steam capacity

简明释义

蒸发量

英英释义

例句

1.The plant's steam capacity 蒸汽容量 was upgraded to improve overall performance.

工厂的蒸汽容量 steam capacity得到了升级，以改善整体性能。

2.We need to increase the steam capacity 蒸汽容量 of the system to meet production demands.

我们需要增加系统的蒸汽容量 steam capacity以满足生产需求。

3.The engineer measured the steam capacity 蒸汽容量 before starting the tests.

工程师在开始测试之前测量了蒸汽容量 steam capacity。

4.A higher steam capacity 蒸汽容量 can lead to faster heating times in industrial processes.

更高的蒸汽容量 steam capacity可以在工业过程中带来更快的加热时间。

5.The boiler's steam capacity 蒸汽容量 is crucial for determining its efficiency.

锅炉的蒸汽容量 steam capacity对于确定其效率至关重要。

作文

Steam power has played a crucial role in the development of modern industry and transportation. At the heart of this technology lies the concept of steam capacity, which refers to the maximum amount of steam that a boiler can produce over a specified period of time. This capacity is essential for determining the efficiency and effectiveness of steam-driven machinery. Understanding steam capacity is vital for engineers and operators who work with steam systems, as it directly impacts the performance of various applications, from locomotives to power plants.The significance of steam capacity can be seen in the context of historical advancements. During the Industrial Revolution, the ability to generate steam efficiently allowed factories to increase production rates significantly. Early steam engines were limited by their steam capacity, which affected how much work they could perform. As technology advanced, improvements in boiler design and materials led to higher steam capacity, enabling engines to operate more powerfully and reliably.In modern applications, steam capacity continues to be a critical factor. For instance, in power generation, the steam capacity of a boiler must match the demand for electricity. If the steam capacity is too low, the power plant may not meet energy demands, leading to outages or insufficient supply. Conversely, if the steam capacity is too high, it can lead to inefficiencies and increased operational costs. Therefore, engineers must carefully calculate and optimize steam capacity to ensure that systems run smoothly and economically.Furthermore, the steam capacity of a system is influenced by various factors, including the type of fuel used, the design of the boiler, and the operating pressure. For example, natural gas boilers typically have higher steam capacity compared to coal-fired boilers due to their ability to burn fuel more efficiently. Additionally, advancements in technology have led to the development of supercritical boilers, which operate at extremely high pressures and temperatures, significantly enhancing their steam capacity and efficiency.In conclusion, steam capacity is a fundamental aspect of steam systems that affects their performance and efficiency. From historical steam engines to modern power plants, understanding and optimizing steam capacity is essential for engineers and operators alike. As we continue to innovate and improve steam technology, the importance of steam capacity will remain a key consideration in the pursuit of efficient and sustainable energy solutions. Through careful management and innovation, we can harness the power of steam to meet the demands of our ever-evolving world.

蒸汽动力在现代工业和交通的发展中发挥了至关重要的作用。在这一技术的核心是“蒸汽容量”这一概念，它指的是锅炉在特定时间内能够产生的最大蒸汽量。这一容量对于确定蒸汽驱动机械的效率和有效性至关重要。理解“蒸汽容量”对与蒸汽系统打交道的工程师和操作员来说是非常重要的，因为它直接影响到从机车到发电厂的各种应用的性能。“蒸汽容量”的重要性可以在历史进步的背景下看到。在工业革命期间，能够高效地产生蒸汽使工厂的生产率显著提高。早期的蒸汽机受到其“蒸汽容量”的限制，这影响了它们能完成的工作量。随着技术的进步，锅炉设计和材料的改进导致了更高的“蒸汽容量”，使得发动机能够更强大和可靠地运行。在现代应用中，“蒸汽容量”仍然是一个关键因素。例如，在发电过程中，锅炉的“蒸汽容量”必须与电力需求相匹配。如果“蒸汽容量”太低，发电厂可能无法满足能源需求，从而导致停电或供应不足。相反，如果“蒸汽容量”过高，可能会导致效率低下和运营成本增加。因此，工程师必须仔细计算和优化“蒸汽容量”，以确保系统平稳且经济地运行。此外，系统的“蒸汽容量”还受到多种因素的影响，包括所用燃料的类型、锅炉的设计以及运行压力。例如，天然气锅炉通常具有比煤炭锅炉更高的“蒸汽容量”，因为它们能够更高效地燃烧燃料。此外，技术的进步导致了超临界锅炉的发展，这种锅炉在极高的压力和温度下运行，显著提高了它们的“蒸汽容量”和效率。总之，“蒸汽容量”是蒸汽系统的一个基本方面，影响其性能和效率。从历史蒸汽机到现代发电厂，理解和优化“蒸汽容量”对工程师和操作员都是至关重要的。随着我们继续创新和改进蒸汽技术，“蒸汽容量”的重要性将始终是追求高效和可持续能源解决方案时的关键考虑因素。通过精心管理和创新，我们可以利用蒸汽的力量来满足我们不断发展的世界的需求。