combustion efficiency

简明释义

燃烧效率

英英释义

例句

1.Engineers are always looking for ways to increase combustion efficiency 燃烧效率 in power plants to reduce emissions.

工程师们始终在寻找提高电厂燃烧效率以减少排放的方法。

2.The new engine design significantly improved the combustion efficiency 燃烧效率 of the vehicle, leading to better fuel economy.

新的发动机设计显著提高了车辆的燃烧效率，从而改善了燃油经济性。

3.Higher combustion efficiency 燃烧效率 means more energy is produced from the same amount of fuel.

更高的燃烧效率意味着从相同量的燃料中产生更多的能量。

4.The study focused on the combustion efficiency 燃烧效率 of alternative fuels compared to traditional gasoline.

研究集中于替代燃料与传统汽油相比的燃烧效率。

5.Regular maintenance can enhance the combustion efficiency 燃烧效率 of industrial boilers.

定期维护可以提高工业锅炉的燃烧效率。

作文

The concept of combustion efficiency is crucial in understanding how effectively a fuel is converted into energy during the combustion process. In simple terms, combustion efficiency refers to the percentage of fuel that is actually converted into useful energy as opposed to being lost as unburned fuel or waste heat. This measurement is vital for various applications, including power generation, heating systems, and even in automotive engines. To illustrate the importance of combustion efficiency, let us consider a typical home heating system. When a furnace operates, it burns fuel—often natural gas or oil—to produce heat. If the combustion efficiency of the furnace is high, it means that most of the fuel is being used effectively to generate heat, leading to lower fuel costs and reduced environmental impact. Conversely, if the combustion efficiency is low, a significant portion of the fuel may be wasted, resulting in higher expenses and increased greenhouse gas emissions.In industrial settings, maximizing combustion efficiency can lead to substantial cost savings and improved productivity. For instance, power plants strive to enhance their combustion efficiency to ensure that they are generating as much electricity as possible from the fuel consumed. This is often achieved through advanced technologies such as combined cycle systems, which utilize both gas and steam turbines to extract maximum energy from the fuel.Moreover, the quest for high combustion efficiency has led to innovations in fuel types and combustion technologies. Alternative fuels, such as biofuels and hydrogen, are being explored for their potential to improve combustion efficiency while also reducing carbon emissions. Additionally, engineers are developing more sophisticated combustion systems that can adapt to different fuel characteristics, optimizing the combustion process to achieve better efficiency.Environmental regulations are also pushing industries to focus on combustion efficiency. Governments worldwide are implementing stricter emissions standards, which compel companies to adopt cleaner technologies and improve their combustion efficiency. As a result, organizations are investing in research and development to create systems that not only comply with regulations but also enhance performance and sustainability.In conclusion, combustion efficiency plays a pivotal role in energy production and consumption. It affects economic factors, environmental impact, and the overall effectiveness of energy systems. By understanding and improving combustion efficiency, we can make significant strides toward a more sustainable future, where energy is used more wisely, and emissions are minimized. As we continue to innovate and adapt to new challenges, the focus on combustion efficiency will remain a key element in our pursuit of energy efficiency and environmental stewardship.

燃烧效率的概念在理解燃料在燃烧过程中如何有效转化为能量方面至关重要。简单来说，燃烧效率是指实际转化为有用能量的燃料百分比，而不是作为未燃烧的燃料或废热损失的部分。这个测量对于各种应用都很重要，包括发电、供暖系统甚至汽车发动机。为了说明燃烧效率的重要性，我们考虑一个典型的家庭供暖系统。当炉子运行时，它燃烧燃料——通常是天然气或石油——来产生热量。如果炉子的燃烧效率高，这意味着大部分燃料被有效利用来产生热量，从而降低燃料成本并减少环境影响。相反，如果燃烧效率低，可能会浪费大量燃料，导致更高的开支和增加的温室气体排放。在工业环境中，最大化燃烧效率可以带来可观的成本节约和提高生产力。例如，电厂努力提高其燃烧效率，以确保从消耗的燃料中生成尽可能多的电力。这通常通过先进的技术实现，例如联合循环系统，它利用燃气和蒸汽涡轮机从燃料中提取最大能量。此外，追求高燃烧效率促使燃料类型和燃烧技术的创新。替代燃料，如生物燃料和氢气，正在被探索，以提高燃烧效率，同时减少碳排放。此外，工程师们正在开发更复杂的燃烧系统，可以适应不同的燃料特性，优化燃烧过程以实现更好的效率。环境法规也推动行业关注燃烧效率。全球各国政府正在实施更严格的排放标准，迫使企业采用更清洁的技术并提高其燃烧效率。因此，组织正在投资于研发，创造不仅符合规定而且提升性能和可持续性的系统。总之，燃烧效率在能源生产和消费中发挥着关键作用。它影响经济因素、环境影响以及能源系统的整体有效性。通过理解和提高燃烧效率，我们可以在追求可持续未来方面取得重大进展，在这个未来中，能源得以更明智地使用，排放得以最小化。随着我们继续创新和适应新挑战，燃烧效率将始终是我们追求能源效率和环境管理的关键要素。