tandem engine

简明释义

串联式发动机

英英释义

例句

1.The tandem engine allows for smoother acceleration in heavy-duty vehicles.

在重型车辆中，并联发动机允许更平稳的加速。

2.The tandem engine configuration is ideal for high-performance racing cars.

对于高性能赛车来说，并联发动机配置是理想的选择。

3.In the latest aircraft, engineers have implemented a tandem engine system for better thrust.

在最新的飞机中，工程师们实施了并联发动机系统以获得更好的推力。

4.The new model features a powerful tandem engine that enhances performance.

新型号配备了强大的并联发动机，提升了性能。

5.Our research indicates that the tandem engine design improves fuel efficiency significantly.

我们的研究表明，并联发动机设计显著提高了燃油效率。

作文

In the world of engineering and technology, the term tandem engine refers to a specific configuration of engines that work together to provide enhanced performance and efficiency. This concept can be applied in various fields, including aviation, automotive, and even in power generation systems. The idea behind a tandem engine setup is to combine the strengths of multiple engines to achieve greater output than a single engine could deliver on its own. One of the most notable applications of tandem engines can be found in the aerospace industry. For instance, many modern aircraft utilize a configuration where two or more engines are mounted in such a way that they operate in tandem. This arrangement not only increases the thrust produced by the aircraft but also enhances its fuel efficiency. By distributing the workload among multiple engines, manufacturers can design lighter and more efficient aircraft, which ultimately leads to reduced operational costs for airlines. In the automotive sector, the concept of a tandem engine can be seen in hybrid vehicles, which often combine a traditional internal combustion engine with an electric motor. This combination allows the vehicle to switch between power sources, optimizing fuel consumption and reducing emissions. The synergy created by the tandem engine setup in hybrids exemplifies how modern engineering can address environmental concerns while still delivering the performance consumers expect. Moreover, in power generation, the use of tandem engines has become increasingly popular, especially in renewable energy systems. For example, some wind turbines utilize a tandem setup where multiple turbines are positioned to capture wind energy more efficiently. By working in concert, these turbines can generate more electricity than if they were operating independently. This not only maximizes energy output but also contributes to the overall stability of the power grid. The advantages of using a tandem engine configuration extend beyond just performance; they also include redundancy and reliability. In critical applications, having multiple engines can serve as a backup in case one fails. This is particularly important in aviation, where safety is paramount. The ability to rely on a secondary engine can mean the difference between a safe landing and a potential disaster. However, the implementation of tandem engines is not without its challenges. Engineers must carefully consider factors such as weight distribution, control systems, and maintenance requirements. The complexity of managing multiple engines can lead to increased costs and technical hurdles that need to be addressed during the design phase. Nevertheless, the benefits often outweigh these challenges, leading to innovative solutions that push the boundaries of what is possible in engineering. In conclusion, the term tandem engine encapsulates a powerful concept that has transformed various industries by enhancing performance, efficiency, and reliability. Whether in aviation, automotive, or renewable energy, the collaborative nature of tandem engines showcases the ingenuity of modern engineering. As technology continues to evolve, it is likely that we will see even more innovative applications of this concept, further solidifying its importance in the future of engineering and technology.

在工程和技术的世界中，术语tandem engine指的是一种特定的发动机配置，这些发动机共同工作以提供更高的性能和效率。这个概念可以应用于多个领域，包括航空、汽车，甚至电力生成系统。tandem engine配置背后的理念是结合多个发动机的优势，以实现比单个发动机单独提供的更高输出。在航空航天工业中，tandem engines的一个显著应用可以找到。例如，许多现代飞机采用了两台或多台发动机以串联方式安装的配置。这种安排不仅增加了飞机产生的推力，还增强了其燃油效率。通过在多个发动机之间分配工作负载，制造商可以设计出更轻便、更高效的飞机，从而最终降低航空公司的运营成本。在汽车行业，tandem engine的概念可以在混合动力汽车中看到，这些汽车通常将传统的内燃机与电动机结合在一起。这种组合使车辆能够在不同的动力源之间切换，优化燃料消耗并减少排放。混合动力车中tandem engine配置所创造的协同效应例证了现代工程如何解决环境问题，同时仍能提供消费者所期望的性能。此外，在电力生成中，使用tandem engines变得越来越流行，尤其是在可再生能源系统中。例如，一些风力涡轮机利用串联设置，其中多个涡轮机被布置以更高效地捕获风能。通过协同工作，这些涡轮机可以产生比独立运行时更多的电力。这不仅最大化了能量输出，还有助于电网的整体稳定性。使用tandem engine配置的优势不仅仅体现在性能上；它们还包括冗余性和可靠性。在关键应用中，拥有多个发动机可以作为备份，以防其中一个发生故障。这在航空业中尤其重要，因为安全至关重要。依靠备用发动机的能力可能意味着安全着陆和潜在灾难之间的区别。然而，实施tandem engines并非没有挑战。工程师必须仔细考虑重量分布、控制系统和维护要求。管理多个发动机的复杂性可能导致成本增加和技术障碍，这些都需要在设计阶段加以解决。尽管如此，收益通常超过这些挑战，导致推动工程可能性的创新解决方案。总之，术语tandem engine概括了一个强大的概念，它通过提高性能、效率和可靠性改变了多个行业。无论是在航空、汽车还是可再生能源领域，tandem engines的协作特性展示了现代工程的独创性。随着技术的不断发展，我们很可能会看到这一概念的更多创新应用，进一步巩固其在未来工程和技术中的重要性。