radiation loss

简明释义

辐射损失

英英释义

例句

1.The engineers calculated the total energy output of the reactor, taking into account the radiation loss (辐射损失) during operation.

工程师们计算了反应堆的总能量输出，考虑到运行过程中发生的辐射损失（辐射损失）。

2.During the experiment, we observed significant radiation loss (辐射损失) that affected the results.

在实验过程中，我们观察到显著的辐射损失（辐射损失），这影响了结果。

3.To improve efficiency, the team focused on minimizing radiation loss (辐射损失) in the thermal insulation design.

为了提高效率，团队专注于在热绝缘设计中最小化辐射损失（辐射损失）。

4.The research paper discusses various methods to reduce radiation loss (辐射损失) in solar panels.

这篇研究论文讨论了减少太阳能电池板中辐射损失（辐射损失）的各种方法。

5.Proper shielding can help minimize radiation loss (辐射损失) in nuclear facilities.

适当的屏蔽可以帮助最小化核设施中的辐射损失（辐射损失）。

作文

In the realm of physics and engineering, the concept of radiation loss plays a crucial role in understanding how energy is transferred and dissipated in various systems. Radiation loss refers to the energy that is lost as electromagnetic radiation when an object emits energy in the form of light or heat. This phenomenon is particularly significant in applications such as telecommunications, thermal management, and even in the design of buildings. One of the most common examples of radiation loss can be seen in electrical devices. For instance, when a computer or any electronic device operates, it generates heat. Some of this heat is lost to the environment through radiation loss, which can affect the efficiency and performance of the device. Engineers must consider this energy loss when designing cooling systems to ensure that devices do not overheat and continue to function optimally.In the field of telecommunications, radiation loss is a critical factor in the design of antennas and transmission lines. When signals are transmitted through these mediums, some energy is inevitably lost as radiation loss. This loss can lead to reduced signal strength and quality, which is why engineers work diligently to minimize it. By optimizing antenna designs and using materials that reduce radiation loss, they can enhance communication systems' performance, making them more efficient and reliable.Furthermore, radiation loss is also a concern in the construction of buildings. Architects and engineers strive to create structures that are energy-efficient, and understanding radiation loss is essential in this process. For example, during the winter months, buildings lose heat through radiation loss, which can lead to increased heating costs. To combat this, modern buildings often incorporate insulation materials and design strategies that minimize heat loss, thereby improving energy efficiency.The implications of radiation loss extend beyond just engineering and architecture; they also have environmental impacts. In a world increasingly focused on sustainability, reducing radiation loss contributes to lower energy consumption and decreased greenhouse gas emissions. By improving the efficiency of our devices, communication systems, and buildings, we can mitigate our environmental footprint and promote a more sustainable future.In conclusion, radiation loss is an important concept that permeates various fields, from electronics to architecture. Understanding and addressing radiation loss allows engineers and designers to create more efficient systems and structures, ultimately leading to enhanced performance and reduced environmental impact. As technology continues to advance, the need to manage radiation loss will remain a critical consideration for innovators aiming to push the boundaries of efficiency and sustainability.

在物理和工程领域，辐射损失的概念在理解能量如何在各种系统中传递和耗散方面发挥着至关重要的作用。辐射损失是指当物体以光或热的形式发出能量时，作为电磁辐射而损失的能量。这种现象在电信、热管理甚至建筑设计等应用中尤为重要。辐射损失的一个常见例子可以在电子设备中看到。例如，当计算机或任何电子设备运行时，它会产生热量。其中一部分热量通过辐射损失散失到环境中，这可能会影响设备的效率和性能。工程师在设计冷却系统时必须考虑这种能量损失，以确保设备不会过热并继续正常工作。在电信领域，辐射损失是天线和传输线设计中的关键因素。当信号通过这些媒介传输时，某些能量不可避免地作为辐射损失而损失。这种损失可能导致信号强度和质量降低，这就是为什么工程师努力将其最小化的原因。通过优化天线设计和使用减少辐射损失的材料，他们可以增强通信系统的性能，使其更高效、更可靠。此外，辐射损失在建筑物的建设中也是一个关注点。建筑师和工程师努力创造节能的结构，而理解辐射损失在这个过程中至关重要。例如，在冬季，建筑物通过辐射损失失去热量，这可能导致取暖成本增加。为了应对这一问题，现代建筑通常采用绝缘材料和设计策略，以最小化热量损失，从而提高能效。辐射损失的影响不仅仅局限于工程和建筑；它们还具有环境影响。在一个日益关注可持续发展的世界中，减少辐射损失有助于降低能源消耗和温室气体排放。通过提高我们设备、通信系统和建筑物的效率，我们可以减轻环境足迹，促进一个更加可持续的未来。总之，辐射损失是一个重要概念，渗透到各个领域，从电子学到建筑学。理解和解决辐射损失使工程师和设计师能够创建更高效的系统和结构，从而最终提高性能并减少环境影响。随着技术的不断进步，管理辐射损失的需求将始终是创新者推动效率和可持续性边界的重要考虑因素。