multiple jet
简明释义
多孔喷嘴多头射流
英英释义
例句
1.The new engine design features a multiple jet 多喷嘴 system for improved fuel efficiency.
新的发动机设计采用了
2.The multiple jet 多喷嘴 approach is commonly used in aerospace engineering for its efficiency.
多喷嘴方法在航空航天工程中因其效率而被广泛使用。
3.Our research team is developing a multiple jet 多喷嘴 spray mechanism for agricultural applications.
我们的研究团队正在开发一种用于农业应用的多喷嘴喷雾机制。
4.In our experiments, we observed that the multiple jet 多喷嘴 configuration significantly increased thrust.
在我们的实验中,我们观察到
5.The multiple jet 多喷嘴 system allows for better mixing of air and fuel in combustion engines.
多喷嘴系统可以更好地混合空气和燃料在燃烧发动机中。
作文
In the field of fluid dynamics, the concept of multiple jet (多重喷流) systems has garnered significant attention due to their applications in various engineering disciplines. A multiple jet system refers to the simultaneous ejection of multiple jets of fluid from a nozzle or an orifice, which can enhance mixing, cooling, and even propulsion in certain contexts. This phenomenon is not only fascinating from a theoretical perspective but also critical in practical applications such as aerospace engineering, chemical processing, and environmental control. One of the most common examples of multiple jet applications is found in jet engines. In modern aircraft, engines often utilize multiple jet configurations to optimize thrust and fuel efficiency. By directing several jets of exhaust gases in a controlled manner, engineers can manipulate the airflow around the aircraft, significantly improving its performance. The strategic arrangement of these jets can lead to reduced drag and enhanced lift, which are vital for achieving higher speeds and better fuel economy.Another area where multiple jet technology is utilized is in industrial mixing processes. In chemical manufacturing, for instance, achieving a homogeneous mixture of reactants is crucial for ensuring product quality. Employing a multiple jet system allows for more effective dispersion of materials, leading to faster reaction times and improved yields. The ability to control the velocity and direction of each jet can further enhance the mixing process, making it a valuable tool for engineers and chemists alike.In environmental applications, multiple jet systems are used in air pollution control technologies. For example, scrubbers that employ multiple jet streams of water can effectively remove pollutants from industrial emissions. By creating numerous jets that interact with the contaminant-laden air, these systems increase the surface area for absorption, thereby enhancing the overall efficiency of the purification process. This is particularly important in meeting regulatory standards and protecting public health.Furthermore, research into multiple jet flows has led to advancements in understanding turbulent flows and their behaviors. Turbulence plays a significant role in many natural and industrial processes, and studying multiple jet interactions provides insights into flow characteristics that can be applied to improve designs in various sectors. For instance, understanding how multiple jet streams interact can aid in designing better ventilation systems in buildings, ensuring optimal air quality and comfort.In conclusion, the study and application of multiple jet systems are integral to advancements in engineering and technology. From enhancing aircraft performance to improving chemical processes and environmental controls, the significance of multiple jet configurations cannot be overstated. As research continues to evolve, we can expect to see even more innovative uses of this concept across different industries, ultimately contributing to more efficient and sustainable practices worldwide.
在流体动力学领域,multiple jet(多重喷流)系统因其在各个工程学科中的应用而受到广泛关注。multiple jet系统指的是从喷嘴或孔口同时喷出的多个流体喷流,这可以增强混合、冷却,甚至在某些情况下用于推进。这种现象不仅从理论角度令人着迷,而且在航空航天工程、化工处理和环境控制等实际应用中至关重要。multiple jet应用的一个常见例子是喷气发动机。在现代飞机中,发动机通常利用multiple jet配置来优化推力和燃油效率。通过以受控方式引导多个排气喷流,工程师可以操控空气流动,从而显著提高飞机性能。这些喷流的战略性排列可以导致阻力减少和升力增强,这对于实现更高的速度和更好的燃油经济性至关重要。另一个使用multiple jet技术的领域是在工业混合过程中。例如,在化学制造中,实现反应物的均匀混合对确保产品质量至关重要。采用multiple jet系统可以更有效地分散材料,从而加快反应时间并提高产量。控制每个喷流的速度和方向的能力可以进一步增强混合过程,使其成为工程师和化学家都非常珍视的工具。在环境应用中,multiple jet系统被用于空气污染控制技术。例如,采用multiple jet水流的洗涤器可以有效去除工业排放中的污染物。通过创建与含污染物的空气相互作用的众多喷流,这些系统增加了吸收的表面积,从而提高了净化过程的整体效率。这在满足法规标准和保护公共健康方面尤其重要。此外,对multiple jet流动的研究促进了对湍流及其行为的理解。湍流在许多自然和工业过程中发挥着重要作用,研究multiple jet相互作用提供了流动特征的洞察,这可以应用于改进各个领域的设计。例如,了解multiple jet流如何相互作用可以帮助设计出更好的建筑通风系统,确保最佳的空气质量和舒适度。总之,multiple jet系统的研究和应用对工程和技术的发展至关重要。从增强飞机性能到改善化学过程和环境控制,multiple jet配置的重要性不容小觑。随着研究的不断发展,我们可以期待在不同产业中看到这一概念的更多创新应用,最终为全球更高效和可持续的实践做出贡献。
相关单词
