hydraulic balance

简明释义

液力平衡

英英释义

例句

1.To prevent flooding, the city implemented measures to achieve hydraulic balance 水力平衡 in its drainage systems.

为了防止洪水，该市采取措施在其排水系统中实现水力平衡。

2.During the experiment, we observed how changes affected the hydraulic balance 水力平衡 in the closed system.

在实验过程中，我们观察到变化如何影响封闭系统中的水力平衡。

3.In this irrigation system, maintaining a hydraulic balance 水力平衡 is crucial for optimal crop growth.

在这个灌溉系统中，维持水力平衡对于作物的最佳生长至关重要。

4.The hydraulic balance 水力平衡 of the hydraulic lift ensures that it operates smoothly without any jerks.

液压升降机的水力平衡确保其平稳运行，没有任何颠簸。

5.The engineers designed the dam to ensure a proper hydraulic balance 水力平衡 between the water inflow and outflow.

工程师们设计了大坝，以确保水的流入和流出之间有一个适当的水力平衡。

作文

In the realm of engineering and fluid mechanics, the concept of hydraulic balance plays a crucial role in ensuring the stability and efficiency of various systems. Essentially, hydraulic balance refers to the equilibrium achieved when the forces exerted by a fluid are equal to the opposing forces acting on it. This principle is fundamental in designing structures such as dams, bridges, and hydraulic machinery, where the movement and pressure of fluids must be carefully managed.One of the most significant applications of hydraulic balance can be found in hydraulic lift systems. These systems operate based on Pascal's principle, which states that pressure applied to a confined fluid is transmitted undiminished throughout the fluid. In a hydraulic lift, when a small force is applied to a small area, it creates a pressure that is transferred through the fluid to a larger area, resulting in a much larger lifting force. Achieving hydraulic balance in these systems ensures that the lift operates smoothly and safely, allowing heavy objects to be raised with minimal effort.Moreover, hydraulic balance is vital in the design of water treatment facilities. In these facilities, maintaining the right flow rates and pressures is essential for effective filtration and purification processes. Engineers must calculate the hydraulic balance to ensure that water moves through different stages of treatment without causing damage to equipment or compromising the quality of the water being treated. A well-maintained hydraulic balance not only enhances operational efficiency but also extends the lifespan of the machinery used in these facilities.Another area where hydraulic balance is crucial is in the field of civil engineering, particularly in the construction of retaining walls and levees. These structures are designed to hold back soil and water, preventing erosion and flooding. To achieve hydraulic balance, engineers must consider factors such as soil pressure, water pressure, and the weight of the structure itself. By ensuring that these forces are balanced, engineers can create safe and effective designs that withstand the test of time.In addition to its practical applications, understanding hydraulic balance also has implications for environmental sustainability. For example, in managing waterways and flood control systems, achieving hydraulic balance helps to maintain natural ecosystems and prevent habitat destruction. By carefully controlling water levels and flow rates, engineers can mitigate the impact of human activities on aquatic environments, promoting biodiversity and ecological health.In conclusion, the concept of hydraulic balance is integral to various fields, including engineering, environmental science, and infrastructure development. Its importance cannot be overstated, as it ensures the safety, efficiency, and sustainability of systems that rely on fluid dynamics. As technology continues to advance, the principles behind hydraulic balance will remain essential in guiding innovations that improve our built environment and protect our natural resources.

在工程和流体力学领域，液压平衡的概念在确保各种系统的稳定性和效率方面发挥着至关重要的作用。基本上，液压平衡是指当流体施加的力量与其上的反作用力相等时所达到的平衡。这一原理在设计水坝、桥梁和液压机械等结构时至关重要，因为流体的运动和压力必须得到仔细管理。液压平衡的一个重要应用可以在液压升降系统中找到。这些系统基于帕斯卡原理，该原理指出施加在密闭流体上的压力会无损失地传递到流体的每个部分。在液压升降机中，当施加在小面积上的小力量时，会产生一种压力，这种压力通过流体传递到更大的面积，从而产生更大的提升力量。在这些系统中实现液压平衡确保升降机平稳、安全地运行，使重物以最小的努力被抬起。此外，液压平衡在水处理设施的设计中也至关重要。在这些设施中，保持合适的流量和压力对于有效的过滤和净化过程至关重要。工程师必须计算液压平衡以确保水在不同的处理阶段中流动而不造成设备损坏或危及水质。良好的液压平衡不仅提高了操作效率，还延长了这些设施中使用的机械的使用寿命。液压平衡至关重要的另一个领域是土木工程，特别是在挡土墙和堤坝的建设中。这些结构旨在抵挡土壤和水，防止侵蚀和洪水。为了实现液压平衡，工程师必须考虑土壤压力、水压力和结构自身的重量等因素。通过确保这些力量的平衡，工程师可以创建安全有效的设计，能够经受住时间的考验。除了其实际应用外，理解液压平衡对环境可持续性也有重要意义。例如，在管理水道和洪水控制系统中，实现液压平衡有助于维持自然生态系统并防止栖息地破坏。通过仔细控制水位和流速，工程师可以减轻人类活动对水生环境的影响，促进生物多样性和生态健康。总之，液压平衡的概念在工程、环境科学和基础设施发展等多个领域中至关重要。其重要性不容忽视，因为它确保了依赖流体动力学的系统的安全性、效率和可持续性。随着技术的不断进步，液压平衡背后的原理将继续在指导改善我们建成环境和保护自然资源的创新中发挥重要作用。