combustion controller

简明释义

燃烧控制器

英英释义

例句

1.The technician calibrated the combustion controller to optimize performance.

技术员校准了燃烧控制器以优化性能。

2.We installed a combustion controller to reduce emissions in our power plant.

我们安装了一个燃烧控制器以减少我们发电厂的排放。

3.The new combustion controller improves the efficiency of the furnace significantly.

新的燃烧控制器显著提高了炉子的效率。

4.With the combustion controller, we can monitor fuel consumption in real-time.

有了燃烧控制器，我们可以实时监控燃料消耗。

5.The combustion controller adjusts the air-fuel ratio automatically.

燃烧控制器会自动调整空气与燃料的比例。

作文

In modern engineering and technology, the term combustion controller refers to a sophisticated system designed to regulate the combustion process in various applications. This technology is crucial in ensuring that fuel is burned efficiently, thereby maximizing energy output while minimizing harmful emissions. The role of a combustion controller is pivotal in numerous industries, including power generation, automotive, and manufacturing. It helps maintain optimal combustion conditions by adjusting parameters such as air-fuel ratio, ignition timing, and temperature. The importance of a combustion controller cannot be overstated, especially in the context of environmental sustainability. As the world faces increasing pressure to reduce greenhouse gas emissions, industries are turning to advanced technologies like combustion controllers to meet regulatory standards and reduce their carbon footprint. By optimizing the combustion process, these controllers can significantly decrease the amount of unburned fuel and pollutants released into the atmosphere. Moreover, a combustion controller enhances operational efficiency. In power plants, for instance, an efficient combustion process translates to higher electricity generation with lower fuel consumption. This not only leads to cost savings but also contributes to a more sustainable energy future. In the automotive industry, vehicles equipped with advanced combustion controllers exhibit improved fuel efficiency and reduced emissions, making them more environmentally friendly and compliant with emission regulations. The technology behind combustion controllers has evolved significantly over the years. Early systems were primarily mechanical, relying on simple feedback mechanisms to adjust combustion parameters. However, with advancements in digital technology, modern combustion controllers now utilize sophisticated algorithms and sensors to monitor and adjust the combustion process in real-time. This allows for precise control and adaptability to changing operating conditions, which is essential for maximizing performance and efficiency. In addition to improving efficiency and reducing emissions, combustion controllers also enhance safety in combustion processes. By continuously monitoring combustion conditions, these systems can detect anomalies such as flame instability or excessive temperatures, which could lead to dangerous situations. With built-in safety features, combustion controllers can automatically shut down the system or make necessary adjustments to prevent accidents, thereby protecting both equipment and personnel. In conclusion, the role of a combustion controller is integral to modern combustion systems across various sectors. Its ability to optimize fuel usage, enhance efficiency, reduce emissions, and improve safety makes it an essential component in the quest for sustainable and responsible energy use. As technology continues to advance, we can expect combustion controllers to become even more sophisticated, playing a critical role in shaping the future of energy production and consumption. Understanding the functionality and significance of combustion controllers is vital for anyone involved in engineering, environmental science, or energy management.

在现代工程和技术中，术语combustion controller指的是一种复杂的系统，旨在调节各种应用中的燃烧过程。这项技术在确保燃料高效燃烧方面至关重要，从而最大限度地提高能源输出，同时减少有害排放。combustion controller在电力生产、汽车和制造等众多行业中发挥着关键作用。它通过调整空气-燃料比、点火时机和温度等参数来维持最佳的燃烧条件。combustion controller的重要性不容小觑，尤其是在环境可持续性的背景下。随着全球面临减少温室气体排放的压力，工业界正在转向像combustion controllers这样的先进技术，以满足法规标准并降低其碳足迹。通过优化燃烧过程，这些控制器可以显著减少释放到大气中的未燃烧燃料和污染物的数量。此外，combustion controller还提高了操作效率。在发电厂中，高效的燃烧过程意味着更高的电力生成和更低的燃料消耗。这不仅带来了成本节约，还为更可持续的能源未来做出了贡献。在汽车行业，配备先进combustion controllers的车辆表现出更好的燃油效率和更低的排放，使其更加环保，并符合排放法规。combustion controllers背后的技术多年来发生了显著变化。早期的系统主要是机械式的，依赖简单的反馈机制来调整燃烧参数。然而，随着数字技术的发展，现代combustion controllers现在利用复杂的算法和传感器实时监测和调整燃烧过程。这允许精确的控制和适应不断变化的操作条件，这对于最大化性能和效率至关重要。除了提高效率和减少排放外，combustion controllers还增强了燃烧过程的安全性。通过持续监测燃烧条件，这些系统可以检测到火焰不稳定或过高温度等异常情况，这可能导致危险情况。凭借内置的安全功能，combustion controllers可以自动关闭系统或进行必要的调整，以防止事故，从而保护设备和人员。总之，combustion controller在各个领域的现代燃烧系统中发挥着不可或缺的作用。它优化燃料使用、提高效率、减少排放和改善安全性的能力，使其成为追求可持续和负责任的能源使用的基本组成部分。随着技术的不断进步，我们可以期待combustion controllers变得更加复杂，在塑造未来能源生产和消费方面发挥关键作用。理解combustion controllers的功能和重要性对于任何参与工程、环境科学或能源管理的人来说都是至关重要的。