flame stabilization

简明释义

火焰稳定

英英释义

例句

1.Proper flame stabilization can reduce emissions in industrial burners.

适当的火焰稳定可以减少工业燃烧器的排放。

2.In gas turbines, flame stabilization is crucial for efficient energy production.

在燃气涡轮中，火焰稳定对高效能量生产至关重要。

3.The team developed a new model for flame stabilization in low-emission engines.

团队开发了一种用于低排放发动机的新的火焰稳定模型。

4.The engineer explained the importance of flame stabilization in rocket propulsion systems.

工程师解释了在火箭推进系统中火焰稳定的重要性。

5.The research focused on improving flame stabilization techniques to enhance combustion efficiency.

研究集中在改善火焰稳定技术以提高燃烧效率。

作文

Flame stabilization is a critical concept in the field of combustion science. It refers to the methods and processes used to maintain a flame in a stable condition during combustion. The significance of flame stabilization (火焰稳定) cannot be overstated, as it plays a vital role in various applications, from industrial burners to rocket engines. Without effective flame stabilization (火焰稳定), flames can become erratic, leading to inefficient fuel use and increased emissions, which are detrimental to both performance and the environment.In industrial settings, flame stabilization (火焰稳定) techniques are essential for ensuring that burners operate efficiently. For instance, in a gas turbine, maintaining a stable flame is crucial for the turbine's overall efficiency and longevity. If the flame flickers or goes out, it can cause significant damage to the turbine or even lead to complete system failure. Engineers employ various strategies for flame stabilization (火焰稳定), including the design of burner geometry, the use of swirl to enhance mixing, and the introduction of pilot flames that help anchor the main flame.Another important application of flame stabilization (火焰稳定) is found in aerospace engineering, particularly in rocket propulsion systems. In these high-performance environments, maintaining a stable combustion process is vital for thrust generation and overall mission success. Rocket engines utilize sophisticated designs to achieve flame stabilization (火焰稳定), often incorporating features such as injectors that create turbulence to mix fuel and oxidizer effectively. This turbulence not only promotes efficient combustion but also helps stabilize the flame, preventing blowout under varying operating conditions.Moreover, flame stabilization (火焰稳定) is also relevant in the context of environmental sustainability. As industries strive to reduce their carbon footprint, the need for cleaner combustion processes has become increasingly important. Effective flame stabilization (火焰稳定) can lead to more complete combustion, which minimizes the production of harmful byproducts such as carbon monoxide and unburned hydrocarbons. By optimizing combustion conditions through advanced flame stabilization (火焰稳定) techniques, industries can contribute to a cleaner environment while improving their operational efficiency.In conclusion, flame stabilization (火焰稳定) is a fundamental aspect of combustion technology that impacts various sectors, including energy production, aerospace, and environmental protection. Understanding the principles behind flame stabilization (火焰稳定) allows engineers and scientists to design better combustion systems that are not only efficient but also environmentally friendly. As technology continues to advance, the methods for achieving flame stabilization (火焰稳定) will likely evolve, leading to even greater improvements in combustion efficiency and emissions reduction.