partial admission turbine

简明释义

部分于是汽式汽轮机

英英释义

例句

1.The efficiency of the partial admission turbine 部分进气涡轮机 can significantly improve under varying load conditions.

在不同负载条件下，部分进气涡轮机 partial admission turbine 的效率可以显著提高。

2.The design of a partial admission turbine 部分进气涡轮机 allows for better control of exhaust emissions.

部分进气涡轮机 partial admission turbine 的设计允许更好地控制排放。

3.In power generation, a partial admission turbine 部分进气涡轮机 is often used to enhance overall system performance.

在发电中，部分进气涡轮机 partial admission turbine 通常用于增强整体系统性能。

4.Engineers are exploring the benefits of using a partial admission turbine 部分进气涡轮机 in modern jet engines.

工程师们正在探索在现代喷气发动机中使用 部分进气涡轮机 partial admission turbine 的好处。

5.A partial admission turbine 部分进气涡轮机 can help reduce noise levels in urban areas.

在城市地区，部分进气涡轮机 partial admission turbine 可以帮助降低噪音水平。

作文

The concept of a partial admission turbine is crucial in the field of fluid dynamics and energy generation. These turbines are designed to optimize efficiency by allowing only a portion of the flow to enter the turbine at any given time. This design helps in managing the flow characteristics and pressure drops across the turbine, making it particularly useful in applications where variable flow rates are common. For instance, in hydroelectric power plants, water flow can fluctuate due to seasonal changes or operational demands. By employing a partial admission turbine (部分进水涡轮), operators can maintain a more consistent performance despite these variations.The advantages of using a partial admission turbine are numerous. Firstly, they can significantly reduce cavitation risks, which is the formation of vapor bubbles in a liquid that can cause damage to the turbine blades. By controlling the flow admission, the turbine can operate within safer limits, thus prolonging its lifespan and reducing maintenance costs. Secondly, these turbines tend to have a higher efficiency at varying loads compared to traditional full admission turbines. This means that even when the flow is not at maximum capacity, the turbine can still generate a substantial amount of energy without wasting resources.Moreover, the partial admission turbine is advantageous in terms of installation flexibility. Since they can handle different flow rates effectively, they can be incorporated into existing systems with relative ease. This adaptability makes them an attractive option for retrofitting older facilities that may not have been designed with modern full-load conditions in mind.In addition to their practical benefits, the partial admission turbine also represents an important technological advancement. Engineers and designers are continually researching ways to improve turbine performance, and the development of partial admission designs is a testament to this ongoing innovation. Computational fluid dynamics simulations and advanced materials are being utilized to refine the performance characteristics of these turbines further, ensuring they meet the demands of future energy needs.Overall, the partial admission turbine (部分进水涡轮) exemplifies the intersection of engineering ingenuity and practical application. As the world shifts towards more sustainable energy solutions, understanding and implementing such technologies will be vital. With the capacity to adapt to varying flow conditions, improve efficiency, and reduce operational risks, partial admission turbines offer a promising avenue for enhancing energy generation systems worldwide. Their role in the transition to renewable energy sources cannot be overstated, as they provide a reliable means of harnessing natural resources while minimizing environmental impact. Thus, the study and application of partial admission turbines will remain a focal point for engineers and researchers alike in the coming years.

部分进水涡轮的概念在流体动力学和能源生成领域至关重要。这些涡轮设计用于通过允许只有一部分流量在任何给定时间进入涡轮来优化效率。这种设计有助于管理流动特性和涡轮的压力降，使其在流量变化的应用中特别有用。例如，在水电站中，由于季节变化或操作需求，水流可能会波动。通过采用部分进水涡轮，操作员可以在这些变化中保持更一致的性能。使用部分进水涡轮的优势是众多的。首先，它们可以显著降低气蚀风险，即液体中形成气泡的现象，这可能会对涡轮叶片造成损害。通过控制流量的进水，涡轮可以在更安全的范围内运行，从而延长其使用寿命并降低维护成本。其次，与传统的全进水涡轮相比，这些涡轮在不同负载下的效率通常更高。这意味着即使在流量没有达到最大容量时，涡轮仍然可以生成大量能源，而不会浪费资源。此外，部分进水涡轮在安装灵活性方面也具有优势。由于它们能够有效处理不同的流量，因此可以相对容易地融入现有系统。这种适应性使它们成为改造较旧设施的有吸引力的选择，因为这些设施可能没有考虑到现代全负荷条件。除了实际的好处之外，部分进水涡轮还代表了一项重要的技术进步。工程师和设计师正在不断研究提高涡轮性能的方法，而部分进水设计的发展就是这一持续创新的证明。计算流体动力学模拟和先进材料正在被用来进一步优化这些涡轮的性能特征，确保它们满足未来能源需求的挑战。总体而言，部分进水涡轮（部分进水涡轮）体现了工程智慧与实际应用的交汇点。随着世界向更可持续的能源解决方案转变，理解和实施这些技术将至关重要。凭借适应不同流动条件的能力、提高效率和降低操作风险，部分进水涡轮为全球能源生成系统的增强提供了有前景的途径。它们在过渡到可再生能源来源中的角色不可低估，因为它们提供了一种可靠的方式来利用自然资源，同时最小化环境影响。因此，部分进水涡轮的研究和应用将在未来几年继续成为工程师和研究人员的重点。