gas holder

简明释义

储气器气柜

英英释义

例句

1.During the renovation, we discovered an old gas holder buried underground.

在翻新过程中，我们发现了一个埋在地下的旧气体储存器。

2.The old factory had a large gas holder that stored natural gas for the production process.

这座旧工厂有一个大型的气体储存器，用于储存生产过程中的天然气。

3.The city plans to replace the aging gas holder with a more modern facility.

该市计划用更现代的设施替换老化的气体储存器。

4.The gas holder is essential for maintaining a steady supply of gas to the neighborhood.

这个气体储存器对于维持邻里稳定的天然气供应至关重要。

5.Safety regulations require that every gas holder be inspected regularly.

安全法规要求每个气体储存器定期检查。

作文

The concept of a gas holder is integral to understanding how gas storage and distribution work in various industries. A gas holder is essentially a large container that holds gas under pressure, allowing for the safe storage and management of gases such as natural gas, biogas, or even manufactured gases. The design and functionality of a gas holder can vary significantly based on its intended use, but its primary purpose remains the same: to store gas in a way that it can be easily accessed when needed.Historically, gas holders have played a crucial role in urban infrastructure. In the late 19th and early 20th centuries, many cities relied on gas holders to store coal gas, which was used for street lighting and heating. These structures were often large and prominent features of the city skyline, serving not just a functional purpose but also an aesthetic one. As technology evolved and natural gas became the primary fuel source, the design of gas holders adapted accordingly. Modern gas holders are typically made from steel or reinforced concrete, designed to withstand high pressure and environmental factors.One of the key advantages of using a gas holder is its ability to provide a buffer against fluctuations in demand. For instance, during peak usage times, a gas holder can release stored gas to ensure a steady supply. Conversely, during off-peak times, excess gas can be stored, preventing waste and ensuring efficiency in the overall system. This balancing act is essential for energy providers, who must manage supply and demand effectively to avoid shortages or surpluses.In addition to their role in energy distribution, gas holders are also vital in the context of renewable energy. With the rise of biogas production from organic materials, gas holders have become increasingly important for storing this renewable energy source. Biogas can be produced from agricultural waste, food scraps, and other organic matter, and a gas holder allows for the storage of this gas until it can be utilized for heating, electricity generation, or even as a vehicle fuel.Environmental considerations are also becoming more prominent in discussions about gas holders. As society seeks to reduce carbon emissions and transition to cleaner energy sources, the design and operation of gas holders are being scrutinized. Innovations in technology are leading to more efficient designs that minimize leaks and environmental impact. Furthermore, the integration of gas holders with renewable energy systems can help support a more sustainable energy future.In conclusion, the importance of gas holders in modern society cannot be overstated. They serve as critical components in the energy infrastructure, allowing for the safe and efficient storage of gases. Whether in traditional applications or in the context of renewable energy, gas holders facilitate the balance between supply and demand, contributing to the overall stability of energy systems. As we move towards a more sustainable future, the role of gas holders will undoubtedly continue to evolve, reflecting advancements in technology and shifts in energy consumption patterns.

‘气体储存器’的概念对于理解气体存储和分配在各个行业中的工作方式至关重要。‘气体储存器’本质上是一个大型容器，用于在压力下储存气体，从而安全地存储和管理天然气、生物气体或甚至制造气体等气体。‘气体储存器’的设计和功能可以根据其预期用途有显著不同，但其主要目的始终相同：以便于在需要时轻松获取气体的方式储存气体。从历史上看，‘气体储存器’在城市基础设施中发挥了至关重要的作用。在19世纪末和20世纪初，许多城市依赖‘气体储存器’来储存煤气，这被用于街道照明和供暖。这些结构通常是城市天际线中大型且显眼的特征，不仅起到功能性作用，还具有美学价值。随着技术的发展，天然气成为主要燃料来源，‘气体储存器’的设计也随之调整。现代的‘气体储存器’通常由钢或钢筋混凝土制成，旨在承受高压和环境因素。使用‘气体储存器’的一个关键优势是它能够提供对需求波动的缓冲。例如，在高峰使用时期，‘气体储存器’可以释放储存的气体，以确保稳定的供应。相反，在非高峰时期，多余的气体可以储存，防止浪费并确保整体系统的效率。这种平衡对于能源供应商至关重要，他们必须有效管理供需，以避免短缺或过剩。除了在能源分配中的作用外，‘气体储存器’在可再生能源的背景下也至关重要。随着有机材料生物气体生产的增加，‘气体储存器’在储存这种可再生能源方面变得越来越重要。生物气体可以通过农业废弃物、食品残渣和其他有机物质生产，而‘气体储存器’允许在利用之前储存这些气体，用于供暖、发电，甚至作为车辆燃料。环境考虑在关于‘气体储存器’的讨论中也变得越来越突出。随着社会寻求减少碳排放并过渡到更清洁的能源源，‘气体储存器’的设计和操作受到审查。技术创新导致更高效的设计，最小化泄漏和环境影响。此外，将‘气体储存器’与可再生能源系统的整合可以帮助支持更可持续的能源未来。总之，‘气体储存器’在现代社会中的重要性不容小觑。它们作为能源基础设施中的关键组成部分，允许气体的安全和高效存储。无论是在传统应用中还是在可再生能源的背景下，‘气体储存器’都促进了供需之间的平衡，贡献了能源系统的整体稳定性。随着我们朝着更可持续的未来迈进，‘气体储存器’的角色无疑将继续演变，反映技术的进步和能源消费模式的变化。