cross-compound single-flow
简明释义
双轴单排汽
英英释义
例句
1.The new software architecture utilizes a cross-compound single-flow model to enhance data processing efficiency.
新软件架构利用了交叉复合单流模型来提高数据处理效率。
2.The cross-compound single-flow approach allows for better resource allocation in complex networks.
这种交叉复合单流方法允许在复杂网络中更好地分配资源。
3.In our latest project, we implemented a cross-compound single-flow system to streamline operations across departments.
在我们最新的项目中,我们实施了一个交叉复合单流系统,以简化各部门的操作。
4.Our research indicates that a cross-compound single-flow framework improves communication between different systems.
我们的研究表明,交叉复合单流框架改善了不同系统之间的沟通。
5.By adopting a cross-compound single-flow strategy, the company was able to reduce operational costs significantly.
通过采用交叉复合单流策略,公司能够显著降低运营成本。
作文
In the realm of engineering and fluid dynamics, the term cross-compound single-flow refers to a specific configuration used in various systems, particularly in turbines and pumps. Understanding this concept is crucial for professionals in these fields, as it has significant implications for efficiency and performance. To grasp the full meaning of cross-compound single-flow, we must break down its components: 'cross-compound' and 'single-flow'.The term 'cross-compound' indicates a system where two or more components are arranged in such a way that they work together to enhance performance. In many engineering applications, especially in power generation, cross-compound systems allow for the combination of different types of turbines or engines, which can lead to improved energy conversion rates. This arrangement often results in a more compact design, reducing the overall footprint of the machinery while maximizing output.On the other hand, 'single-flow' signifies that the flow of fluids—be it water, steam, or gas—travels in one direction through the system. This unidirectional flow is essential in maintaining a consistent and efficient operation, as it minimizes turbulence and potential backflow issues that can arise in more complex systems. By ensuring that the fluid moves in a single direction, engineers can better control the dynamics of the system, leading to enhanced reliability and predictability in performance.Combining these two concepts, a cross-compound single-flow system can be visualized as a highly efficient mechanism where multiple energy conversion processes occur simultaneously without the complications of reverse flow. For instance, in a power plant, a cross-compound single-flow turbine might utilize both steam and gas to generate electricity, with each component contributing to the overall efficiency of the system.One of the primary advantages of using a cross-compound single-flow configuration is the potential for increased efficiency. By optimizing the interaction between different energy sources and ensuring a smooth, unidirectional flow, engineers can significantly enhance the output of their systems. This not only leads to cost savings in terms of fuel consumption but also contributes to a reduction in environmental impact, as more efficient systems tend to produce fewer emissions.Moreover, the implementation of cross-compound single-flow systems can also facilitate maintenance and operational simplicity. With fewer moving parts and a more straightforward flow path, these systems can be easier to troubleshoot and repair. This is particularly important in industries where downtime can lead to substantial financial losses.In conclusion, the understanding of cross-compound single-flow systems is vital for engineers and technicians working in fluid dynamics and energy production. By leveraging the benefits of cross-compounding and ensuring a single-directional flow, these systems can achieve remarkable efficiencies and reliability. As technology advances, the importance of such configurations will only grow, making it essential for professionals in the field to fully comprehend and apply these principles in their designs and operations.
在工程和流体动力学领域,短语cross-compound single-flow指的是在各种系统中使用的特定配置,尤其是在涡轮机和泵中。理解这一概念对这些领域的专业人士至关重要,因为它对效率和性能有着重要影响。要全面理解cross-compound single-flow的含义,我们必须分解其组成部分:'cross-compound'和'single-flow'。'cross-compound'一词表示系统中两个或更多组件以某种方式排列在一起,以提高性能。在许多工程应用中,特别是在发电领域,交叉复合系统允许不同类型的涡轮机或发动机组合,这可以提高能源转换率。这种布置通常会导致更紧凑的设计,减少机械设备的整体占地面积,同时最大化输出。另一方面,'single-flow'意味着流体(无论是水、蒸汽还是气体)在系统中以一个方向流动。这种单向流动对于保持一致和高效的操作至关重要,因为它最小化了湍流和可能出现的回流问题,这些问题可能出现在更复杂的系统中。通过确保流体朝一个方向移动,工程师可以更好地控制系统的动态,从而提高可靠性和性能的可预测性。将这两个概念结合起来,可以将cross-compound single-flow系统视为一种高效的机制,其中多个能量转换过程同时发生,而不会出现逆流的复杂性。例如,在电厂中,交叉复合单流涡轮可能利用蒸汽和气体来发电,每个组件都对系统的整体效率做出贡献。使用cross-compound single-flow配置的主要优点之一是提高效率的潜力。通过优化不同能源源之间的相互作用并确保平稳的单向流动,工程师可以显著提高系统的输出。这不仅在燃料消耗方面节省成本,还减少了环境影响,因为更高效的系统往往产生更少的排放。此外,实施cross-compound single-flow系统还可以促进维护和操作的简单性。由于运动部件较少且流动路径更简单,这些系统可以更容易排除故障和维修。这在停机时间可能导致重大经济损失的行业中尤为重要。总之,理解cross-compound single-flow系统对于从事流体动力学和能源生产的工程师和技术人员至关重要。通过利用交叉复合的好处并确保单向流动,这些系统可以实现显著的效率和可靠性。随着技术的进步,这种配置的重要性只会增加,因此该领域的专业人士必须充分理解和应用这些原则于他们的设计和操作中。
