overhung turbine

简明释义

悬挂式燃气轮机

英英释义

例句

1.The overhung turbine design allows for easier maintenance compared to traditional setups.

悬臂涡轮机设计相比传统设备更便于维护。

2.Engineers are evaluating the performance of the overhung turbine under various load conditions.

工程师正在评估在不同负荷条件下悬臂涡轮机的性能。

3.The installation of the overhung turbine is crucial for maximizing efficiency in this power plant.

安装悬臂涡轮机对提高这座发电厂的效率至关重要。

4.We have chosen an overhung turbine for its compact size and high output capabilities.

我们选择了悬臂涡轮机，因为它体积小且输出能力强。

5.The overhung turbine has been installed at the site, and initial tests show promising results.

悬臂涡轮机已在现场安装，初步测试结果显示良好。

作文

The concept of an overhung turbine is crucial in the field of mechanical engineering, particularly in the design and application of turbines used for energy generation. An overhung turbine refers to a type of turbine where the rotor is supported by bearings that are positioned at one end, while the other end extends beyond the support structure. This design allows for a more compact system but also poses unique engineering challenges. Understanding the mechanics behind an overhung turbine is essential for optimizing its performance and ensuring reliability in various applications.One of the primary advantages of an overhung turbine is its ability to save space. In many industrial settings, there is a premium on available space, and the compact nature of an overhung turbine makes it an attractive option. For example, in power plants or manufacturing facilities, the installation of an overhung turbine can lead to significant savings in both floor space and construction costs. Additionally, this type of turbine can be easier to maintain, as the rotor is more accessible compared to other turbine designs.However, the design of an overhung turbine does not come without its drawbacks. The positioning of the rotor can lead to increased stress on the bearings due to the cantilever effect. This means that the forces acting on the rotor can create moments that may lead to premature wear or failure of the bearings if not properly managed. Engineers must carefully calculate the loads and stresses involved in the operation of an overhung turbine to ensure that it operates safely and efficiently.Another important consideration when working with an overhung turbine is the balance of the rotor. Since the rotor is extended from the support structure, any imbalance can result in vibrations that may compromise the integrity of the turbine. Vibration analysis is a critical aspect of maintaining an overhung turbine, and regular monitoring can prevent costly downtime and repairs. Engineers often use advanced technologies to monitor vibrations and make necessary adjustments to maintain optimal performance.In conclusion, the overhung turbine represents a unique solution in turbine design, offering benefits such as space efficiency and ease of maintenance. However, it also requires careful engineering considerations to address the challenges associated with its design. As the demand for renewable energy sources continues to grow, the relevance of overhung turbines in various applications will likely increase. Understanding their mechanics and operational principles will be vital for engineers and technicians working in the energy sector. By leveraging the advantages and addressing the challenges of the overhung turbine, we can contribute to the development of more efficient and sustainable energy systems.

“overhung turbine”的概念在机械工程领域尤为重要，特别是在用于能源发电的涡轮机的设计和应用中。“overhung turbine”指的是一种涡轮机，其转子由位于一端的轴承支撑，而另一端则超出支撑结构。这种设计允许更紧凑的系统，但也带来了独特的工程挑战。理解“overhung turbine”背后的机械原理对于优化其性能和确保在各种应用中的可靠性至关重要。“overhung turbine”的一个主要优点是能够节省空间。在许多工业环境中，可用空间是非常宝贵的，而“overhung turbine”的紧凑特性使其成为一个有吸引力的选择。例如，在发电厂或制造设施中，安装“overhung turbine”可以显著节省地面空间和建筑成本。此外，这种类型的涡轮机维护起来可能更容易，因为与其他涡轮机设计相比，转子更易于接触。然而，“overhung turbine”的设计并非没有缺点。转子的定位可能会导致由于悬臂效应而增加对轴承的压力。这意味着作用于转子的力量可能会产生力矩，如果管理不当，可能会导致轴承过早磨损或故障。工程师必须仔细计算“overhung turbine”操作中涉及的载荷和应力，以确保其安全高效地运行。在使用“overhung turbine”时，另一个重要考虑因素是转子的平衡。由于转子从支撑结构延伸，任何不平衡都可能导致振动，从而可能危及涡轮机的完整性。振动分析是维护“overhung turbine”的关键方面，定期监测可以防止昂贵的停机和维修。工程师通常使用先进技术来监测振动，并进行必要的调整以保持最佳性能。总之，“overhung turbine”代表了一种独特的涡轮机设计解决方案，具有节省空间和维护方便等优点。然而，它也需要仔细的工程考虑，以解决与其设计相关的挑战。随着对可再生能源需求的不断增长，“overhung turbine”在各种应用中的相关性可能会增加。理解其机械原理和操作原则将对在能源行业工作的工程师和技术人员至关重要。通过利用“overhung turbine”的优势并解决其挑战，我们可以为开发更高效和可持续的能源系统做出贡献。