annular vessel

简明释义

环纹导管

英英释义

例句

1.A properly designed annular vessel can significantly reduce pressure drops in pipelines.

一个设计合理的环形容器可以显著减少管道中的压力损失。

2.The annular vessel was used to separate different phases in the mixture efficiently.

该环形容器用于有效分离混合物中的不同相。

3.Researchers are studying the heat transfer characteristics of an annular vessel under various conditions.

研究人员正在研究在各种条件下环形容器的热传递特性。

4.In the chemical reactor, the annular vessel plays a crucial role in maintaining temperature uniformity.

在化学反应器中，环形容器在保持温度均匀性方面起着关键作用。

5.The engineer designed an annular vessel to optimize the flow of fluids in the system.

工程师设计了一个环形容器以优化系统中流体的流动。

作文

The concept of an annular vessel is crucial in various fields, particularly in engineering and biology. An annular vessel refers to a type of structure that has a ring-like shape, which can be found in both natural and artificial systems. In engineering, it often describes pipes or tubes that are designed in a circular cross-section, allowing for the efficient flow of fluids. This design is not only aesthetically pleasing but also functional, as it minimizes resistance and maximizes flow rates. The annular shape enables the vessel to withstand internal pressures, making it ideal for applications such as oil and gas transportation, water supply systems, and even in HVAC systems where air needs to be circulated efficiently.In biological contexts, annular vessels can refer to structures found in certain plants and animals. For instance, in botany, some vascular plants exhibit annular thickening in their xylem vessels, which helps in the transport of water and nutrients. These annular thickened vessels provide structural support while facilitating the movement of essential substances throughout the plant. Similarly, in human anatomy, certain blood vessels may exhibit an annular structure, which aids in the regulation of blood flow and pressure. The shape allows for optimal expansion and contraction, ensuring that blood circulates efficiently throughout the body.Understanding the significance of annular vessels extends beyond just their physical form; it encompasses their applications and implications in real-world scenarios. Engineers must consider the properties of materials used to construct these vessels, including factors such as tensile strength, corrosion resistance, and thermal conductivity. The choice of material directly impacts the performance and longevity of the vessel, making it a critical aspect of design and manufacturing processes.Moreover, the study of annular vessels invites interdisciplinary collaboration. Engineers, biologists, and environmental scientists often work together to innovate and improve designs that incorporate annular shapes. For example, in the development of sustainable water management systems, understanding how annular structures can enhance water flow and reduce waste is essential. This collaborative approach leads to more efficient designs that can have a positive impact on both the environment and society.In conclusion, the term annular vessel encompasses a wide range of applications and meanings across different disciplines. Whether in engineering or biology, the annular shape plays a vital role in enhancing functionality and efficiency. As we continue to explore and innovate, the understanding and application of annular vessels will undoubtedly evolve, leading to new discoveries and advancements that benefit various industries and ecosystems. Therefore, recognizing the importance of this concept can inspire future generations to think critically about the designs and structures that surround us, fostering a deeper appreciation for the complexities of both nature and technology.

“环形容器”这一概念在多个领域中至关重要，尤其是在工程和生物学中。“环形容器”指的是一种具有环状形状的结构，这种结构可以在自然和人工系统中找到。在工程学中，它通常描述的是设计为圆形横截面的管道或管子，允许流体高效流动。这种设计不仅美观，而且功能性强，因为它最小化了阻力，最大化了流量。环形形状使得容器能够承受内部压力，非常适合应用于石油和天然气运输、水供应系统，甚至在需要高效循环空气的暖通空调系统中。在生物学背景下，“环形容器”可以指某些植物和动物中发现的结构。例如，在植物学中，一些维管植物在其木质部导管中表现出环形加厚，这有助于水分和养分的运输。这些环形加厚的导管提供了结构支持，同时促进了植物内部必需物质的移动。类似地，在人体解剖中，某些血管可能呈现环形结构，这有助于调节血流和血压。这种形状允许最佳的扩张和收缩，确保血液高效循环到全身。理解“环形容器”的重要性超出了其物理形态；它涵盖了在现实场景中的应用和影响。工程师必须考虑用于构建这些容器的材料特性，包括拉伸强度、耐腐蚀性和热导率等因素。材料的选择直接影响容器的性能和寿命，使其成为设计和制造过程中的关键方面。此外，“环形容器”的研究还邀请跨学科合作。工程师、生物学家和环境科学家常常共同努力，创新和改进包含环形形状的设计。例如，在可持续水管理系统的开发中，了解环形结构如何增强水流和减少浪费至关重要。这种协作方法导致更高效的设计，能够对环境和社会产生积极影响。总之，术语“环形容器”涵盖了不同学科中广泛的应用和含义。无论是在工程还是生物学中，环形形状在增强功能性和效率方面发挥着至关重要的作用。随着我们继续探索和创新，对“环形容器”的理解和应用无疑会发展，导致新的发现和进步，造福各个行业和生态系统。因此，认识到这一概念的重要性可以激励未来的几代人批判性地思考包围我们的设计和结构，培养对自然和技术复杂性的更深刻欣赏。