stationary auxiliary gas turbine

简明释义

固定式辅燃气轮机

英英释义

例句

1.The power plant uses a stationary auxiliary gas turbine to provide backup energy during peak demand.

该电厂使用一台辅助静态燃气轮机在高峰需求期间提供备用能源。

2.The stationary auxiliary gas turbine can quickly start up to support the grid during emergencies.

在紧急情况下，辅助静态燃气轮机可以快速启动以支持电网。

3.Maintenance on the stationary auxiliary gas turbine is crucial to ensure uninterrupted power supply.

对辅助静态燃气轮机的维护对于确保不间断的电力供应至关重要。

4.Engineers conducted a performance test on the stationary auxiliary gas turbine last week.

工程师上周对辅助静态燃气轮机进行了性能测试。

5.Our facility installed a stationary auxiliary gas turbine to enhance energy efficiency.

我们的设施安装了一台辅助静态燃气轮机以提高能源效率。

作文

In the modern industrial landscape, energy efficiency and reliability are paramount. One of the pivotal technologies that contribute to these goals is the stationary auxiliary gas turbine. This device serves as a critical component in various applications, ranging from power generation to marine propulsion systems. Understanding the functionality and significance of the stationary auxiliary gas turbine can provide insights into its role in enhancing operational efficiency. At its core, a stationary auxiliary gas turbine is designed to operate in a fixed position, providing supplementary power or support to main engines or power systems. Unlike mobile gas turbines, which are often used in aircraft or transportation, stationary versions are typically employed in power plants or industrial settings where they can deliver consistent energy output. The ability to generate electricity on demand makes these turbines invaluable, particularly in regions where the energy grid is underdeveloped or unreliable.One of the primary advantages of a stationary auxiliary gas turbine is its quick response time. In situations where peak power demand spikes, these turbines can be activated swiftly, helping to stabilize the grid. This rapid deployment is essential for maintaining the balance between electricity supply and demand, thereby preventing blackouts and ensuring a steady flow of power. Additionally, the flexibility of these turbines allows them to run on various fuels, including natural gas and biogas, making them a versatile choice for many operators.Moreover, the environmental impact of using a stationary auxiliary gas turbine is significantly lower compared to traditional coal-fired power plants. Gas turbines produce fewer emissions, contributing to cleaner air and reduced greenhouse gas outputs. This aligns with global efforts to combat climate change and transition towards more sustainable energy sources. The integration of renewable energy technologies, such as wind and solar, can also benefit from the presence of these turbines, as they can provide backup power when renewable sources are not generating electricity.In addition to their role in energy production, stationary auxiliary gas turbines are also crucial in industrial processes. For example, in oil and gas extraction, they are often used to power pumps and compressors, facilitating the movement of resources from extraction sites to processing facilities. Their reliability in harsh environments makes them an ideal choice for such applications, where downtime can result in significant financial losses.Furthermore, advancements in technology have led to improvements in the efficiency and performance of stationary auxiliary gas turbines. Manufacturers are continuously innovating to enhance fuel efficiency, reduce maintenance requirements, and increase operational lifespan. These developments not only lower the cost of energy production but also ensure that these turbines remain competitive against other forms of energy generation.In conclusion, the stationary auxiliary gas turbine plays a vital role in modern energy systems and industrial operations. Its ability to provide reliable, efficient, and environmentally friendly power makes it an indispensable asset in the quest for sustainable energy solutions. As technology continues to evolve, we can expect to see even greater efficiencies and capabilities from these remarkable machines, further solidifying their importance in the energy landscape of the future.

在现代工业环境中，能源效率和可靠性至关重要。促进这些目标的关键技术之一是固定辅助燃气涡轮机。该设备在各种应用中发挥着关键作用，从发电到海洋推进系统。理解固定辅助燃气涡轮机的功能和重要性可以为其在提高操作效率方面的作用提供见解。从本质上讲，固定辅助燃气涡轮机旨在固定位置运行，为主发动机或电力系统提供补充动力或支持。与通常用于飞机或交通工具的移动燃气涡轮机不同，固定版本通常用于发电厂或工业环境，在这些地方可以提供稳定的能量输出。按需发电的能力使这些涡轮机变得不可或缺，特别是在能源网络不发达或不可靠的地区。固定辅助燃气涡轮机的主要优势之一是其快速响应时间。在电力需求激增的情况下，这些涡轮机可以迅速启动，有助于稳定电网。这种快速部署对于维持电力供需之间的平衡至关重要，从而防止停电并确保电力的稳定流动。此外，这些涡轮机的灵活性使它们能够使用多种燃料，包括天然气和生物气，使它们成为许多运营商的多用途选择。此外，与传统的燃煤电厂相比，使用固定辅助燃气涡轮机的环境影响显著较低。燃气涡轮机排放更少的废气，有助于改善空气质量并减少温室气体排放。这与全球应对气候变化和向更可持续能源来源过渡的努力相一致。可再生能源技术（如风能和太阳能）的整合也可以从这些涡轮机的存在中受益，因为它们可以在可再生能源未发电时提供备用电力。除了在能源生产中的作用外，固定辅助燃气涡轮机在工业过程中也至关重要。例如，在石油和天然气开采中，它们通常用于为泵和压缩机提供动力，促进资源从开采现场移动到加工设施。它们在恶劣环境中的可靠性使它们成为此类应用的理想选择，在这些情况下，停机可能导致重大经济损失。此外，技术的进步导致了固定辅助燃气涡轮机的效率和性能的提高。制造商不断创新，以提高燃料效率，减少维护要求并延长操作寿命。这些发展不仅降低了能源生产的成本，还确保这些涡轮机在其他形式的能源生成中保持竞争力。总之，固定辅助燃气涡轮机在现代能源系统和工业操作中发挥着至关重要的作用。其提供可靠、高效和环保电力的能力使其成为寻求可持续能源解决方案的不可或缺的资产。随着技术的不断发展，我们可以期待看到这些非凡机器的效率和能力进一步提升，从而进一步巩固它们在未来能源格局中的重要性。