intake efficiency

简明释义

进气效率

英英释义

例句

1.The intake efficiency of a plant can affect its overall growth and productivity.

植物的进气效率会影响其整体生长和生产力。

2.Research shows that higher intake efficiency can lead to better fuel economy.

研究表明，更高的进气效率可以带来更好的燃油经济性。

3.Engineers are testing new materials to improve the intake efficiency of combustion engines.

工程师正在测试新材料以提高内燃机的进气效率。

4.The new engine design has significantly improved the intake efficiency of the vehicle.

新的发动机设计显著提高了车辆的进气效率。

5.By optimizing the air filter, we can enhance the intake efficiency of our HVAC system.

通过优化空气过滤器，我们可以提高HVAC系统的进气效率。

作文

In the realm of engineering and environmental science, the term intake efficiency refers to the effectiveness with which a system or process can absorb or take in resources, such as air, water, or nutrients. This concept is crucial not only in industrial applications but also in everyday life, where understanding intake efficiency can lead to significant improvements in performance and sustainability. For instance, in the context of an internal combustion engine, intake efficiency determines how well the engine can draw in air-fuel mixtures for combustion. A higher intake efficiency means that the engine can produce more power while consuming less fuel, thereby enhancing overall performance and reducing emissions.Moreover, intake efficiency is also a vital consideration in agriculture, particularly in the cultivation of crops. Plants require specific nutrients and water to thrive, and their ability to absorb these resources effectively is directly linked to their growth and yield. By optimizing intake efficiency, farmers can ensure that their crops receive the maximum benefit from fertilizers and irrigation, leading to increased productivity and reduced waste.In addition to these applications, intake efficiency plays a significant role in the design of various filtration systems. For example, water treatment facilities rely on the intake efficiency of their systems to ensure that contaminants are effectively removed from water sources. A high intake efficiency in this context means that the facility can process large volumes of water quickly while maintaining high standards of cleanliness and safety.Furthermore, the concept of intake efficiency extends beyond physical systems to include human health and nutrition. In dietary terms, intake efficiency can refer to how well our bodies absorb and utilize the nutrients we consume. For instance, certain foods are more bioavailable than others, meaning that our bodies can more easily extract and use the nutrients they contain. By focusing on foods with high intake efficiency, individuals can improve their overall health and wellness.To illustrate the importance of intake efficiency, consider the example of energy consumption in households. By improving the intake efficiency of heating and cooling systems, homeowners can reduce energy costs and minimize their environmental footprint. This could involve upgrading insulation, sealing leaks, or using more efficient appliances. The benefits of such improvements are twofold: they not only save money but also contribute to a more sustainable future.In conclusion, intake efficiency is a multifaceted concept that has far-reaching implications across various fields, from engineering to agriculture and even personal health. Understanding and optimizing intake efficiency can lead to improved performance, reduced waste, and enhanced sustainability. As we continue to face global challenges such as climate change and resource scarcity, prioritizing intake efficiency in our systems and practices will be essential in creating a more efficient and sustainable world.

在工程和环境科学领域，术语intake efficiency指的是一个系统或过程吸收或获取资源（如空气、水或营养物质）的有效性。这个概念不仅在工业应用中至关重要，在日常生活中，理解intake efficiency也可以显著改善性能和可持续性。例如，在内燃机的背景下，intake efficiency决定了发动机吸入空气-燃料混合物进行燃烧的能力。更高的intake efficiency意味着发动机可以在消耗更少燃料的情况下产生更多动力，从而提高整体性能并减少排放。此外，intake efficiency在农业中也是一个重要的考虑因素，尤其是在作物种植中。植物需要特定的营养物质和水分才能生长，而它们有效吸收这些资源的能力与生长和产量直接相关。通过优化intake efficiency，农民可以确保他们的作物最大限度地从肥料和灌溉中受益，从而提高生产力并减少浪费。除了这些应用，intake efficiency在各种过滤系统的设计中也起着重要作用。例如，水处理设施依赖于其系统的intake efficiency来确保有效去除水源中的污染物。在这种情况下，高intake efficiency意味着设施可以快速处理大量水，同时维持高标准的清洁和安全。此外，intake efficiency的概念超越了物理系统，还包括人类健康和营养。在饮食方面，intake efficiency可以指我们的身体如何有效吸收和利用我们所消费的营养素。例如，某些食物的生物利用度比其他食物更高，这意味着我们的身体可以更容易地提取和使用它们所含的营养素。通过关注具有高intake efficiency的食物，个人可以改善整体健康和福祉。为了说明intake efficiency的重要性，考虑家庭能源消耗的例子。通过提高供暖和制冷系统的intake efficiency，房主可以降低能源成本并最小化他们的环境足迹。这可能涉及升级绝缘材料、密封泄漏或使用更高效的电器。这些改善的好处是双重的：不仅节省了金钱，还为更可持续的未来做出了贡献。总之，intake efficiency是一个多方面的概念，在各个领域都有深远的影响，从工程到农业，甚至个人健康。理解和优化intake efficiency可以带来改进的性能、减少的浪费和增强的可持续性。随着我们继续面临气候变化和资源短缺等全球挑战，在我们的系统和实践中优先考虑intake efficiency将对创造一个更高效和可持续的世界至关重要。