boiler feed capacity

简明释义

锅炉给水量

英英释义

例句

1.During the audit, we discovered that the actual boiler feed capacity 锅炉给水能力 was lower than the design specifications.

在审计过程中，我们发现实际的锅炉给水能力 锅炉给水能力低于设计规格。

2.The engineer recommended upgrading the system to improve the boiler feed capacity 锅炉给水能力 for better performance.

工程师建议升级系统，以提高锅炉给水能力 锅炉给水能力，以获得更好的性能。

3.Monitoring the boiler feed capacity 锅炉给水能力 is crucial for maintaining optimal operation in the facility.

监测锅炉给水能力 锅炉给水能力对于维持设施的最佳运行至关重要。

4.The new plant has a significantly higher boiler feed capacity 锅炉给水能力 than the old one, allowing for increased efficiency.

新工厂的锅炉给水能力 锅炉给水能力明显高于旧工厂，从而提高了效率。

5.We need to calculate the boiler feed capacity 锅炉给水能力 to ensure we have enough water supply during peak hours.

我们需要计算锅炉给水能力 锅炉给水能力，以确保在高峰时段有足够的水供应。

作文

Understanding the concept of boiler feed capacity is essential for anyone involved in the operation and maintenance of steam boilers. A boiler is a critical component in many industrial processes, providing the necessary steam for heating, power generation, and various manufacturing operations. The boiler feed capacity refers to the amount of water that can be supplied to the boiler to generate steam efficiently. This capacity is measured in terms of volume per unit time, typically gallons per minute (GPM) or liters per second (L/s). In industrial settings, the boiler feed capacity must be carefully calculated to ensure that the boiler operates at optimal efficiency. If the feedwater supply is insufficient, the boiler may not produce enough steam to meet the operational demands, leading to potential downtime and loss of productivity. Conversely, if the feedwater supply exceeds the boiler feed capacity, it can lead to issues such as water hammer, increased energy consumption, and even damage to the boiler system. Several factors influence the boiler feed capacity, including the size and type of the boiler, the operating pressure, and the specific steam requirements of the process. For instance, a large industrial boiler designed for high-pressure applications will have a significantly higher boiler feed capacity than a smaller residential boiler. Additionally, the quality of the feedwater is crucial; impurities in the water can cause scaling and corrosion within the boiler, affecting its performance and longevity. To optimize the boiler feed capacity, operators often implement sophisticated control systems that monitor the demand for steam and adjust the feedwater supply accordingly. These systems can include flow meters, level sensors, and automated valves that work together to maintain the desired water level in the boiler. By ensuring that the boiler feed capacity is aligned with the steam production needs, facilities can achieve greater energy efficiency and reduce operational costs. Furthermore, regular maintenance and inspections are vital to ensure that the components responsible for managing the boiler feed capacity are functioning correctly. Issues such as clogged filters, malfunctioning pumps, or leaks can severely impact the ability to maintain the appropriate feedwater levels. By addressing these problems proactively, operators can prevent costly repairs and ensure continuous operation of the boiler system. In conclusion, the boiler feed capacity is a fundamental aspect of boiler operation that directly affects efficiency, productivity, and safety. Understanding how to manage and optimize this capacity is essential for anyone working in industries that rely on steam generation. By focusing on accurate calculations, effective monitoring systems, and regular maintenance, facilities can ensure that their boilers operate smoothly and efficiently, ultimately contributing to the overall success of their operations.

理解锅炉给水能力的概念对于任何参与蒸汽锅炉操作和维护的人来说都是至关重要的。锅炉是许多工业过程中的关键组成部分，为加热、发电和各种制造操作提供必要的蒸汽。锅炉给水能力指的是可以供给锅炉以高效产生蒸汽的水量。这个能力通常以单位时间的体积来衡量，通常为每分钟加仑（GPM）或每秒升（L/s）。在工业环境中，必须仔细计算锅炉给水能力以确保锅炉在最佳效率下运行。如果给水供应不足，锅炉可能无法产生足够的蒸汽以满足操作需求，从而导致潜在的停机和生产力损失。相反，如果给水供应超过了锅炉给水能力，则可能导致水锤、能源消耗增加甚至锅炉系统损坏等问题。影响锅炉给水能力的因素有很多，包括锅炉的大小和类型、操作压力以及工艺的具体蒸汽需求。例如，设计用于高压应用的大型工业锅炉的锅炉给水能力将显著高于较小的住宅锅炉。此外，给水的质量至关重要；水中的杂质会导致锅炉内的结垢和腐蚀，影响其性能和使用寿命。为了优化锅炉给水能力，操作人员通常实施复杂的控制系统，以监测蒸汽需求并相应调整给水供应。这些系统可以包括流量计、液位传感器和自动阀门，这些组件共同工作，以维持锅炉中的所需水位。通过确保锅炉给水能力与蒸汽生产需求相一致，设施可以实现更高的能源效率并降低运营成本。此外，定期维护和检查对于确保管理锅炉给水能力的组件正常运作至关重要。诸如过滤器堵塞、泵故障或泄漏等问题会严重影响维持适当给水水平的能力。通过主动解决这些问题，操作人员可以防止昂贵的维修并确保锅炉系统的连续运行。总之，锅炉给水能力是锅炉操作的一个基本方面，直接影响效率、生产力和安全性。理解如何管理和优化这一能力对于任何在依赖蒸汽生成的行业工作的人来说都是至关重要的。通过关注准确的计算、有效的监测系统和定期维护，设施可以确保其锅炉平稳高效地运行，最终促进其运营的整体成功。