pumping capacity

简明释义

泵流量

英英释义

例句

1.The factory's pumping capacity needs to be doubled to accommodate the new production line.

工厂的抽水能力需要翻倍，以适应新的生产线。

2.Engineers are assessing the pumping capacity of the dam to ensure it can handle heavy rainfall.

工程师正在评估大坝的抽水能力，以确保它能应对强降雨。

3.During the summer months, we need to increase our pumping capacity to meet the demand for irrigation.

在夏季，我们需要增加我们的抽水能力以满足灌溉需求。

4.The fire department is upgrading its trucks to improve their pumping capacity for emergency situations.

消防部门正在升级其消防车，以提高其在紧急情况下的抽水能力。

5.The new water treatment plant has a higher pumping capacity than the old facility.

新的水处理厂的抽水能力比旧设施更高。

作文

In the field of engineering, particularly in hydraulic systems, the term pumping capacity refers to the maximum volume of fluid that a pump can move within a specific time frame. This measurement is crucial for ensuring that systems operate efficiently and effectively. Understanding the pumping capacity of a pump allows engineers to select the appropriate equipment for various applications, from irrigation systems to industrial processes.For instance, when designing a water supply system for a city, engineers must calculate the pumping capacity required to meet the demand of the population. If the pumping capacity is too low, residents may experience water shortages, especially during peak usage times. Conversely, if the capacity is excessively high, it could lead to increased energy costs and unnecessary wear on the equipment.Moreover, the pumping capacity can be affected by several factors, including the type of fluid being pumped, the design of the pump, and the conditions under which it operates. For example, pumping viscous fluids like oil requires a different approach compared to pumping water due to the differences in density and flow characteristics. Therefore, engineers must consider these variables when determining the appropriate pumping capacity for their systems.Another important aspect of pumping capacity is its relationship with efficiency. A pump's efficiency is defined as the ratio of the useful work performed by the pump to the energy consumed. A higher pumping capacity does not always equate to better efficiency; in some cases, a pump operating at a lower capacity can perform more efficiently. This is why engineers often conduct performance tests to find the optimal operating point for a given pump.In addition to engineering applications, the concept of pumping capacity extends into environmental science, particularly in the management of groundwater resources. For instance, understanding the pumping capacity of wells is essential for sustainable water extraction. Over-pumping can lead to a decline in water levels and negatively impact surrounding ecosystems. Thus, monitoring and managing the pumping capacity of groundwater sources is vital for maintaining ecological balance.Furthermore, advancements in technology have led to the development of pumps with enhanced pumping capacity and increased efficiency. Modern pumps are designed with sophisticated materials and intelligent controls that allow for real-time monitoring and adjustments. This not only improves the pumping capacity but also reduces operational costs and environmental impact.In conclusion, the term pumping capacity plays a pivotal role in various fields, from engineering to environmental management. It encompasses the ability of a pump to move fluids efficiently and highlights the importance of selecting the right pump for specific applications. By understanding and optimizing pumping capacity, engineers and environmental scientists can ensure that systems function effectively while minimizing costs and preserving natural resources.

在工程领域，特别是在液压系统中，术语泵送能力指的是泵在特定时间内能够移动的最大流体体积。这个测量对于确保系统高效和有效地运行至关重要。理解泵的泵送能力使工程师能够为各种应用选择合适的设备，从灌溉系统到工业过程。例如，在设计一个城市供水系统时，工程师必须计算满足人口需求所需的泵送能力。如果泵送能力过低，居民在高峰使用时可能会经历水短缺。相反，如果容量过高，可能导致能源成本增加和设备不必要的磨损。此外，泵送能力可能受到多种因素的影响，包括被泵送流体的类型、泵的设计以及操作条件。例如，泵送粘稠流体如石油需要与泵送水不同的方法，因为它们在密度和流动特性上存在差异。因此，工程师在确定其系统的适当泵送能力时，必须考虑这些变量。泵送能力的另一个重要方面是其与效率的关系。泵的效率定义为泵所做的有效工作与所消耗的能量之比。更高的泵送能力并不总是等同于更好的效率；在某些情况下，处于较低容量下运行的泵可能表现得更高效。这就是为什么工程师通常进行性能测试，以找到给定泵的最佳操作点。除了工程应用，泵送能力的概念还扩展到环境科学，特别是在地下水资源管理中。例如，了解井的泵送能力对可持续水提取至关重要。过度抽水会导致水位下降，并对周围生态系统产生负面影响。因此，监测和管理地下水源的泵送能力对于维持生态平衡至关重要。此外，技术的进步导致了具有增强泵送能力和提高效率的泵的发展。现代泵采用先进材料和智能控制系统，允许实时监控和调整。这不仅提高了泵送能力，还降低了运营成本和环境影响。总之，术语泵送能力在各个领域扮演着关键角色，从工程到环境管理。它涵盖了泵有效移动流体的能力，并强调选择适合特定应用的正确泵的重要性。通过理解和优化泵送能力，工程师和环境科学家可以确保系统有效运行，同时最小化成本和保护自然资源。