and Cooling Curves02:44

Heating and Cooling Curves

22.9K
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...
22.9K
Mechanisms of Heat Transfer II01:20

Mechanisms of Heat Transfer II

3.3K
In convection, thermal energy is carried by the large-scale flow of matter. Ocean currents and large-scale atmospheric circulation, which result from the buoyancy of warm air and water, transfer hot air from the tropics toward the poles and cold air from the poles toward the tropics. The Earth’s rotation interacts with those flows, causing the observed eastward flow of air in the temperate zones. Convection dominates heat transfer by air, and the amount of available space for the airflow...
3.3K
Mechanisms of Heat Transfer01:14

Mechanisms of Heat Transfer

359
Heat transfer between the human body and its environment occurs through four main mechanisms: conduction, convection, radiation, and evaporation.
Conduction, accounting for approximately 3% of body heat loss at rest, is the process of exchanging heat between molecules of two materials in direct contact. This can result in both heat loss and gain. For instance, when the body is submerged in water, which conducts heat 20 times more effectively than air, it can either lose or gain significant...
359
Maxwell-Boltzmann Distribution: Problem Solving01:20

Maxwell-Boltzmann Distribution: Problem Solving

1.6K
Individual molecules in a gas move in random directions, but a gas containing numerous molecules has a predictable distribution of molecular speeds, which is known as the Maxwell-Boltzmann distribution, f(v).
This distribution function f(v) is defined by saying that the expected number N (v1,v2) of particles with speeds between v1 and v2 is given by
1.6K
Thermal Stress01:09

Thermal Stress

2.5K
If the temperature of an object is changed while it is prevented from expanding or contracting, the object is subjected to stress. The stress is compressive if the object expands in the absence of constraint and tensile if it contracts. This stress resulting from temperature change is known as thermal stress. It can be quite large and can cause damage. To avoid this stress, engineers may design components so they can expand and contract freely. For instance, on highways, gaps are deliberately...
2.5K

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相关实验视频

Updated: Jul 16, 2025

Author Spotlight: Optimization of Airflow Velocities in Battery Cooling Systems for Enhanced Thermal Performance and Reduced Energy Consumption
10:36

Author Spotlight: Optimization of Airflow Velocities in Battery Cooling Systems for Enhanced Thermal Performance and Reduced Energy Consumption

Published on: November 3, 2023

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用机器学习方法和遗传算法设计的白天辐射冷却多层薄膜.

Siyuan Li, Meng An, Zhiheng Zheng

    Applied optics
    |September 14, 2023
    PubMed
    概括

    研究人员使用机器学习开发了一种新的白天辐射冷却发射器 (DRCE). 这种节能技术可以实现显著的冷却,将环境温度降低9°C以上,而不会消耗电力或排放气体.

    科学领域:

    • 材料科学 材料科学 材料科学
    • 纳米技术纳米技术
    • 可持续能源 可持续能源

    背景情况:

    • 白天辐射冷却为传统冷却方法提供了一种节能的替代方案.
    • 它在没有能源消耗或有害排放的情况下运行,与环境目标保持一致.
    • 开发有效的辐射冷却材料对于可持续的热管理至关重要.

    研究的目的:

    • 使用先进的计算方法设计和优化白天辐射冷却发射器 (DRCE).
    • 为了实现大气窗口中的高发射率和太阳光谱中的高反射率.
    • 展示一种基于机器学习的策略,用于设计辐射冷却材料.

    主要方法:

    • 利用机器学习方法 (MLM) 与材料设计的遗传算法相结合.
    • 在银基底上制造了一种由聚二甲基素,二氧化和化组成的DRCE.
    • 描述了优化的DRCE的光学特性 (发射率和反射率) 和冷却性能.

    主要成果:

    • 最佳的DRCE在大气窗口 (8-13μm) 中显示了94.43%的平均总半球发射率.
    • 在整个太阳辐射光谱 (0.3-2.5μm) 中实现了98.25%的平均总半球反射率.
    • 在900W/m2的太阳辐射下,在30°C的环境温度下,证明了140.38W/m2的净冷却功率和9.08°C的稳定状态温度降低.

    更多相关视频

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    Fabrication of Ultra-thin Color Films with Highly Absorbing Media Using Oblique Angle Deposition

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    Quantitative Visualization and Detection of Skin Cancer Using Dynamic Thermal Imaging
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    Quantitative Visualization and Detection of Skin Cancer Using Dynamic Thermal Imaging

    Published on: May 5, 2011

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    相关实验视频

    Last Updated: Jul 16, 2025

    Author Spotlight: Optimization of Airflow Velocities in Battery Cooling Systems for Enhanced Thermal Performance and Reduced Energy Consumption
    10:36

    Author Spotlight: Optimization of Airflow Velocities in Battery Cooling Systems for Enhanced Thermal Performance and Reduced Energy Consumption

    Published on: November 3, 2023

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    Fabrication of Ultra-thin Color Films with Highly Absorbing Media Using Oblique Angle Deposition
    06:30

    Fabrication of Ultra-thin Color Films with Highly Absorbing Media Using Oblique Angle Deposition

    Published on: August 29, 2017

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    Quantitative Visualization and Detection of Skin Cancer Using Dynamic Thermal Imaging
    06:08

    Quantitative Visualization and Detection of Skin Cancer Using Dynamic Thermal Imaging

    Published on: May 5, 2011

    16.9K

    结论:

    • 开发的DRCE有效地在白天实现了显著的被动冷却.
    • 由MLM驱动的设计策略为优化辐射冷却材料提供了一种强大的方法.
    • 这项技术为可持续冷却应用提供了一个有前途的解决方案.