combustion space
简明释义
燃烧室
英英释义
The area within a combustion chamber where fuel and oxidizer mix and react to produce heat and energy through the process of combustion. | 燃烧室内的区域,在该区域内燃料和氧化剂混合并反应,产生热量和能量,通过燃烧过程实现。 |
例句
1.A larger combustion space (燃烧空间) can allow for more fuel to burn at once.
更大的燃烧空间(燃烧空间)可以允许更多的燃料同时燃烧。
2.The design of the engine ensures that the combustion space (燃烧空间) is optimized for efficiency.
发动机的设计确保了燃烧空间(燃烧空间)的优化以提高效率。
3.In a gas turbine, the combustion space (燃烧空间) must withstand high temperatures.
在燃气涡轮中,燃烧空间(燃烧空间)必须承受高温。
4.Engineers are studying the combustion space (燃烧空间) to reduce emissions.
工程师们正在研究燃烧空间(燃烧空间)以减少排放。
5.The efficiency of the boiler depends on the size of the combustion space (燃烧空间).
锅炉的效率取决于燃烧空间(燃烧空间)的大小。
作文
The concept of combustion space is crucial in various fields, particularly in engineering and environmental science. It refers to the specific area where fuel and oxidizer come together to undergo a chemical reaction, resulting in the release of energy in the form of heat and light. Understanding the dynamics of combustion space can greatly influence the efficiency of engines, heating systems, and even industrial processes. In internal combustion engines, for instance, the combustion space is where the air-fuel mixture ignites, producing power that propels vehicles. The design and optimization of this space are fundamental to improving engine performance and reducing emissions. Engineers strive to create an ideal combustion space that allows for complete combustion, minimizing unburnt fuel and harmful byproducts. This not only enhances fuel efficiency but also contributes to cleaner air.Moreover, the combustion space plays a significant role in fire safety and prevention. Understanding how fires spread and the conditions under which combustion occurs helps in developing better safety protocols. For example, in a building, the combustion space could be the area around electrical equipment or within cooking appliances. By controlling these spaces and ensuring proper ventilation, the risk of uncontrolled fires can be significantly reduced.In the context of environmental science, the combustion space is also important when discussing the impact of fossil fuels on climate change. The combustion of fossil fuels releases carbon dioxide and other greenhouse gases into the atmosphere. By studying the combustion space in relation to different fuels, scientists can work towards finding cleaner alternatives that produce less harmful emissions. For instance, biofuels and hydrogen are being explored as potential substitutes that could lead to a more sustainable energy future.Furthermore, advancements in technology have allowed for more precise measurements and simulations of the combustion space. Computational fluid dynamics (CFD) and other modeling techniques enable researchers to visualize and analyze the behavior of gases and flames within this space. This knowledge is invaluable for designing safer and more efficient combustion systems.In conclusion, the term combustion space encompasses a variety of applications and implications across different disciplines. From enhancing engine performance to improving fire safety and addressing environmental concerns, understanding this concept is essential. As we continue to innovate and seek sustainable solutions, the study of combustion space will remain at the forefront of research and development. By prioritizing efficiency and safety in these areas, we can contribute to a cleaner and more sustainable world.
“燃烧空间”这一概念在多个领域中都至关重要,尤其是在工程和环境科学中。它指的是燃料和氧化剂相结合以进行化学反应的特定区域,从而释放出热量和光的能量。理解“燃烧空间”的动态变化可以极大地影响发动机、供暖系统甚至工业过程的效率。例如,在内燃机中,“燃烧空间”是空气-燃料混合物点燃的地方,产生推动车辆的动力。对这个空间的设计和优化是提高发动机性能和减少排放的基础。工程师们努力创造一个理想的“燃烧空间”,使燃烧尽可能完全,最小化未燃烧的燃料和有害副产品。这不仅提高了燃料效率,还为清洁空气做出了贡献。此外,“燃烧空间”在火灾安全和预防中也扮演着重要角色。了解火灾如何传播以及燃烧发生的条件,有助于制定更好的安全协议。例如,在建筑物中,“燃烧空间”可能是电气设备周围或烹饪设备内部的区域。通过控制这些空间并确保适当的通风,可以显著降低失控火灾的风险。在环境科学的背景下,“燃烧空间”在讨论化石燃料对气候变化影响时也很重要。燃烧化石燃料会将二氧化碳和其他温室气体释放到大气中。通过研究不同燃料与“燃烧空间”的关系,科学家们可以致力于寻找产生较少有害排放的清洁替代品。例如,生物燃料和氢气正在被探索作为潜在的替代品,这些替代品可能引领我们走向更加可持续的能源未来。此外,技术的进步使得对“燃烧空间”的更精确测量和模拟成为可能。计算流体动力学(CFD)和其他建模技术使研究人员能够可视化和分析气体和火焰在该空间内的行为。这一知识对于设计更安全和更高效的燃烧系统至关重要。总之,“燃烧空间”这一术语涵盖了不同学科中的多种应用和影响。从提升发动机性能到改善火灾安全,再到应对环境问题,理解这一概念至关重要。随着我们不断创新并寻求可持续解决方案,“燃烧空间”的研究将继续处于研究和发展的前沿。通过优先考虑这些领域的效率和安全,我们可以为一个更清洁、更可持续的世界做出贡献。
相关单词
