expanded area ratio

简明释义

展开面积比盘面比

英英释义

例句

1.In our research, we found that a higher expanded area ratio significantly improves the efficiency of heat exchangers.

在我们的研究中，我们发现更高的扩展面积比显著提高了热交换器的效率。

2.By optimizing the expanded area ratio, we can reduce costs while maintaining product quality.

通过优化扩展面积比，我们可以在保持产品质量的同时降低成本。

3.Manufacturers are now focusing on products with a better expanded area ratio for better performance.

制造商现在专注于具有更好扩展面积比的产品以获得更好的性能。

4.The expanded area ratio of the new filter design allows for improved air flow and filtration.

新过滤器设计的扩展面积比允许改善空气流动和过滤效果。

5.The design of the new solar panels includes an increased expanded area ratio to maximize energy absorption.

新太阳能电池板的设计包含了增加的扩展面积比以最大化能量吸收。

作文

In the field of engineering and architecture, the concept of expanded area ratio plays a crucial role in optimizing designs for efficiency and functionality. The expanded area ratio is defined as the ratio of the expanded surface area of a structure or material to its original surface area. This metric is significant because it provides insights into how much a design can be improved by increasing the surface area without significantly altering the volume or mass of the material involved. For instance, in the design of heat exchangers, an increased expanded area ratio can lead to better heat transfer efficiency, which is essential for energy conservation and effective thermal management.Understanding the expanded area ratio allows engineers to make informed decisions about material selection and structural design. By maximizing this ratio, one can enhance the performance of various systems, including HVAC (heating, ventilation, and air conditioning) units, chemical reactors, and even electronic devices. For example, in the case of a heat exchanger, a higher expanded area ratio means that there is more surface area available for heat exchange, which translates to improved efficiency and reduced operational costs.Moreover, the expanded area ratio is not just limited to mechanical applications; it also has implications in environmental engineering. When designing systems for water treatment or air purification, engineers seek to maximize the expanded area ratio of filter materials to improve their effectiveness. A larger surface area allows for more contaminants to be captured, leading to cleaner output with less energy consumption.In architecture, the expanded area ratio can influence the aesthetic and functional aspects of a building. Architects often consider this ratio when designing facades, as it can affect natural light penetration and thermal performance. By creatively using materials with high expanded area ratios, architects can create visually appealing structures that are also energy-efficient. This approach aligns with sustainable design principles, which aim to minimize the environmental impact of buildings while maximizing their usability and comfort.However, it is important to note that simply increasing the expanded area ratio is not always beneficial. Engineers must balance this ratio with other factors such as weight, cost, and structural integrity. An excessively high expanded area ratio could lead to complications in manufacturing and assembly, potentially resulting in higher costs and longer construction times. Therefore, understanding the optimal range for the expanded area ratio is essential for achieving the desired outcomes without compromising other critical aspects of the project.In conclusion, the expanded area ratio is a vital parameter in various fields, including engineering, architecture, and environmental science. Its ability to enhance efficiency, improve performance, and contribute to sustainable practices makes it an essential consideration in design processes. As technology advances and the demand for innovative solutions grows, the importance of understanding and applying the expanded area ratio will only increase. Engineers and architects alike must continue to explore new ways to optimize this ratio to meet the challenges of modern design and construction while promoting sustainability and efficiency.

在工程和建筑领域，expanded area ratio（扩展面积比）的概念在优化设计以提高效率和功能性方面发挥着至关重要的作用。expanded area ratio被定义为结构或材料的扩展表面积与其原始表面积的比率。这个指标很重要，因为它提供了关于如何在不显著改变所涉及材料的体积或质量的情况下，通过增加表面积来改善设计的见解。例如，在热交换器的设计中，增加的expanded area ratio可以导致更好的热传递效率，这对于节能和有效的热管理至关重要。理解expanded area ratio使工程师能够就材料选择和结构设计做出明智的决策。通过最大化这个比率，可以提高各种系统的性能，包括HVAC（供暖、通风和空调）单元、化学反应器，甚至电子设备。例如，在热交换器的情况下，更高的expanded area ratio意味着可用于热交换的表面积更多，这转化为更高的效率和更低的运营成本。此外，expanded area ratio不仅限于机械应用；它在环境工程中也有影响。当设计水处理或空气净化系统时，工程师寻求最大化过滤材料的expanded area ratio以提高其有效性。更大的表面积允许捕获更多污染物，从而导致更清洁的输出和更少的能量消耗。在建筑学中，expanded area ratio可以影响建筑的美学和功能方面。建筑师在设计外立面时经常考虑这个比率，因为它会影响自然光的渗透和热性能。通过创造性地使用具有高expanded area ratio的材料，建筑师可以创建既美观又节能的结构。这种方法与可持续设计原则相一致，旨在最小化建筑对环境的影响，同时最大化其可用性和舒适度。然而，需要注意的是，仅仅增加expanded area ratio并不总是有利的。工程师必须将此比率与其他因素如重量、成本和结构完整性进行平衡。过高的expanded area ratio可能会导致制造和组装中的复杂性，可能导致更高的成本和更长的施工时间。因此，了解expanded area ratio的最佳范围对于实现所需结果而不妥协项目的其他关键方面至关重要。总之，expanded area ratio是各个领域的重要参数，包括工程、建筑和环境科学。它增强效率、改善性能及促进可持续实践的能力使其成为设计过程中必须考虑的要素。随着技术进步和对创新解决方案需求的增长，理解和应用expanded area ratio的重要性只会增加。工程师和建筑师必须继续探索优化这一比率的新方法，以应对现代设计和建造的挑战，同时促进可持续性和效率。