swirl chamber diesel engine

简明释义

涡流室式柴油机

英英释义

例句

1.The new model of the car features a more efficient swirl chamber diesel engine (涡流室柴油发动机) that improves fuel economy.

这款新车型配备了更高效的swirl chamber diesel engine（涡流室柴油发动机），提高了燃油经济性。

2.The swirl chamber diesel engine (涡流室柴油发动机) is known for its durability and longevity in tough working environments.

在恶劣工作环境中，swirl chamber diesel engine（涡流室柴油发动机）以其耐用性和长寿命而闻名。

3.Many heavy-duty trucks utilize swirl chamber diesel engines (涡流室柴油发动机) for their power and efficiency.

许多重型卡车使用swirl chamber diesel engines（涡流室柴油发动机）以获得强大的动力和高效性。

4.Engineers are testing the performance of the swirl chamber diesel engine (涡流室柴油发动机) under various conditions.

工程师正在测试swirl chamber diesel engine（涡流室柴油发动机）在不同条件下的性能。

5.The swirl chamber diesel engine (涡流室柴油发动机) design allows for better mixing of air and fuel, leading to more complete combustion.

这种swirl chamber diesel engine（涡流室柴油发动机）设计可以更好地混合空气和燃料，从而实现更完全的燃烧。

作文

The development of diesel engines has played a significant role in the evolution of modern transportation and industrial machinery. Among the various types of diesel engines, the swirl chamber diesel engine stands out due to its unique design and operational efficiency. This type of engine incorporates a swirl chamber, which is a specially designed area that enhances the mixing of fuel and air before combustion occurs. The primary purpose of this chamber is to create a swirling motion in the air-fuel mixture, leading to better atomization of the fuel and more complete combustion. The importance of the swirl chamber diesel engine can be attributed to several factors. Firstly, the swirling action promotes a more uniform distribution of fuel within the combustion chamber. This uniformity is crucial because it ensures that all parts of the air-fuel mixture ignite simultaneously, resulting in smoother engine operation and reduced emissions. Additionally, the efficient combustion process facilitated by the swirl chamber contributes to higher thermal efficiency, meaning that less fuel is required to produce the same amount of power compared to conventional diesel engines.Another advantage of the swirl chamber diesel engine is its ability to operate effectively under varying load conditions. As the engine experiences changes in demand, the swirl chamber allows for quick adjustments in the air-fuel mixture, maintaining optimal combustion performance. This adaptability is particularly beneficial in applications such as heavy-duty trucks and construction equipment, where load conditions can fluctuate significantly.Moreover, the design of the swirl chamber diesel engine often leads to lower noise levels and vibrations. The improved combustion process contributes to a more stable engine operation, which is essential for enhancing the overall driving experience in vehicles. This aspect is increasingly important as manufacturers strive to meet stricter noise regulations and consumer expectations for quieter engines.In terms of environmental impact, the swirl chamber diesel engine has demonstrated advantages over traditional diesel engines. The enhanced combustion efficiency translates to lower emissions of harmful pollutants, such as nitrogen oxides (NOx) and particulate matter. As governments around the world implement stricter emission standards, the adoption of technologies like the swirl chamber becomes crucial in meeting these regulations while still providing the power and performance that diesel engines are known for.Despite these advantages, there are challenges associated with the swirl chamber diesel engine. For instance, the complexity of the swirl chamber design can lead to increased manufacturing costs. Additionally, optimizing the swirl chamber for different operating conditions requires advanced engineering and testing. However, ongoing research and technological advancements continue to address these challenges, making the swirl chamber design a viable option for future diesel engine developments.In conclusion, the swirl chamber diesel engine represents an important advancement in diesel engine technology. Its unique design enhances fuel-air mixing, improves combustion efficiency, and reduces emissions, making it a suitable choice for various applications. As the automotive and industrial sectors continue to evolve, the integration of innovative designs like the swirl chamber will play a critical role in shaping the future of diesel engines and meeting the demands of a more sustainable world.

柴油机的发展在现代交通和工业机械的演变中发挥了重要作用。在各种类型的柴油机中，涡流室柴油机因其独特的设计和操作效率而脱颖而出。这种类型的发动机采用了涡流室，这是一种特殊设计的区域，增强了燃料和空气在燃烧发生前的混合。该室的主要目的是在空气-燃料混合物中产生旋转运动，从而更好地雾化燃料并实现更完全的燃烧。涡流室柴油机的重要性可以归因于几个因素。首先，旋转作用促进了燃料在燃烧室内的均匀分布。这种均匀性至关重要，因为它确保空气-燃料混合物的所有部分同时点燃，从而导致发动机运行更加平稳，排放减少。此外，涡流室促进的高效燃烧过程有助于提高热效率，这意味着与传统柴油机相比，产生相同功率所需的燃料更少。涡流室柴油机的另一个优点是能够在不同负载条件下有效运行。当发动机经历需求变化时，涡流室允许空气-燃料混合物快速调整，从而保持最佳的燃烧性能。这种适应性在重型卡车和建筑设备等应用中尤为有益，因为负载条件可能会显著波动。此外，涡流室柴油机的设计往往导致较低的噪音水平和振动。改进的燃烧过程有助于更稳定的发动机运行，这对提高车辆整体驾驶体验至关重要。随着制造商努力满足更严格的噪声法规和消费者对安静发动机的期望，这一点变得越来越重要。在环境影响方面，涡流室柴油机相较于传统柴油机表现出优势。提高的燃烧效率意味着有害污染物（如氮氧化物NOx和颗粒物）的排放更低。随着世界各国政府实施更严格的排放标准，采用涡流室等技术在满足这些法规的同时仍能提供柴油机所知的动力和性能变得至关重要。尽管有这些优点，涡流室柴油机也面临着一些挑战。例如，涡流室设计的复杂性可能导致制造成本增加。此外，针对不同工作条件优化涡流室需要先进的工程和测试。然而，持续的研究和技术进步不断解决这些挑战，使涡流室设计成为未来柴油机发展的可行选择。总之，涡流室柴油机代表了柴油机技术的重要进步。其独特的设计增强了燃料-空气混合，提高了燃烧效率，并减少了排放，使其成为各种应用的合适选择。随着汽车和工业部门的不断发展，像涡流室这样的创新设计的整合将在塑造柴油机的未来和满足更可持续世界的需求中发挥关键作用。