siphonic
简明释义
adj. 水管的;虹吸管状的;虹吸作用的
英英释义
Relating to or resembling a siphon, which is a tube used to convey liquids from one container to another by the force of gravity. | 与虹吸管有关或类似,虹吸管是用于通过重力将液体从一个容器输送到另一个容器的管子。 |
单词用法
虹吸排水 | |
虹吸流动 | |
虹吸效应 | |
虹吸屋顶排水 | |
虹吸管 | |
虹吸排放 |
同义词
| 虹吸 | The siphon effect allows liquids to move from one container to another. | 虹吸效应允许液体从一个容器移动到另一个容器。 | |
| 管状的 | 该设备的管状设计增强了流体流动。 | ||
| 导管 | A conduit is often used to channel water through a drainage system. | 导管通常用于通过排水系统引导水。 |
反义词
例句
1.This article discusses the problems, theory analysis and solve measures which maybe take place when the siphonic drain mud machine runs.
本文讨论了虹吸排泥机运行中出现的问题,理论分析及解决措施。
2.Tailing pond of Malanzhuang Iron Ore Mine was as the example to introduce the constitute of the siphonic drainage system and the construction technique of siphonic well in tailing sand.
以马兰庄铁矿尾矿库为例,对尾矿库工程中虹吸排渗系统的组成和尾矿砂中虹吸井的施工方法进行了简要介绍。
3.Tailing pond of Malanzhuang Iron Ore Mine was as the example to introduce the constitute of the siphonic drainage system and the construction technique of siphonic well in tailing sand.
以马兰庄铁矿尾矿库为例,对尾矿库工程中虹吸排渗系统的组成和尾矿砂中虹吸井的施工方法进行了简要介绍。
4.Engineers designed a siphonic 虹吸的 pipe system for efficient rainwater harvesting.
工程师们设计了一种siphonic 虹吸的管道系统,以高效收集雨水。
5.The siphonic 虹吸的 principle is often applied in plumbing systems to improve flow rates.
在管道系统中,通常应用siphonic 虹吸的原理以提高流速。
6.The siphonic 虹吸的 drainage system effectively removes excess water from the roof.
这个siphonic 虹吸的排水系统有效地将屋顶上的多余水分排走。
7.The siphonic 虹吸的 action helps in maintaining the water level in the aquarium.
这种siphonic 虹吸的作用有助于维持水族箱中的水位。
8.In the laboratory, we used a siphonic 虹吸的 method to transfer liquids without spilling.
在实验室中,我们使用了一种siphonic 虹吸的方法来转移液体,以避免洒出。
作文
In the realm of engineering and fluid dynamics, the term siphonic refers to a specific mechanism that utilizes the principles of siphoning to move liquids from one location to another. A siphon is a tube or pipe that allows liquid to flow from a higher elevation to a lower elevation, relying on gravity and atmospheric pressure. The siphonic system is particularly advantageous in various applications, such as drainage systems, irrigation, and even in some plumbing designs. Understanding how siphonic systems work can provide insight into their efficiency and effectiveness in managing water flow.To illustrate the concept, consider a simple example of a garden hose used to transfer water from a full bucket to a lower area of the garden. When the hose is filled with water and one end is placed in the bucket while the other end is positioned at a lower point, the water will begin to flow out of the hose. This process occurs because of the difference in height between the two ends of the hose, demonstrating the basic principle behind siphonic action.One significant advantage of siphonic systems is their ability to transport large volumes of liquid without the need for mechanical pumps. This not only reduces energy costs but also minimizes maintenance issues associated with pump systems. In addition, siphonic drainage systems are often designed to handle stormwater efficiently, which is crucial in urban areas where heavy rainfall can lead to flooding.However, it is essential to consider the limitations of siphonic systems. For instance, they require a continuous flow to maintain the siphoning effect. If air enters the system, it can break the siphon, causing the flow to stop. Therefore, careful design and installation are necessary to ensure that the system operates effectively. Engineers often use various techniques to prevent air from entering the siphonic system, such as ensuring that the inlet is always submerged.Moreover, the application of siphonic principles extends beyond simple liquid transfer. In modern architecture, siphonic roof drainage systems are becoming increasingly popular. These systems utilize the same principles of siphoning to efficiently remove rainwater from rooftops. By creating a negative pressure within the drainage pipes, siphonic systems can quickly transport rainwater away from the building, reducing the risk of water damage and improving overall building longevity.In conclusion, the concept of siphonic systems plays a crucial role in various fields, particularly in fluid dynamics and engineering. Their ability to transport liquids efficiently and effectively makes them an invaluable tool in managing water flow in both natural and built environments. As we continue to face challenges related to water management, understanding and implementing siphonic principles may provide innovative solutions to improve our infrastructure and protect our resources. Through advancements in technology and design, the future of siphonic systems looks promising, offering a sustainable approach to fluid management that can benefit both people and the planet.
在工程和流体动力学领域,术语siphonic指的是一种利用虹吸原理将液体从一个地方转移到另一个地方的特定机制。虹吸是一种管道或管子,允许液体从较高的高度流向较低的高度,依靠重力和大气压力。siphonic系统在各种应用中尤其有利,例如排水系统、灌溉,甚至某些管道设计。理解siphonic系统的工作原理可以提供对其效率和有效性在水流管理中的见解。为了说明这一概念,考虑一个简单的例子:使用花园水管将水从满桶中转移到花园的低洼区域。当水管充满水并且一端放在桶中,而另一端放置在较低的位置时,水就会开始流出水管。这一过程发生是因为水管两端的高度差,展示了siphonic作用的基本原理。siphonic系统的一个显著优点是它们能够在不需要机械泵的情况下运输大量液体。这不仅降低了能源成本,还最小化了与泵系统相关的维护问题。此外,siphonic排水系统通常被设计为高效处理暴雨水,这在城市地区尤为重要,因为暴雨可能导致洪水。然而,考虑siphonic系统的局限性也是至关重要的。例如,它们需要持续的流动以维持虹吸效果。如果空气进入系统,可能会破坏虹吸,导致流动停止。因此,仔细的设计和安装是确保系统有效运行的必要条件。工程师通常采用各种技术来防止空气进入siphonic系统,例如确保进水口始终处于水下。此外,siphonic原理的应用超出了简单的液体转移。在现代建筑中,siphonic屋顶排水系统越来越受欢迎。这些系统利用相同的虹吸原理高效地去除屋顶的雨水。通过在排水管内创建负压,siphonic系统可以迅速将雨水从建筑物中排走,减少水损害的风险,并改善整体建筑的耐久性。总之,siphonic系统的概念在多个领域中发挥着至关重要的作用,特别是在流体动力学和工程领域。它们有效和高效地运输液体的能力使其成为管理自然和人工环境中水流的重要工具。随着我们继续面临与水管理相关的挑战,理解和实施siphonic原理可能会提供创新的解决方案,以改善我们的基础设施并保护我们的资源。通过技术和设计的进步,siphonic系统的未来看起来很有前景,提供了一种可持续的流体管理方法,可以造福人类和地球。
