double tracked incline

简明释义

双轨斜井

英英释义

例句

1.Maintenance crews regularly inspect the double tracked incline for any signs of wear and tear.

维护人员定期检查双轨坡道是否有磨损迹象。

2.The double tracked incline allows trains to travel in both directions without delay.

这个双轨坡道允许火车双向行驶而不延误。

3.Engineers designed a double tracked incline to accommodate increased freight traffic on the railway.

工程师们设计了一个双轨坡道以适应铁路上增加的货运交通。

4.The train smoothly ascended the double tracked incline as passengers enjoyed the scenic views.

火车平稳地爬上了双轨坡道，乘客们欣赏着美丽的风景。

5.Safety measures were implemented on the double tracked incline to prevent accidents during heavy rain.

在双轨坡道上实施了安全措施，以防止在大雨期间发生事故。

作文

In the world of transportation, particularly in rail systems, the term double tracked incline refers to a railway design that features two parallel tracks on an inclined plane. This configuration is essential for facilitating efficient train movement, especially in hilly or mountainous regions where elevation changes can pose significant challenges. Understanding the concept of double tracked incline is crucial for both engineers and enthusiasts who wish to appreciate the complexities of railway construction and operation.The primary advantage of a double tracked incline is that it allows for the simultaneous movement of trains in both directions. This is particularly important in areas with heavy rail traffic, as it minimizes delays and enhances the overall efficiency of the transport system. For instance, consider a mountain railway where trains must ascend steep gradients. A single track would require trains to wait for their turn to pass, leading to congestion and longer travel times. However, with a double tracked incline, one train can ascend while another descends, significantly improving the flow of services.Moreover, the design of a double tracked incline must take into account various engineering principles, including gravitational forces and friction. The incline must be carefully calculated to ensure safety and performance. If the slope is too steep, trains may struggle to ascend, risking derailment or other accidents. Conversely, if the incline is too gradual, it could lead to inefficiencies in speed and energy consumption. Thus, engineers must strike a balance when designing these inclines, ensuring that they are both functional and safe.In addition to the technical aspects, the aesthetic value of a double tracked incline should not be overlooked. Many scenic railways utilize this design to create breathtaking views for passengers. As trains navigate through beautiful landscapes, the dual tracks can enhance the experience, allowing travelers to enjoy the journey as much as the destination. The visual appeal of a double tracked incline can also attract tourists, contributing to local economies and promoting the importance of rail travel.Furthermore, advancements in technology have allowed for more innovative designs of double tracked inclines. Modern materials and construction techniques enable engineers to build tracks that are not only safer but also more efficient. For example, the use of reinforced concrete and advanced signaling systems can improve the reliability of train operations on these inclines. This is particularly relevant in today's context, where sustainability and environmental considerations are paramount. By optimizing the design and construction of double tracked inclines, rail systems can reduce their carbon footprint while enhancing service quality.In conclusion, the concept of double tracked incline plays a vital role in the functionality and efficiency of railway systems, especially in challenging terrains. From facilitating smoother train operations to enhancing scenic experiences, this design is integral to modern rail infrastructure. As we continue to innovate and improve our transportation networks, understanding and mastering the nuances of double tracked incline will be essential for future developments in this field.

在交通运输的世界中，尤其是铁路系统中，术语双轨倾斜指的是一种铁路设计，该设计在倾斜的平面上设有两条平行轨道。这种配置对于促进列车的高效运行至关重要，特别是在山丘或山区，海拔变化可能带来重大挑战。理解双轨倾斜的概念对于希望欣赏铁路建设和运营复杂性的工程师和爱好者来说是至关重要的。双轨倾斜的主要优点在于它允许列车在两个方向上同时移动。这在交通繁忙的地区尤为重要，因为它可以最小化延误并提高运输系统的整体效率。例如，考虑一条山区铁路，列车必须攀登陡峭的坡度。一条单轨道将要求列车等待通行，从而导致拥堵和更长的旅行时间。然而，借助双轨倾斜，一列火车可以上升，而另一列则可以下降，从而显著改善服务流量。此外，双轨倾斜的设计必须考虑各种工程原理，包括重力和摩擦力。坡度必须经过仔细计算，以确保安全和性能。如果坡度过陡，列车可能会难以上升，冒着出轨或其他事故的风险。相反，如果坡度过缓，则可能导致速度和能耗的低效。因此，工程师在设计这些倾斜时必须找到平衡，确保它们既实用又安全。除了技术方面，双轨倾斜的美学价值也不容忽视。许多风景铁路利用这种设计为乘客创造令人惊叹的景观。当列车穿越美丽的风景时，双轨道可以增强体验，让旅客享受旅程与目的地一样多。双轨倾斜的视觉吸引力也可以吸引游客，为地方经济做出贡献，促进铁路旅行的重要性。此外，科技的进步使得双轨倾斜的设计变得更加创新。现代材料和建筑技术使工程师能够建造出不仅更安全而且更高效的轨道。例如，使用增强混凝土和先进的信号系统可以提高这些倾斜上的列车运行可靠性。这在当今背景下尤其相关，因为可持续性和环境考虑至关重要。通过优化双轨倾斜的设计和施工，铁路系统可以减少其碳足迹，同时提高服务质量。总之，双轨倾斜的概念在铁路系统的功能性和效率中发挥着至关重要的作用，尤其是在具有挑战性的地形中。从促进更顺畅的列车运行到增强风景体验，这种设计是现代铁路基础设施不可或缺的一部分。随着我们继续创新和改善我们的交通网络，理解和掌握双轨倾斜的细微差别将对该领域未来的发展至关重要。