hydraulic balance

简明释义

水力平衡

英英释义

例句

1.A failure in the hydraulic balance 液压平衡 could lead to catastrophic results in heavy machinery operations.

在重型机械操作中，液压平衡 hydraulic balance的失败可能导致灾难性的后果。

2.During the test, we monitored the hydraulic balance 液压平衡 to ensure everything was functioning correctly.

在测试期间，我们监测了液压平衡 hydraulic balance以确保一切正常运作。

3.The design of the new bridge incorporates a hydraulic balance 液压平衡 system to manage water flow.

新桥的设计包含一个液压平衡 hydraulic balance系统来管理水流。

4.Maintaining a proper hydraulic balance 液压平衡 is crucial for the safety of the machinery.

保持适当的液压平衡 hydraulic balance对机器的安全至关重要。

5.The engineer explained how the hydraulic balance 液压平衡 in the system prevents excessive pressure build-up.

工程师解释了系统中的液压平衡 hydraulic balance如何防止过度压力的积聚。

作文

The concept of hydraulic balance is essential in various fields, particularly in engineering and environmental science. At its core, hydraulic balance refers to the equilibrium that occurs when the forces exerted by fluids in a system are equal and opposite, leading to a stable state. This principle can be observed in numerous applications, from the design of hydraulic systems to the management of water resources. Understanding hydraulic balance is crucial for engineers who work with fluid mechanics, as it allows them to predict how fluids will behave under different conditions.In engineering, maintaining a hydraulic balance is vital for the safe and efficient operation of hydraulic machinery, such as cranes, lifts, and excavators. These machines rely on the principles of hydraulics to function, using pressurized fluids to generate movement. If the system is not in hydraulic balance, it could lead to malfunctions or even catastrophic failures. For instance, if one side of a hydraulic lift is overloaded, it may tip over, posing significant safety risks. Thus, engineers must carefully calculate the loads and ensure that all components of the system contribute to maintaining hydraulic balance.Moreover, hydraulic balance plays a critical role in environmental management, especially in the context of water resources. Rivers, lakes, and aquifers operate under the principles of hydraulic balance. For example, in river systems, the inflow of water from tributaries must be balanced by the outflow to the ocean or other bodies of water. Disruptions to this balance, caused by factors such as climate change, deforestation, or urbanization, can lead to severe ecological consequences, including flooding, droughts, and loss of biodiversity.To illustrate the importance of hydraulic balance, consider a dam built to regulate the flow of a river. Engineers must ensure that the dam maintains a hydraulic balance between the water stored behind it and the water flowing downstream. If too much water is released, it can lead to downstream flooding; conversely, if too little water is released, it can cause shortages in areas relying on the river for irrigation and drinking water. Therefore, monitoring and managing hydraulic balance is crucial for sustainable water resource management.In conclusion, the concept of hydraulic balance is fundamental in both engineering and environmental sciences. It ensures the stability and functionality of hydraulic systems while promoting sustainable management of water resources. As we face challenges related to climate change and population growth, a deeper understanding of hydraulic balance will be increasingly important in developing effective solutions to maintain equilibrium in our ecosystems and engineered systems alike.

“液压平衡”这一概念在多个领域中至关重要，尤其是在工程和环境科学方面。从本质上讲，“液压平衡”指的是当系统中流体施加的力量相等且相反时所发生的平衡状态，导致一个稳定的状态。这个原理可以在许多应用中观察到，从液压系统的设计到水资源的管理。理解“液压平衡”对于从事流体力学工作的工程师来说至关重要，因为它使他们能够预测流体在不同条件下的行为。在工程中，保持“液压平衡”对液压机械的安全和高效运行至关重要，例如起重机、升降机和挖掘机。这些机器依赖于液压原理来运作，利用加压流体产生运动。如果系统不处于“液压平衡”，可能会导致故障甚至灾难性的失败。例如，如果液压升降机的一侧超载，它可能会倾覆，造成重大安全风险。因此，工程师必须仔细计算负载，并确保系统的所有组件都有助于维持“液压平衡”。此外，“液压平衡”在环境管理中也发挥着关键作用，特别是在水资源的背景下。河流、湖泊和含水层都在“液压平衡”的原理下运作。例如，在河流系统中，来自支流的水流入必须与流向海洋或其他水体的水流出保持平衡。由于气候变化、森林砍伐或城市化等因素，平衡的破坏可能导致严重的生态后果，包括洪水、干旱和生物多样性的丧失。为了说明“液压平衡”的重要性，可以考虑一座建造用于调节河流流量的水坝。工程师必须确保水坝在其后储存的水与流向下游的水之间保持“液压平衡”。如果释放过多的水，可能导致下游洪水；相反，如果释放的水太少，可能导致依赖该河流进行灌溉和饮用水的地区出现短缺。因此，监测和管理“液压平衡”对于可持续水资源管理至关重要。总之，“液压平衡”这一概念在工程和环境科学中都是基础。它确保了液压系统的稳定性和功能，同时促进了水资源的可持续管理。随着我们面临气候变化和人口增长相关的挑战，更深入地理解“液压平衡”将在制定有效解决方案以维持生态系统和工程系统的平衡方面变得越来越重要。