steam space

简明释义

(锅炉

英英释义

例句

1.During the spa treatment, clients enjoy the benefits of a steam space to enhance skin hydration.

在水疗护理过程中，客户享受蒸汽空间带来的好处，以增强皮肤水分。

2.The designer included a steam space in the bathroom for a luxurious bathing experience.

设计师在浴室中加入了一个蒸汽空间，以提供奢华的沐浴体验。

3.The new steam oven has a dedicated steam space that ensures even cooking.

新款蒸汽烤箱设有专门的蒸汽空间，确保均匀烹饪。

4.The chef decided to create a steam space in the kitchen for cooking vegetables more healthily.

厨师决定在厨房里创建一个蒸汽空间，以更健康地烹饪蔬菜。

5.In the sauna, the steam space helps users relax and detoxify their bodies.

在桑拿房中，蒸汽空间帮助用户放松并排毒。

作文

In the world of physics and engineering, the concept of steam space plays a crucial role in understanding how steam behaves in various systems. Steam space refers to the area within a boiler or any other steam-generating apparatus where steam exists above the water level. This space is essential for the efficient operation of steam systems and has significant implications for energy production and management. To comprehend the importance of steam space, we must first understand the properties of steam. Steam is produced when water is heated to its boiling point, transforming it from liquid to gas. When this process occurs in a confined space, such as a boiler, the steam occupies a certain volume known as steam space. The effective management of this space ensures that steam can be generated and utilized efficiently.One of the primary functions of steam space is to allow for the expansion of steam as it is generated. When water turns into steam, it expands significantly—approximately 1,600 times its original volume. This expansion creates pressure, which is harnessed to perform work, such as turning turbines in power plants. Without adequate steam space, the pressure could build up excessively, leading to potential safety hazards or inefficiencies in steam generation.Moreover, the design of steam space impacts the overall efficiency of a steam system. Engineers must carefully calculate the size and configuration of the steam space to optimize steam production while minimizing energy losses. If the steam space is too small, it may restrict the flow of steam, causing bottlenecks and reducing the system's efficiency. Conversely, an oversized steam space can lead to unnecessary heat loss, which ultimately affects the energy output of the system.In addition to its technical aspects, steam space also has practical implications in various industries. For instance, in power generation, the efficiency of steam space directly influences the amount of electricity produced. In the food industry, steam is often used for cooking and sterilization, where the proper management of steam space ensures that products are processed safely and effectively.Furthermore, understanding steam space is vital for troubleshooting issues within steam systems. Problems such as water hammer, which occurs when condensate accumulates and disrupts the flow of steam, can often be traced back to inadequate management of steam space. By analyzing the steam space and making necessary adjustments, engineers can resolve these problems, improving the reliability and performance of the system.In conclusion, the concept of steam space is integral to the functioning of various steam systems across multiple industries. Its significance extends beyond just the physical space occupied by steam; it encompasses the principles of thermodynamics, energy efficiency, and operational safety. By gaining a deeper understanding of steam space, engineers and technicians can enhance the performance of steam systems, contributing to more efficient energy production and utilization. As technology continues to advance, the importance of effectively managing steam space will only grow, highlighting the need for ongoing research and innovation in this critical area of engineering.

在物理和工程的世界中，蒸汽空间的概念在理解蒸汽在各种系统中的行为方面发挥着至关重要的作用。蒸汽空间是指锅炉或任何其他蒸汽产生装置中水位以上存在蒸汽的区域。这个空间对于蒸汽系统的高效运行至关重要，并对能源生产和管理具有重要意义。要理解蒸汽空间的重要性，我们必须首先了解蒸汽的性质。当水被加热到沸点时，蒸汽就会产生，使其从液体转变为气体。当这一过程发生在一个封闭的空间内，例如锅炉时，蒸汽占据了一个称为蒸汽空间的特定体积。有效管理这个空间确保蒸汽能够高效地产生和利用。蒸汽空间的主要功能之一是允许蒸汽在生成时膨胀。当水转化为蒸汽时，它会显著膨胀——大约是其原始体积的1600倍。这种膨胀会产生压力，进而用于执行工作，例如在发电厂中驱动涡轮机。如果没有足够的蒸汽空间，压力可能会过度增加，从而导致潜在的安全隐患或蒸汽生成的低效率。此外，蒸汽空间的设计会影响蒸汽系统的整体效率。工程师必须仔细计算蒸汽空间的大小和配置，以优化蒸汽生产，同时最小化能量损失。如果蒸汽空间太小，可能会限制蒸汽的流动，造成瓶颈并降低系统的效率。相反，过大的蒸汽空间可能导致不必要的热量损失，从而最终影响系统的能量输出。除了技术方面，蒸汽空间在各个行业也具有实际意义。例如，在发电中，蒸汽空间的效率直接影响所产生的电量。在食品工业中，蒸汽通常用于烹饪和灭菌，适当管理蒸汽空间确保产品安全有效地加工。此外，理解蒸汽空间对于排查蒸汽系统中的问题至关重要。诸如水锤现象（当冷凝水积累并干扰蒸汽流动时发生）的问题往往可以追溯到对蒸汽空间的不当管理。通过分析蒸汽空间并进行必要的调整，工程师可以解决这些问题，提高系统的可靠性和性能。总之，蒸汽空间的概念是各个行业中各种蒸汽系统功能的核心。它的重要性不仅仅局限于蒸汽所占据的物理空间；它还包含了热力学、能量效率和操作安全的原则。通过深入理解蒸汽空间，工程师和技术人员可以提升蒸汽系统的性能，为更高效的能源生产和利用做出贡献。随着技术的不断进步，有效管理蒸汽空间的重要性只会增加，这突显了在这一关键工程领域持续研究和创新的必要性。