gas intake
简明释义
进气口
英英释义
例句
1.To optimize fuel efficiency, monitor the gas intake regularly.
为了优化燃油效率,定期监测燃气进气。
2.Adjusting the gas intake can lead to better acceleration.
调整燃气进气可以带来更好的加速性能。
3.The car's performance improved after adjusting the gas intake.
调整了燃气进气后,汽车的性能得到了提升。
4.The technician checked the gas intake for any leaks.
技术人员检查了是否有燃气进气的泄漏。
5.A clogged filter can restrict the gas intake in the engine.
堵塞的滤清器会限制发动机的燃气进气。
作文
Understanding the concept of gas intake is crucial in various fields, particularly in automotive engineering and environmental science. In simple terms, gas intake refers to the process of drawing in gases, typically air or fuel vapors, into an engine or a system for combustion or chemical reactions. This process plays a vital role in determining the efficiency and performance of engines, as well as the overall emissions produced. In automotive engines, the gas intake system is designed to maximize the amount of air entering the combustion chamber. The efficiency of this system directly influences the power output and fuel economy of the vehicle. Modern engines often utilize technologies such as turbocharging and variable valve timing to enhance gas intake, allowing for a better mix of air and fuel, which leads to more efficient combustion. Moreover, understanding gas intake is essential for environmental considerations. Vehicles with inefficient gas intake systems tend to emit higher levels of pollutants. By optimizing this process, manufacturers can reduce harmful emissions, contributing to cleaner air and a healthier environment. As a result, many countries have established stringent regulations regarding vehicle emissions, pushing automakers to innovate and improve their gas intake systems. In addition to automotive applications, gas intake is also relevant in industrial processes, such as power generation and chemical manufacturing. For instance, in gas turbines used for electricity production, the gas intake system must be carefully designed to ensure that the right mixture of air and fuel enters the combustion chamber. This not only affects the efficiency of the turbine but also its operational lifespan. Furthermore, in the context of environmental science, gas intake can refer to the absorption of gases by natural systems, such as forests and oceans. These ecosystems play a significant role in regulating atmospheric gases, including carbon dioxide. Understanding how these systems manage gas intake is vital for developing strategies to combat climate change. For example, reforestation initiatives aim to increase the gas intake of carbon dioxide by expanding forested areas, thereby enhancing their ability to absorb greenhouse gases. In conclusion, the term gas intake encompasses a broad range of applications and implications. From improving vehicle performance and reducing emissions in automotive engineering to enhancing energy efficiency in industrial processes and understanding natural ecosystems, gas intake is a fundamental concept that impacts both technology and the environment. As we continue to face challenges related to pollution and climate change, optimizing gas intake systems will remain a critical focus for researchers, engineers, and policymakers alike. By prioritizing advancements in this area, we can work towards a more sustainable future, balancing technological progress with environmental stewardship.
理解气体摄入的概念在多个领域中都是至关重要的,特别是在汽车工程和环境科学中。简单来说,气体摄入指的是将气体,通常是空气或燃料蒸汽,吸入发动机或系统以进行燃烧或化学反应的过程。这个过程在决定发动机的效率和性能以及整体排放方面起着至关重要的作用。在汽车发动机中,气体摄入系统旨在最大化进入燃烧室的空气量。该系统的效率直接影响车辆的功率输出和燃油经济性。现代发动机通常利用涡轮增压和可变气门正时等技术来增强气体摄入,从而实现空气和燃料的更好混合,导致更高效的燃烧。此外,理解气体摄入对环境考虑也至关重要。具有低效气体摄入系统的车辆往往会排放更高水平的污染物。通过优化这一过程,制造商可以减少有害排放,为清洁空气和更健康的环境做出贡献。因此,许多国家已经建立了严格的车辆排放法规,推动汽车制造商进行创新并改善其气体摄入系统。除了汽车应用,气体摄入在工业过程,如发电和化学制造中也很相关。例如,在用于电力生产的燃气轮机中,气体摄入系统必须经过精心设计,以确保正确的空气和燃料混合物进入燃烧室。这不仅影响轮机的效率,还影响其使用寿命。此外,在环境科学的背景下,气体摄入还可以指自然系统(如森林和海洋)对气体的吸收。这些生态系统在调节大气气体(包括二氧化碳)方面发挥着重要作用。了解这些系统如何管理气体摄入对于制定应对气候变化的策略至关重要。例如,重新造林计划旨在通过扩大森林面积来增加二氧化碳的气体摄入,从而增强它们吸收温室气体的能力。总之,气体摄入这个术语涵盖了广泛的应用和影响。从提高车辆性能和降低汽车工程中的排放,到提升工业过程中的能源效率,以及理解自然生态系统,气体摄入是一个影响技术和环境的基本概念。随着我们继续面临与污染和气候变化相关的挑战,优化气体摄入系统将仍然是研究人员、工程师和政策制定者关注的重点。通过优先考虑这一领域的进步,我们可以朝着更加可持续的未来迈进,平衡技术进步与环境保护。
