fuel tankage

简明释义

燃料柜容量

英英释义

例句

1.Regulations require that all vessels maintain a minimum fuel tankage for safety.

法规要求所有船舶保持最低的燃油储存量以确保安全。

2.Engine efficiency improves with optimized fuel tankage configurations.

通过优化燃油储存量配置，发动机效率得以提高。

3.Due to the larger fuel tankage, the ship can operate longer without refueling.

由于更大的燃油储存量，这艘船可以在不加油的情况下运行更长时间。

4.The new model features an enhanced fuel tankage system for better performance.

新型号配备了增强的燃油储存量系统，以提高性能。

5.The aircraft's design allows for increased fuel tankage to extend its range.

飞机的设计允许增加燃油储存量以延长其航程。

作文

In the world of aviation and transportation, efficiency is paramount. One of the critical aspects that contribute to this efficiency is the management of fuel resources. This brings us to the concept of fuel tankage, which refers to the total capacity of fuel tanks in an aircraft, vehicle, or any other machinery that requires fuel for operation. Understanding fuel tankage is essential not only for engineers and designers but also for operators who need to optimize fuel usage for cost-effectiveness and environmental considerations.The significance of fuel tankage can be observed in various scenarios. For instance, in aviation, the amount of fuel an aircraft can carry directly affects its range, payload capacity, and overall performance. A well-designed aircraft will have a fuel tankage that maximizes its operational capabilities while ensuring safety and compliance with regulatory standards. Engineers must carefully calculate the optimal size of the fuel tanks to balance weight and fuel efficiency. Too much fuel tankage can lead to unnecessary weight, reducing the aircraft's performance, while too little can limit its operational range.In the automotive industry, fuel tankage plays a similar role. Vehicles are designed with specific fuel capacities that dictate how far they can travel before needing to refuel. The design of the fuel tankage must consider factors such as weight distribution, safety in case of accidents, and the type of fuel being used. Additionally, advancements in technology have led to alternative fuel sources, which require different considerations for fuel tankage design.Moreover, the impact of fuel tankage extends beyond just operational efficiency; it also has significant implications for environmental sustainability. As the world shifts towards greener technologies, the need for efficient fuel tankage becomes even more crucial. For example, electric vehicles (EVs) utilize batteries instead of traditional fuel tanks, but the concept of tankage still applies in terms of battery capacity and energy management. The transition to renewable energy sources necessitates a reevaluation of fuel tankage in all forms of transport.Furthermore, understanding fuel tankage is vital for logistics and supply chain management. Companies involved in transportation must plan their operations around the available fuel tankage to ensure timely deliveries and minimize costs. Efficient fuel management can lead to significant savings and reduced carbon footprints, which is increasingly important in today's environmentally conscious market.In conclusion, fuel tankage is a fundamental concept that impacts various sectors, particularly transportation and aviation. Its implications stretch from operational efficiency to environmental sustainability and economic viability. As technology continues to evolve, so too will the designs and strategies surrounding fuel tankage. Whether in the context of traditional fuels or alternative energy sources, a comprehensive understanding of fuel tankage will remain essential for future developments in transportation and energy management.

在航空和交通运输的世界中，效率至关重要。影响这种效率的一个关键方面是燃料资源的管理。这引出了“fuel tankage”这一概念，指的是飞机、车辆或任何其他需要燃料进行操作的机械设备中燃料箱的总容量。理解fuel tankage不仅对工程师和设计师至关重要，对需要优化燃料使用以提高成本效益和环境考虑的操作员同样重要。fuel tankage的重要性可以在各种情况下观察到。例如，在航空业中，飞机能携带的燃料量直接影响其航程、载重能力和整体性能。一架设计良好的飞机将具有最大化其操作能力的fuel tankage，同时确保安全和符合监管标准。工程师必须仔细计算燃料箱的最佳大小，以平衡重量和燃料效率。过多的fuel tankage会导致不必要的重量，从而降低飞机的性能，而过少则可能限制其操作范围。在汽车工业中，fuel tankage也发挥着类似的作用。车辆的设计具有特定的燃料容量，这决定了它们在需要加油之前可以行驶多远。fuel tankage的设计必须考虑重量分配、事故时的安全性以及所使用的燃料类型。此外，技术的进步导致替代燃料源的出现，这要求在fuel tankage设计上进行不同的考虑。此外，fuel tankage的影响不仅限于操作效率；它还对环境可持续性产生重大影响。随着世界向更绿色技术转型，高效的fuel tankage变得更加重要。例如，电动车（EV）使用电池而非传统燃料箱，但在电池容量和能源管理方面，tankage的概念仍然适用。向可再生能源的过渡需要重新评估所有交通工具中的fuel tankage。此外，理解fuel tankage对物流和供应链管理至关重要。参与运输的公司必须围绕可用的fuel tankage规划其运营，以确保及时交货并降低成本。高效的燃料管理可以带来显著的节省和减少碳足迹，这在当今环保意识日益增强的市场中越来越重要。总之，fuel tankage是一个基本概念，影响着各个行业，特别是交通和航空。它的影响从操作效率延伸到环境可持续性和经济可行性。随着技术的不断发展，围绕fuel tankage的设计和策略也将不断演变。无论是在传统燃料还是替代能源的背景下，对fuel tankage的全面理解将在未来交通和能源管理的发展中保持重要性。