siphonage

简明释义

英[ˈsaɪfənɪdʒ]美[ˈsaɪfənɪdʒ]

n. 虹吸作用；虹吸能力

英英释义

单词用法

同义词

反义词

例句

1.The paper introduces the principle and met hod of automatic control of siphonage device by means of LOGO! It stresses control circuit, software as well as programming.

介绍了采用logo ！控制虹吸排泥机的原理和方法。着重阐述了控制线路、件设计与编程。

2.The paper introduces the principle and met hod of automatic control of siphonage device by means of LOGO! It stresses control circuit, software as well as programming.

介绍了采用logo ！控制虹吸排泥机的原理和方法。着重阐述了控制线路、件设计与编程。

3.The absorbing sludge styles have two styles of siphonage and pumping.

吸泥方式分为虹吸、泵吸两种形式。

4.The influences of the water level and siphonage on the water volume to replace the cement fluids in grouting hole are analysed.

分析了钻孔水泥浆液灌注过程中孔内水位变化以及管路虹吸现象对替浆量的影响；

5.Two elements, siphonage temperature and siphonage time, that influence siphonage debinding for billets made by metal injection molding were investigated.

研究了温度、时间对金属注射成形坯料虹吸脱脂的影响，以及虹吸脱脂对后续热脱脂升温速率的影响。

6.The siphonage method is essential for draining fish tanks efficiently.

对于高效排水鱼缸，虹吸作用方法是必不可少的。

7.During the experiment, we observed how siphonage could create a continuous flow of liquid.

在实验过程中，我们观察到虹吸作用如何产生连续的液体流动。

8.In the lab, we often use siphonage to separate liquids based on their densities.

在实验室，我们经常使用虹吸作用根据液体的密度进行分离。

9.The process of water siphonage allows us to move fluids from one container to another without using a pump.

水的虹吸作用使我们能够在不使用泵的情况下将液体从一个容器转移到另一个容器。

10.The plumber explained that siphonage can lead to backflow in drainage systems if not properly managed.

水管工解释说，如果管理不当，虹吸作用可能导致排水系统中的回流。

作文

In the world of science and engineering, various processes and phenomena govern the behavior of fluids. One such intriguing concept is siphonage, which refers to the process of transferring liquid from one container to another using a tube or pipe, relying on the principles of gravity and atmospheric pressure. This method has been utilized for centuries, from ancient aqueducts to modern-day plumbing systems, showcasing its significance in both historical and contemporary contexts.The basic principle behind siphonage involves creating a difference in height between two containers. When one end of a tube is submerged in a liquid and the other end is placed lower than the first container, gravity pulls the liquid down through the tube. As the liquid flows out of the first container, the pressure difference created allows more liquid to be drawn up into the tube, continuing the flow until the levels equalize or the source container is empty.Understanding siphonage is essential not only for practical applications but also for educational purposes. For instance, in a classroom setting, teachers can demonstrate this phenomenon using simple materials like a clear plastic tube and water. Students can observe how the liquid moves and discuss the forces at play, including gravity and atmospheric pressure. Such experiments can make learning about fluid dynamics engaging and interactive.Moreover, siphonage plays a vital role in various industries. In agriculture, it is used for irrigation systems, allowing water to flow from a higher reservoir to fields without the need for pumps. In laboratories, scientists often use siphons to transfer liquids without disturbing the contents of the original container, ensuring that samples remain uncontaminated. Additionally, in aquariums, siphoning is employed to remove debris from the substrate, maintaining a healthy environment for aquatic life.However, while siphonage is a useful technique, it is essential to understand its limitations. For example, if the tube is too long or there are bends that disrupt the flow, the siphoning process may fail. Furthermore, if air enters the system, it can break the continuous flow, causing the siphon to stop working. Therefore, mastering the technique of siphonage requires knowledge of fluid dynamics and careful consideration of the setup.In conclusion, siphonage is a fascinating and practical process that illustrates the principles of fluid mechanics. Its applications range from everyday tasks to specialized industrial processes, making it an essential concept to understand. By exploring siphonage, we not only appreciate the beauty of science but also enhance our problem-solving skills in real-world scenarios. Whether in a laboratory, a farm, or even in our homes, the ability to utilize siphonage effectively can lead to innovative solutions and improved efficiency in managing liquids. As we continue to explore the intricacies of fluid dynamics, siphonage will undoubtedly remain a key topic of interest and application in various fields.

在科学和工程的世界中，各种过程和现象支配着流体的行为。其中一个引人入胜的概念是siphonage，它指的是通过管子或管道将液体从一个容器转移到另一个容器的过程，依赖于重力和大气压力的原理。这种方法已经被使用了几个世纪，从古代的引水道到现代的管道系统，展示了它在历史和当代背景中的重要性。siphonage背后的基本原理涉及在两个容器之间创造高度差。当管子的一个端口浸入液体中，而另一个端口放置在第一个容器下方时，重力会将液体通过管道向下拉。当液体从第一个容器流出时，产生的压力差使得更多液体被吸入管中，继续流动直到液位平衡或源容器为空。理解siphonage不仅对实际应用至关重要，还对教育目的有帮助。例如，在课堂上，教师可以使用简单的材料如透明塑料管和水来演示这一现象。学生可以观察液体如何移动，并讨论其中的力量，包括重力和大气压力。这样的实验可以使学习流体动力学变得生动和互动。此外，siphonage在各个行业中扮演着重要角色。在农业中，它用于灌溉系统，允许水从较高的水库流向田地，而不需要泵。在实验室中，科学家们常常使用虹吸管在不扰动原容器内容物的情况下转移液体，确保样本保持无污染。此外，在水族馆中，虹吸用于去除底砂上的污垢，维护水生生物的健康环境。然而，虽然siphonage是一种有用的技术，但理解其局限性也至关重要。例如，如果管子太长或有弯曲导致流动中断，则虹吸过程可能失败。此外，如果空气进入系统，它可能会打破连续流动，导致虹吸停止工作。因此，掌握siphonage的技巧需要流体动力学的知识和对设置的仔细考虑。总之，siphonage是一个迷人且实用的过程，展示了流体力学的原理。它的应用范围从日常任务到专业工业过程，使其成为一个重要的概念。通过探索siphonage，我们不仅欣赏科学的美丽，还提高了我们在现实世界场景中的解决问题的能力。无论是在实验室、农场，还是在我们的家中，有效利用siphonage的能力都能带来创新的解决方案和更高的液体管理效率。随着我们继续探索流体动力学的复杂性，siphonage无疑将继续成为各个领域的一个关键话题和应用。