wetted surface area

简明释义

浸湿表面面积

英英释义

例句

1.In filtration processes, a larger wetted surface area 湿表面积 improves the flow rate of the liquid.

在过滤过程中，较大的wetted surface area 湿表面积可以改善液体的流速。

2.The wetted surface area 湿表面积 of the soil affects its ability to retain moisture.

土壤的wetted surface area 湿表面积影响其保持水分的能力。

3.The efficiency of the heat exchanger is largely dependent on the wetted surface area 湿表面积 available for heat transfer.

热交换器的效率在很大程度上取决于可用于热交换的wetted surface area 湿表面积。

4.In chemical reactors, maximizing the wetted surface area 湿表面积 can enhance reaction rates significantly.

在化学反应器中，最大化wetted surface area 湿表面积可以显著提高反应速率。

5.The design of the spray nozzle aims to increase the wetted surface area 湿表面积 for better coating quality.

喷嘴的设计旨在增加wetted surface area 湿表面积，以提高涂层质量。

作文

The concept of wetted surface area is crucial in various fields, including engineering, environmental science, and fluid dynamics. It refers to the total area of a surface that is in contact with a liquid. Understanding this concept can lead to better designs and more efficient systems, particularly when dealing with processes involving fluids. For instance, in chemical engineering, the wetted surface area plays a significant role in determining the rate of mass transfer and heat exchange between the liquid and solid phases. This is vital for reactions that occur at the interface of these phases, such as in reactors or absorption columns.In environmental science, the wetted surface area can influence the behavior of pollutants in water bodies. When a substance spills into a river or lake, the total area that the liquid interacts with can affect how quickly it disperses and how much is absorbed by the surrounding environment. A larger wetted surface area means that the contaminant has more opportunity to interact with the water, potentially leading to faster dilution but also more extensive ecological impact.Moreover, in the field of hydrology, the wetted surface area is important for understanding how water interacts with soil and vegetation. For example, during rainfall, the amount of surface area that becomes wet can determine how much water infiltrates the ground versus how much runs off into nearby streams. This has implications for flood management and agricultural practices, as land with a higher wetted surface area may retain more moisture, benefiting crops while reducing runoff.The design of equipment such as heat exchangers also heavily relies on the principles of wetted surface area. Engineers must calculate the appropriate wetted surface area to ensure efficient heat transfer. If the area is too small, the heat exchange process will be inefficient, leading to increased energy consumption and operational costs. Conversely, if the area is too large, it could result in unnecessary material costs and complexity in the system.In summary, the term wetted surface area encompasses a variety of applications across multiple disciplines. Its significance cannot be overstated, as it affects everything from environmental pollution to the efficiency of industrial processes. By grasping the implications of wetted surface area, professionals can make informed decisions that enhance performance, reduce waste, and protect our natural resources. As we continue to face challenges related to resource management and environmental sustainability, understanding concepts like wetted surface area will be increasingly important for developing innovative solutions.

“湿润表面积”这一概念在工程、环境科学和流体动力学等多个领域至关重要。它指的是与液体接触的表面的总面积。理解这个概念可以促成更好的设计和更高效的系统，特别是在处理涉及流体的过程时。例如，在化学工程中，“湿润表面积”在确定液相和固相之间的质量传递和热交换速率方面起着重要作用。这对于发生在这些相界面上的反应至关重要，例如在反应器或吸收塔中。在环境科学中，“湿润表面积”可以影响水体中污染物的行为。当某种物质泄漏到河流或湖泊中时，液体与周围环境的接触总面积会影响其扩散速度以及被周围环境吸收的程度。较大的“湿润表面积”意味着污染物有更多机会与水相互作用，可能导致更快的稀释，但也可能造成更广泛的生态影响。此外，在水文学领域，“湿润表面积”对于理解水与土壤和植被的相互作用非常重要。例如，在降雨期间，变湿的表面积的大小可以决定多少水分渗入地下，以及多少水分流入附近的溪流。这对洪水管理和农业实践具有重要意义，因为具有较高“湿润表面积”的土地可能会保留更多水分，从而使作物受益，同时减少径流。设备设计，例如热交换器，也在很大程度上依赖于“湿润表面积”的原理。工程师必须计算适当的“湿润表面积”以确保高效的热传递。如果面积太小，热交换过程将效率低下，导致能源消耗增加和运营成本上升。相反，如果面积过大，则可能导致不必要的材料成本和系统复杂性。总之，“湿润表面积”这一术语涵盖了多个学科中的各种应用。它的重要性不容小觑，因为它影响从环境污染到工业过程效率的方方面面。通过掌握“湿润表面积”的含义，专业人员可以做出明智的决策，从而提高性能、减少浪费并保护我们的自然资源。随着我们继续面临资源管理和环境可持续性相关的挑战，理解像“湿润表面积”这样的概念对于开发创新解决方案将变得越来越重要。