suction passage

简明释义

吸入道

英英释义

例句

1.In the vacuum cleaner, the suction passage 吸引通道 is designed to maximize airflow and dirt collection.

在吸尘器中，suction passage 吸引通道旨在最大化气流和污垢收集。

2.The dentist explained how the suction passage 吸引通道 helps remove excess saliva during procedures.

牙医解释了如何通过suction passage 吸引通道在治疗过程中去除多余的唾液。

3.The aquarium filter uses a suction passage 吸引通道 to draw water through the filtration system.

水族箱过滤器使用suction passage 吸引通道将水抽入过滤系统。

4.The engineer designed a new suction passage 吸引通道 to improve the efficiency of the air conditioning system.

工程师设计了一种新的suction passage 吸引通道以提高空调系统的效率。

5.During the surgery, the nurse ensured that the suction passage 吸引通道 was clear for effective fluid removal.

在手术过程中，护士确保suction passage 吸引通道畅通，以有效去除液体。

作文

In the realm of engineering and fluid dynamics, the term suction passage refers to a specific channel or conduit designed to facilitate the movement of fluids, typically air or water, into a system. This concept is crucial in various applications, including HVAC systems, pumps, and even natural ecosystems. Understanding how a suction passage operates can help engineers design more efficient systems that optimize fluid flow and minimize energy consumption.To illustrate the importance of a suction passage, consider the example of a centrifugal pump. In this context, the suction passage is the inlet through which fluid enters the pump. The design of this passage is critical; if it is too narrow, it can create turbulence and reduce the efficiency of the pump. Conversely, if it is too wide, it may not provide the necessary suction pressure to draw the fluid into the pump effectively. Therefore, engineers must carefully calculate the dimensions and shape of the suction passage to ensure optimal performance.Moreover, the material used to construct the suction passage also plays a significant role. For instance, in environments where corrosive fluids are present, materials that resist corrosion must be chosen to prevent degradation over time. This consideration is essential not only for the longevity of the equipment but also for maintaining the integrity of the fluid being transported.In addition to mechanical systems, the concept of a suction passage can also be observed in nature. For example, certain plants have evolved structures that mimic the principles of a suction passage to draw in nutrients from the soil. These natural adaptations demonstrate the fundamental importance of fluid dynamics in both engineered systems and biological processes.Furthermore, advancements in technology have led to the development of sophisticated simulations and modeling techniques that allow engineers to analyze the flow characteristics within a suction passage. By utilizing computational fluid dynamics (CFD), engineers can visualize how fluids behave as they enter a suction passage and make necessary adjustments to improve performance. This technological integration has revolutionized the way we approach fluid mechanics and has led to more innovative solutions in various fields.In conclusion, the study of suction passage is vital in understanding fluid dynamics and its applications in both engineering and nature. From designing efficient pumps to exploring natural adaptations, the principles governing suction passage play a pivotal role in ensuring optimal fluid flow. As we continue to advance our knowledge and technology, the significance of mastering concepts like suction passage will only grow, paving the way for more efficient and sustainable systems in the future.

在工程和流体动力学领域，术语suction passage指的是一个特定的通道或导管，旨在促进流体（通常是空气或水）进入系统的运动。这个概念在多种应用中至关重要，包括暖通空调系统、泵甚至自然生态系统。理解suction passage的运作方式可以帮助工程师设计更高效的系统，从而优化流体流动并最小化能耗。为了说明suction passage的重要性，可以考虑离心泵的例子。在这种情况下，suction passage是流体进入泵的入口。这个通道的设计至关重要；如果它太窄，就会产生湍流，降低泵的效率。相反，如果它太宽，可能无法提供必要的吸力来有效地将流体抽入泵中。因此，工程师必须仔细计算suction passage的尺寸和形状，以确保最佳性能。此外，用于构建suction passage的材料也起着重要作用。例如，在存在腐蚀性流体的环境中，必须选择耐腐蚀的材料，以防止随时间的推移而降解。这一考虑不仅对设备的使用寿命至关重要，而且对维持所运输流体的完整性也是如此。除了机械系统外，suction passage的概念也可以在自然界中观察到。例如，某些植物进化出了模仿suction passage原理的结构，以从土壤中吸取养分。这些自然适应展示了流体动力学在工程系统和生物过程中的基本重要性。此外，技术的进步导致开发出复杂的模拟和建模技术，使工程师能够分析suction passage内的流动特性。通过利用计算流体动力学（CFD），工程师可以可视化流体在进入suction passage时的行为，并进行必要的调整以改善性能。这种技术整合彻底改变了我们对流体力学的处理方式，并导致各个领域更具创新性的解决方案。总之，对suction passage的研究对于理解流体动力学及其在工程和自然中的应用至关重要。从设计高效的泵到探索自然适应，支配suction passage的原则在确保最佳流体流动方面发挥着关键作用。随着我们不断推进知识和技术，掌握像suction passage这样的概念的重要性只会增加，为未来更高效、可持续的系统铺平道路。