weight rate of steam flow

简明释义

单位时间内蒸汽重量

英英释义

例句

1.In the power plant, the weight rate of steam flow directly affects electricity generation efficiency.

在发电厂中，蒸汽流量的重量速率直接影响电力生产效率。

2.The technician noted a decrease in the weight rate of steam flow, indicating a potential blockage.

技术员注意到蒸汽流量的重量速率下降，表明可能存在堵塞。

3.The engineer calculated the weight rate of steam flow to ensure the system operates efficiently.

工程师计算了蒸汽流量的重量速率以确保系统高效运行。

4.Monitoring the weight rate of steam flow is crucial for optimizing energy consumption in industrial processes.

监测蒸汽流量的重量速率对于优化工业过程中的能源消耗至关重要。

5.The weight rate of steam flow was measured to adjust the heating elements in the reactor.

测量了蒸汽流量的重量速率以调整反应器中的加热元件。

作文

In the field of thermodynamics and engineering, understanding the flow of steam is crucial for various applications, especially in power generation and industrial processes. One of the key metrics used to quantify steam flow is the weight rate of steam flow, which refers to the mass of steam that passes through a given point in a system per unit of time. This measurement is essential for engineers and technicians as it directly influences the efficiency and performance of steam systems.The weight rate of steam flow is typically expressed in units such as kilograms per second (kg/s) or pounds per hour (lb/h). By knowing the weight rate of steam flow, engineers can calculate the energy output of a steam turbine, determine the heat transfer rates in heat exchangers, and optimize the overall thermal efficiency of a power plant. Additionally, this metric helps in sizing pipes and valves to ensure that the steam system operates smoothly without any bottlenecks.To better understand the significance of the weight rate of steam flow, consider a practical example involving a steam boiler. A boiler generates steam by heating water, and the amount of steam produced is critical for various downstream processes. If the weight rate of steam flow is too low, it may lead to insufficient steam supply for turbines or other equipment, resulting in reduced operational efficiency and potential downtime. Conversely, if the weight rate of steam flow is excessively high, it may cause wear and tear on the system components, leading to increased maintenance costs and possible safety hazards.Moreover, the weight rate of steam flow can be influenced by several factors, including the temperature and pressure of the steam, the design of the piping system, and the characteristics of the steam itself. Engineers often utilize various instruments, such as flow meters and pressure gauges, to accurately measure the weight rate of steam flow and make necessary adjustments to the system.In conclusion, the weight rate of steam flow is a fundamental concept in the study and application of steam systems. Its importance cannot be overstated, as it plays a vital role in ensuring the efficiency, safety, and reliability of steam-based processes. By mastering the principles surrounding the weight rate of steam flow, engineers and technicians can significantly improve the performance of their systems and contribute to more sustainable energy practices in the industry. Understanding this concept not only enhances technical knowledge but also fosters innovation in steam technology, paving the way for advancements in energy production and utilization.In summary, the weight rate of steam flow is a critical parameter that impacts the operation of steam systems across various sectors. By focusing on this metric, professionals can ensure optimal performance and contribute to the advancement of engineering practices in the realm of thermodynamics.

在热力学和工程领域，理解蒸汽流动是各种应用的关键，特别是在发电和工业过程中。用于量化蒸汽流动的关键指标之一是蒸汽流量的重量速率，它指的是单位时间内通过系统中某一点的蒸汽质量。这一测量对于工程师和技术人员至关重要，因为它直接影响蒸汽系统的效率和性能。蒸汽流量的重量速率通常以千克每秒（kg/s）或磅每小时（lb/h）等单位表示。通过了解蒸汽流量的重量速率，工程师可以计算蒸汽涡轮机的能量输出，确定热交换器中的热传递速率，并优化发电厂的整体热效率。此外，这一指标有助于对管道和阀门进行尺寸设计，以确保蒸汽系统平稳运行而没有瓶颈。为了更好地理解蒸汽流量的重量速率的重要性，可以考虑一个涉及蒸汽锅炉的实际例子。锅炉通过加热水来产生蒸汽，而产生的蒸汽量对于各种下游过程至关重要。如果蒸汽流量的重量速率过低，可能导致涡轮机或其他设备的蒸汽供应不足，从而降低操作效率并可能导致停机。相反，如果蒸汽流量的重量速率过高，可能会导致系统组件磨损，从而增加维护成本并可能造成安全隐患。此外，蒸汽流量的重量速率可能受到多种因素的影响，包括蒸汽的温度和压力、管道系统的设计以及蒸汽本身的特性。工程师通常利用流量计和压力表等各种仪器来准确测量蒸汽流量的重量速率并对系统进行必要的调整。总之，蒸汽流量的重量速率是蒸汽系统研究和应用中的基本概念。其重要性不容小觑，因为它在确保基于蒸汽的过程的效率、安全性和可靠性方面发挥着至关重要的作用。通过掌握与蒸汽流量的重量速率相关的原则，工程师和技术人员可以显著提高系统的性能，并为行业中更可持续的能源实践做出贡献。理解这一概念不仅增强了技术知识，还促进了蒸汽技术的创新，为能源生产和利用的进步铺平了道路。总而言之，蒸汽流量的重量速率是影响各个行业蒸汽系统操作的关键参数。通过关注这一指标，专业人员可以确保最佳性能，并为热力学领域工程实践的发展做出贡献。