annular chamber

简明释义

环形进气室

英英释义

例句

1.In the laboratory, we measured the pressure within the annular chamber to ensure proper functioning of the reactor.

在实验室中，我们测量了环形腔内的压力，以确保反应器的正常运行。

2.The design of the turbine includes an annular chamber, which helps in optimizing the flow of water.

涡轮的设计包括一个环形腔，这有助于优化水流。

3.Engineers discovered a leak in the annular chamber during routine maintenance checks.

工程师在例行维护检查中发现环形腔有泄漏。

4.The annular chamber is crucial for maintaining the structural integrity of the pipeline system.

对于维护管道系统的结构完整性，环形腔是至关重要的。

5.The annular chamber design allows for better heat dissipation in high-performance engines.

这种环形腔设计可以在高性能发动机中更好地散热。

作文

The concept of an annular chamber is fundamental in various fields, particularly in engineering and fluid dynamics. An annular chamber refers to a space that is shaped like a ring or a hollow cylinder, where the inner diameter is smaller than the outer diameter. This design allows for unique flow characteristics and is often utilized in applications such as pumps, turbines, and heat exchangers. The annular shape facilitates the movement of fluids around the central core, providing efficient pathways for circulation.One of the most notable uses of an annular chamber is in the design of certain types of engines, particularly those that require optimal cooling and fuel efficiency. In these engines, the annular chamber serves to create a more uniform temperature distribution, which is crucial for maintaining performance and longevity. By allowing coolant to flow evenly around the engine components, engineers can prevent hotspots that may lead to overheating or mechanical failure.Another significant application of the annular chamber is found in the realm of chemical reactors. In processes where mixing and reaction rates are critical, the annular chamber provides an ideal environment. The geometry of the chamber promotes effective mixing of reactants, ensuring that they come into contact with one another in a controlled manner. This design not only enhances the efficiency of chemical reactions but also helps in managing by-products effectively, thereby improving overall process yields.In the field of aerospace engineering, the annular chamber is utilized in combustion chambers of rocket engines. The design allows for a more compact structure while maximizing the surface area for combustion. As fuel and oxidizer are injected into the annular chamber, they mix and ignite, producing thrust that propels the rocket forward. The efficient use of space and materials in this design is essential for the success of modern space missions.Moreover, the annular chamber has applications in medical technology, particularly in devices such as blood pumps and artificial hearts. The design ensures that blood flows smoothly through the device, minimizing turbulence and reducing the risk of clot formation. By optimizing the flow dynamics within the annular chamber, medical engineers can create devices that are safer and more effective for patients.In conclusion, the annular chamber is a versatile and vital component in many technological applications. Its unique geometric properties enable efficient fluid flow, enhanced mixing, and improved thermal management. Understanding the principles behind the annular chamber allows engineers and scientists to innovate and improve systems across various industries, from aerospace to healthcare. As technology continues to advance, the importance of optimizing designs that incorporate the annular chamber will only grow, highlighting its significance in future developments.

“环形腔”这一概念在多个领域中都是基础，尤其是在工程和流体动力学中。环形腔是指一个形状像环或空心圆柱的空间，其中内径小于外径。这种设计允许独特的流动特性，并且常用于泵、涡轮机和热交换器等应用中。环形的形状便于流体围绕中央核心移动，为循环提供了有效的通道。环形腔最显著的用途之一是在某些类型发动机的设计中，特别是那些需要最佳冷却和燃料效率的发动机。在这些发动机中，环形腔的作用是创建更均匀的温度分布，这对于维持性能和寿命至关重要。通过使冷却液均匀流动在发动机组件周围，工程师可以防止可能导致过热或机械故障的热点。环形腔的另一个重要应用出现在化学反应器领域。在混合和反应速率至关重要的过程中，环形腔提供了理想的环境。腔体的几何形状促进了反应物的有效混合，确保它们以受控的方式接触。这种设计不仅提高了化学反应的效率，还有助于有效管理副产品，从而改善整体过程产量。在航空航天工程领域，环形腔被用于火箭发动机的燃烧室。该设计允许结构更加紧凑，同时最大化燃烧的表面积。当燃料和氧化剂注入环形腔时，它们混合并点燃，产生推动火箭前进的推力。这种设计在空间和材料的高效利用对现代太空任务的成功至关重要。此外，环形腔在医疗技术中也有应用，特别是在血液泵和人工心脏等设备中。该设计确保血液在设备中平稳流动，最小化湍流并减少血块形成的风险。通过优化环形腔内的流动动态，医疗工程师可以创造出对患者更安全、更有效的设备。总之，环形腔是许多技术应用中的一种多功能和重要的组件。其独特的几何特性使得流体流动高效、混合增强、热管理改善。理解环形腔背后的原理使工程师和科学家能够在各个行业中创新和改进系统，从航空航天到医疗保健。随着技术的不断进步，优化包含环形腔的设计的重要性将只会增加，突显出其在未来发展的重要性。