flow-measuring apparatus

简明释义

液体流量表

英英释义

例句

1.The engineer installed a flow-measuring apparatus to monitor the water usage in the building.

工程师安装了一个流量测量装置来监测大楼的水使用情况。

2.The flow-measuring apparatus is crucial for managing irrigation systems in agriculture.

在农业中，流量测量装置对于管理灌溉系统至关重要。

3.In order to ensure accuracy, the flow-measuring apparatus must be calibrated regularly.

为了确保准确性，流量测量装置必须定期校准。

4.The lab uses a sophisticated flow-measuring apparatus for precise chemical experiments.

实验室使用一种复杂的流量测量装置进行精确的化学实验。

5.During the testing phase, the flow-measuring apparatus recorded unexpected fluctuations.

在测试阶段，流量测量装置记录了意外的波动。

作文

In modern engineering and industrial applications, the importance of accurate measurements cannot be overstated. One critical aspect of this is the measurement of fluid flow, which is essential in various sectors such as water management, chemical processing, and energy production. To achieve precise flow measurements, engineers and technicians rely on advanced devices known as flow-measuring apparatus (流量测量装置). These devices are designed to quantify the rate at which a fluid moves through a system, providing vital data that can influence operational efficiency and safety.The flow-measuring apparatus can take many forms, ranging from simple mechanical devices to sophisticated electronic systems. For example, a common type of flow meter is the orifice plate, which measures flow by calculating the pressure difference before and after the fluid passes through an opening. This method is widely used due to its simplicity and reliability. On the other hand, more advanced technologies such as ultrasonic and electromagnetic flow meters offer higher accuracy and can measure flow rates without any moving parts, reducing maintenance needs.Understanding the principles behind these flow-measuring apparatus is crucial for anyone involved in fluid dynamics or process engineering. The choice of a specific type of flow meter often depends on several factors, including the nature of the fluid being measured, the required accuracy, and the installation conditions. For instance, some flow-measuring apparatus are better suited for clean water, while others are designed to handle viscous fluids or slurries.Moreover, the calibration of flow-measuring apparatus is a vital process that ensures the accuracy of measurements. Regular calibration against known standards allows operators to maintain the integrity of their measurements over time. Without proper calibration, even the most advanced flow-measuring apparatus could yield misleading results, leading to inefficiencies or safety hazards in industrial processes.In addition to their technical specifications, the integration of flow-measuring apparatus into broader systems is also worth considering. Many modern facilities utilize automated control systems that rely on real-time data from these devices to manage processes effectively. For example, in a water treatment plant, the flow measurements provided by flow-measuring apparatus can help regulate chemical dosing, ensuring that water quality meets regulatory standards.Furthermore, the role of flow-measuring apparatus extends beyond mere measurement; they also play a crucial role in environmental monitoring. Accurate flow data can help assess the health of ecosystems, manage water resources, and comply with environmental regulations. In this context, flow-measuring apparatus serve not only industrial purposes but also contribute to sustainable practices and conservation efforts.In conclusion, the significance of flow-measuring apparatus in various industries cannot be underestimated. These devices provide essential data that underpin operational efficiency, safety, and environmental stewardship. As technology continues to advance, the capabilities of flow-measuring apparatus will undoubtedly evolve, further enhancing our ability to measure and manage fluid flow with precision. Understanding how to select, operate, and maintain these devices is a valuable skill for professionals in engineering and related fields, ensuring that they can contribute effectively to their organizations and society at large.

在现代工程和工业应用中，准确测量的重要性不容小觑。流体流动的测量是其中一个关键方面，这在水管理、化学处理和能源生产等各个行业中都是必不可少的。为了实现精确的流量测量，工程师和技术人员依赖于被称为流量测量装置（flow-measuring apparatus）的先进设备。这些设备旨在量化流体通过系统的速度，提供对操作效率和安全性有重要影响的关键数据。流量测量装置可以有多种形式，从简单的机械设备到复杂的电子系统。例如，一种常见的流量计是孔板流量计，它通过计算流体经过开口前后的压力差来测量流量。这种方法因其简单性和可靠性而被广泛使用。另一方面，更先进的技术，如超声波流量计和电磁流量计，提供更高的准确性，并且可以在没有任何运动部件的情况下测量流速，从而减少维护需求。理解这些流量测量装置背后的原理对于任何参与流体动力学或过程工程的人来说都是至关重要的。特定类型流量计的选择通常取决于几个因素，包括被测流体的性质、所需的准确度以及安装条件。例如，一些流量测量装置更适合清水，而另一些则设计用于处理粘稠流体或浆料。此外，流量测量装置的校准是确保测量准确性的一个重要过程。定期与已知标准进行校准使操作员能够保持测量的完整性。如果没有适当的校准，即使是最先进的流量测量装置也可能产生误导性结果，从而导致工业过程中的低效率或安全隐患。除了技术规格，流量测量装置在更广泛系统中的集成也是值得考虑的。许多现代设施利用自动控制系统，依赖这些设备提供的实时数据来有效管理过程。例如，在水处理厂中，流量测量装置提供的流量测量可以帮助调节化学投加，确保水质符合监管标准。此外，流量测量装置的作用不仅限于测量；它们在环境监测中也发挥着至关重要的作用。准确的流量数据可以帮助评估生态系统的健康状况，管理水资源，以及遵守环境法规。在这种背景下，流量测量装置不仅服务于工业目的，还促进可持续实践和保护努力。总之，流量测量装置在各个行业中的重要性不容小觑。这些设备提供的关键信息支撑着操作效率、安全性和环境管理。随着技术的不断进步，流量测量装置的能力无疑将不断发展，进一步增强我们以精准测量和管理流体流动的能力。了解如何选择、操作和维护这些设备是工程及相关领域专业人士的一项宝贵技能，确保他们能够有效地为其组织和社会做出贡献。