maximum permissible flux

简明释义

最大容许通量

英英释义

例句

1.In this experiment, we need to maintain the maximum permissible flux 最大允许通量 to avoid damaging the equipment.

在这个实验中，我们需要保持最大允许通量以避免损坏设备。

2.The engineers calculated the maximum permissible flux 最大允许通量 for the new pipeline to ensure safety.

工程师计算了新管道的最大允许通量以确保安全。

3.To comply with regulations, the facility must not exceed the maximum permissible flux 最大允许通量 set by the authorities.

为了遵守规定，该设施必须不超过当局设定的最大允许通量。

4.The maximum permissible flux 最大允许通量 for this reactor is crucial for its operation.

这个反应堆的最大允许通量对于其操作至关重要。

5.The team monitored the maximum permissible flux 最大允许通量 during the testing phase to ensure compliance.

在测试阶段，团队监测了最大允许通量以确保合规。

作文

In the realm of physics and engineering, the term maximum permissible flux refers to the highest amount of flow or transfer of a particular quantity that is allowed within a system without causing damage or failure. This concept is crucial in various fields, including electrical engineering, fluid dynamics, and environmental science. Understanding the maximum permissible flux is essential for designing systems that are both efficient and safe. For instance, in electrical engineering, the maximum permissible flux can relate to the flow of electric current through a conductor. If the current exceeds this limit, it can lead to overheating, which may cause insulation failure or even fire hazards. Therefore, engineers must calculate the maximum permissible flux for different materials and components to ensure that they operate within safe limits. Similarly, in fluid dynamics, the maximum permissible flux pertains to the flow rate of liquids or gases through pipes or channels. Exceeding this rate can result in pressure build-up, leading to ruptures or leaks. Engineers often use this concept when designing pipelines for oil, gas, and water distribution systems. By adhering to the maximum permissible flux, they can prevent catastrophic failures that could have severe environmental and economic consequences.Environmental scientists also utilize the concept of maximum permissible flux when assessing pollutant emissions from industrial facilities. Regulatory agencies often set limits on the maximum permissible flux of pollutants to protect air and water quality. Industries must monitor their emissions to ensure they do not exceed these limits, thereby minimizing their environmental impact. Moreover, the maximum permissible flux can vary depending on several factors, including the material properties, environmental conditions, and specific application requirements. For example, the maximum permissible flux for a plastic pipe might differ significantly from that of a metal pipe due to differences in strength and thermal conductivity. Hence, it is vital for engineers and scientists to accurately determine these limits based on empirical data and theoretical models.In conclusion, the concept of maximum permissible flux plays a critical role in ensuring the safety and efficiency of various systems across multiple disciplines. By understanding and applying this principle, professionals can design structures and processes that withstand operational demands while minimizing risks. As technology advances and new materials are developed, the parameters defining the maximum permissible flux will continue to evolve, highlighting the importance of ongoing research and innovation in this field. Ultimately, recognizing the significance of the maximum permissible flux not only enhances our technical capabilities but also reinforces our commitment to safety, sustainability, and responsible resource management in our increasingly complex world.

在物理和工程领域，术语最大允许通量指的是在系统中允许的特定数量的流动或转移的最高量，而不会导致损坏或故障。这个概念在电气工程、流体动力学和环境科学等多个领域都是至关重要的。理解最大允许通量对于设计高效且安全的系统至关重要。例如，在电气工程中，最大允许通量可以与导体中电流的流动相关。如果电流超过这个限制，就可能导致过热，从而引起绝缘失效甚至火灾隐患。因此，工程师必须计算不同材料和组件的最大允许通量，以确保它们在安全范围内运行。同样，在流体动力学中，最大允许通量涉及液体或气体通过管道或通道的流速。超过这个速度可能导致压力增大，从而导致破裂或泄漏。工程师在设计石油、天然气和水分配系统的管道时，通常会使用这一概念。通过遵守最大允许通量，他们可以防止可能对环境和经济造成严重后果的灾难性故障。环境科学家在评估工业设施的污染物排放时也利用最大允许通量的概念。监管机构通常会设定污染物的最大允许通量限制，以保护空气和水质。工业必须监测其排放，以确保不超过这些限制，从而最小化其对环境的影响。此外，最大允许通量可能因多种因素而异，包括材料特性、环境条件和具体应用要求。例如，塑料管的最大允许通量可能与金属管有显著不同，因为它们在强度和热导率方面存在差异。因此，工程师和科学家必须根据经验数据和理论模型准确确定这些限制。总之，最大允许通量的概念在确保各个学科系统的安全性和效率方面发挥着关键作用。通过理解和应用这一原则，专业人员可以设计出能够承受操作需求的结构和过程，同时最小化风险。随着技术的进步和新材料的发展，定义最大允许通量的参数将继续演变，这突显了在这一领域持续研究和创新的重要性。最终，认识到最大允许通量的重要性不仅提升了我们的技术能力，还增强了我们在日益复杂的世界中对安全、可持续性和负责任资源管理的承诺。