divided flow turbine

简明释义

分流式涡轮机

英英释义

例句

1.The divided flow turbine 分流涡轮机 design allows for better handling of variable flow rates in rivers.

这种分流涡轮机设计能够更好地处理河流中的可变流量。

2.Engineers are exploring the use of a divided flow turbine 分流涡轮机 to improve water management systems.

工程师们正在探索使用分流涡轮机来改善水管理系统。

3.In recent studies, the divided flow turbine 分流涡轮机 has shown promising results in energy generation.

在最近的研究中，分流涡轮机在能源生成方面显示出良好的结果。

4.The divided flow turbine 分流涡轮机 can be integrated into existing infrastructure with minimal modifications.

该分流涡轮机可以在最小修改的情况下集成到现有基础设施中。

5.The efficiency of the divided flow turbine 分流涡轮机 is significantly higher than that of traditional turbines in hydroelectric plants.

在水电站中，分流涡轮机的效率明显高于传统涡轮机。

作文

The concept of a divided flow turbine is essential in the field of fluid mechanics and energy generation. This type of turbine is designed to efficiently convert the kinetic energy of flowing fluids into mechanical energy, which can then be transformed into electrical energy. The divided flow turbine operates by splitting the flow of water or another working fluid into multiple paths, allowing for a more effective interaction with the turbine blades. This design not only increases efficiency but also enhances the performance of the turbine under varying operational conditions.In many hydroelectric power plants, the use of a divided flow turbine has become increasingly popular due to its ability to handle large volumes of water while maintaining optimal performance. The division of flow reduces the risk of cavitation, a phenomenon that can cause damage to turbine blades and reduce efficiency. By managing the flow effectively, the divided flow turbine ensures a smoother operation and extends the lifespan of the equipment.Moreover, the divided flow turbine is particularly beneficial in applications where the flow rate fluctuates significantly. For instance, in rivers with variable water levels, this turbine can adapt to changing conditions, ensuring consistent energy output. The design allows for a more uniform distribution of pressure across the turbine blades, reducing stress and wear.In addition to its practical advantages, the divided flow turbine also plays a vital role in sustainability efforts. As the world increasingly shifts towards renewable energy sources, the efficiency of turbines becomes crucial. By implementing advanced designs like the divided flow turbine, energy producers can maximize the amount of energy extracted from natural resources, thereby reducing the need for fossil fuels.Furthermore, research and development in the area of divided flow turbine technology are ongoing. Engineers are continuously looking for ways to improve the efficiency and reliability of these turbines. Innovations such as enhanced blade designs, improved materials, and advanced computational fluid dynamics simulations are paving the way for the next generation of divided flow turbines. These advancements not only promise better performance but also contribute to reducing the environmental impact of energy production.In conclusion, the divided flow turbine represents a significant advancement in turbine technology. Its ability to manage fluid flow effectively makes it a preferred choice in various applications, particularly in renewable energy generation. As we move towards a more sustainable future, the importance of efficient energy conversion technologies like the divided flow turbine cannot be overstated. By harnessing the power of flowing fluids more effectively, we can ensure a cleaner and more efficient energy landscape for generations to come.

“分流涡轮”这一概念在流体力学和能源生成领域中至关重要。这种类型的涡轮旨在有效地将流动流体的动能转化为机械能，然后再转化为电能。“分流涡轮”的工作原理是将水或其他工作流体的流动分成多个路径，从而实现与涡轮叶片的更有效互动。这种设计不仅提高了效率，还增强了涡轮在不同操作条件下的性能。在许多水电站中，由于其能够处理大量水流并保持最佳性能，“分流涡轮”变得越来越受欢迎。流量的分割减少了汽蚀的风险，汽蚀是一种可能导致涡轮叶片损坏并降低效率的现象。通过有效管理流动，“分流涡轮”确保了更平稳的操作并延长了设备的使用寿命。此外，“分流涡轮”在流量波动显著的应用中尤为有益。例如，在水位变化的河流中，这种涡轮可以适应变化的条件，确保稳定的能量输出。这种设计允许在涡轮叶片上均匀分布压力，减少应力和磨损。除了实用优势外，“分流涡轮”在可持续发展努力中也发挥着重要作用。随着世界日益转向可再生能源，涡轮的效率变得至关重要。通过实施像“分流涡轮”这样的先进设计，能源生产者可以最大限度地提取自然资源中的能量，从而减少对化石燃料的需求。此外，在“分流涡轮”技术领域的研究和开发仍在进行中。工程师们不断寻找提高这些涡轮效率和可靠性的方法。诸如改进叶片设计、改进材料和先进的计算流体动力学模拟等创新正在为下一代“分流涡轮”铺平道路。这些进步不仅承诺更好的性能，还有助于减少能源生产对环境的影响。总之，“分流涡轮”代表了涡轮技术的重要进步。它有效管理流体流动的能力使其成为各种应用中的首选，尤其是在可再生能源生成方面。随着我们向更可持续的未来迈进，像“分流涡轮”这样高效的能源转换技术的重要性不容小觑。通过更有效地利用流动流体的力量，我们可以确保为子孙后代创造一个更清洁、更高效的能源格局。