turbine pit

简明释义

水轮机坑

英英释义

例句

1.During the routine checks, they found debris in the turbine pit that could affect performance.

在例行检查中，他们发现涡轮机坑中有杂物，这可能会影响性能。

2.The maintenance team discovered a leak in the turbine pit that needed immediate attention.

维修团队发现涡轮机坑中有一个泄漏，需要立即处理。

3.The design of the turbine pit allows for easy access to the turbine for maintenance.

该涡轮机坑的设计便于对涡轮进行维护。

4.The engineers conducted a thorough inspection of the turbine pit to ensure all components were functioning properly.

工程师们对涡轮机坑进行了彻底检查，以确保所有部件正常运作。

5.Safety protocols require workers to wear protective gear when entering the turbine pit.

安全规程要求工人在进入涡轮机坑时穿戴防护装备。

作文

The concept of a turbine pit is crucial in the field of engineering, particularly within power generation facilities. A turbine pit refers to a designated area or structure where turbines are installed and operated. These pits are designed to accommodate various types of turbines, including steam, gas, and hydro turbines, which play a significant role in converting mechanical energy into electrical energy. The design and construction of a turbine pit must consider several factors, such as safety, accessibility, and efficiency in operation.One of the primary purposes of a turbine pit is to provide a stable and secure environment for the turbines. Given that turbines operate under high pressure and temperature conditions, it is essential that the turbine pit is constructed with durable materials that can withstand these extreme conditions. Additionally, proper drainage systems must be integrated into the design to prevent water accumulation, which could lead to operational hazards.In a hydroelectric power plant, for instance, the turbine pit is often situated below the water level to facilitate the efficient flow of water through the turbines. This positioning helps in harnessing the kinetic energy of flowing water, which is then converted into mechanical energy by the turbines. The turbine pit also allows for easy maintenance access, enabling engineers and technicians to perform routine checks and repairs without disrupting the entire power generation process.Moreover, the layout of a turbine pit is designed to maximize the efficiency of turbine operation. The arrangement of turbines within the pit can significantly influence the overall performance of the power plant. Engineers must carefully consider factors such as the spacing between turbines, the alignment of the turbines concerning the water flow, and the integration of auxiliary systems such as cooling and lubrication.Safety is another critical aspect of turbine pit design. Given the potential hazards associated with turbine operations, including high-speed rotating components and the risk of overheating, the turbine pit must include safety features such as emergency shut-off systems, fire suppression systems, and adequate ventilation. These safety measures are vital for protecting both the equipment and personnel working in and around the turbine pit.Additionally, modern advancements in technology have led to the development of smart monitoring systems that can be integrated into turbine pits. These systems utilize sensors and IoT (Internet of Things) technology to monitor the performance of turbines in real-time, allowing for predictive maintenance and reducing the likelihood of unexpected failures. By implementing these technologies, power plants can enhance their operational efficiency and reduce downtime, ultimately leading to increased energy production.In conclusion, the turbine pit is an integral component of power generation facilities, serving as the foundation for turbine operations. Its design encompasses various considerations, including safety, efficiency, and maintenance accessibility. As technology continues to evolve, the role of the turbine pit will likely become even more critical, with innovations enhancing the performance and reliability of turbines in power generation. Understanding the significance of a turbine pit is essential for professionals in the energy sector, as it directly impacts the effectiveness of energy production and the overall success of power plants.

“涡轮井”的概念在工程领域中至关重要，尤其是在发电设施内。“涡轮井”指的是一个专门的区域或结构，安装和操作涡轮机。这些井旨在容纳各种类型的涡轮机，包括蒸汽涡轮、燃气涡轮和水力涡轮，它们在将机械能转化为电能方面发挥着重要作用。“涡轮井”的设计和建造必须考虑多个因素，例如安全性、可达性和操作效率。“涡轮井”的主要目的之一是为涡轮机提供一个稳定和安全的环境。由于涡轮机在高压和高温条件下运行，因此“涡轮井”必须用耐用材料构建，以承受这些极端条件。此外，必须将适当的排水系统集成到设计中，以防止水积聚，这可能导致操作危险。例如，在水电站中，“涡轮井”通常位于水位以下，以促进水流通过涡轮机的效率。这种位置有助于利用流动水的动能，然后由涡轮机转化为机械能。“涡轮井”还允许便于维护的访问，使工程师和技术人员能够进行例行检查和维修，而不干扰整个发电过程。此外，“涡轮井”的布局旨在最大限度地提高涡轮机的操作效率。井内涡轮机的排列可以显著影响发电厂的整体性能。工程师必须仔细考虑诸如涡轮机之间的间距、涡轮机与水流的对齐以及冷却和润滑等辅助系统的集成等因素。安全性是“涡轮井”设计的另一个关键方面。鉴于与涡轮机操作相关的潜在危险，包括高速旋转部件和过热风险，必须在“涡轮井”中包含安全特性，例如紧急关闭系统、消防抑制系统和足够的通风。这些安全措施对于保护设备和在“涡轮井”内外工作的人员至关重要。此外，现代技术的进步导致了智能监控系统的发展，可以集成到“涡轮井”中。这些系统利用传感器和物联网（IoT）技术实时监测涡轮机的性能，从而实现预测性维护，减少意外故障的可能性。通过实施这些技术，发电厂可以提高操作效率，减少停机时间，最终增加能源生产。总之，“涡轮井”是发电设施的一个重要组成部分，作为涡轮机操作的基础。它的设计涵盖了多个考虑因素，包括安全性、效率和维护可及性。随着技术的不断发展，“涡轮井”的角色可能变得更加重要，创新将提升涡轮机在发电中的性能和可靠性。理解“涡轮井”的重要性对于能源行业的专业人士至关重要，因为它直接影响能源生产的有效性和发电厂的整体成功。