fuel capacity

简明释义

燃料容量

英英释义

例句

1.The airplane has a fuel capacity of 200,000 pounds, which determines its range.

这架飞机的燃油容量为200,000磅，这决定了它的航程。

2.To maximize efficiency, the truck's fuel capacity should be matched with its load requirements.

为了最大限度地提高效率，卡车的燃油容量应与其载荷需求相匹配。

3.Before a road trip, it's important to check your vehicle's fuel capacity to plan your refueling stops.

在公路旅行之前，检查你车辆的燃油容量以计划加油停靠点是很重要的。

4.A generator's fuel capacity affects how long it can run before needing a refill.

发电机的燃油容量影响它在需要加油之前能运行多久。

5.The car's fuel capacity is 50 liters, allowing for long-distance travel without frequent stops.

这辆车的燃油容量是50升，可以在长途旅行中减少频繁加油的需要。

作文

The importance of understanding the concept of fuel capacity cannot be overstated, especially in the context of modern transportation and energy management. In simple terms, fuel capacity refers to the maximum amount of fuel that a vehicle or a container can hold. This measurement is critical for various reasons, including efficiency, safety, and environmental impact. For instance, when designing a car, engineers must consider the fuel capacity to ensure that it meets consumer needs while also adhering to regulations regarding emissions and fuel economy.One of the primary reasons why fuel capacity is essential is because it directly affects the range of a vehicle. A larger fuel capacity allows a vehicle to travel longer distances without needing to refuel. This is particularly important for long-haul trucks and airplanes, where the distance between refueling stations can be significant. For example, a commercial airplane with a large fuel capacity can fly non-stop across continents, which is a crucial factor for airlines when planning routes and schedules.Moreover, the fuel capacity of a vehicle also influences its performance. Vehicles with higher fuel capacity can maintain consistent power output over extended periods, making them more suitable for demanding tasks such as towing or transporting heavy loads. Conversely, vehicles with smaller fuel capacity may need to refuel more frequently, which can lead to downtime and increased operational costs.In addition to practical considerations, understanding fuel capacity is vital from an environmental perspective. The amount of fuel a vehicle consumes is directly linked to its emissions. By optimizing fuel capacity, manufacturers can produce vehicles that are not only more efficient but also less harmful to the environment. For instance, electric vehicles (EVs) have a different kind of fuel capacity—measured in kilowatt-hours (kWh)—and understanding this capacity helps consumers gauge how far they can travel on a single charge, thus promoting the adoption of cleaner energy sources.Furthermore, the concept of fuel capacity extends beyond individual vehicles to include infrastructure considerations. Gas stations, for example, must have adequate storage tanks to accommodate the fuel capacity of the vehicles they serve. If a gas station cannot meet the demand due to limited fuel capacity, it can lead to long wait times and customer dissatisfaction. Therefore, urban planners and policymakers must consider fuel capacity when developing transportation networks and energy supply systems.In conclusion, the term fuel capacity encompasses a wide range of implications for vehicles, performance, environmental impact, and infrastructure. As we move towards a more sustainable future, understanding and optimizing fuel capacity will be crucial in developing efficient transportation solutions that meet the needs of society while minimizing our ecological footprint. Whether it’s a car, truck, or airplane, recognizing the significance of fuel capacity is essential for anyone involved in the fields of engineering, transportation, and environmental science.

理解“燃料容量”这一概念的重要性不容小觑，尤其是在现代交通和能源管理的背景下。简单来说，燃料容量指的是车辆或容器能够容纳的最大燃料量。这一测量对于效率、安全和环境影响等多个方面至关重要。例如，在设计汽车时，工程师必须考虑燃料容量，以确保其满足消费者需求，同时遵守有关排放和燃油经济性的规定。燃料容量之所以重要，主要是因为它直接影响车辆的行驶范围。更大的燃料容量使车辆能够在不需要加油的情况下行驶更长的距离。这对长途卡车和飞机尤其重要，因为加油站之间的距离可能相当大。例如，一架具有较大燃料容量的商用飞机可以在跨洲飞行时不需要中途加油，这对航空公司规划航线和时间表至关重要。此外，车辆的燃料容量也会影响其性能。具有较高燃料容量的车辆能够在较长时间内保持稳定的动力输出，使其更适合于拖曳或运输重物等要求较高的任务。相反，具有较小燃料容量的车辆可能需要更频繁地加油，这可能导致停机时间和运营成本的增加。除了实际考虑外，从环境角度理解燃料容量也至关重要。车辆消耗的燃料量与其排放量直接相关。通过优化燃料容量，制造商可以生产出不仅更高效而且对环境危害更小的车辆。例如，电动车（EV）的燃料容量以千瓦时（kWh）为单位进行测量，了解这一容量有助于消费者评估在一次充电后能够行驶多远，从而促进清洁能源的采用。此外，燃料容量的概念不仅限于单个车辆，还包括基础设施的考虑。例如，加油站必须拥有足够的储油罐，以满足所服务车辆的燃料容量。如果加油站由于燃料容量有限而无法满足需求，就可能导致长时间等待和客户不满。因此，城市规划者和政策制定者在开发交通网络和能源供应系统时，必须考虑燃料容量。总之，燃料容量这一术语涵盖了车辆、性能、环境影响和基础设施等广泛的含义。随着我们向更可持续的未来迈进，理解和优化燃料容量将对开发满足社会需求同时最小化生态足迹的高效交通解决方案至关重要。无论是汽车、卡车还是飞机，认识到燃料容量的重要性对于任何参与工程、交通和环境科学领域的人来说都是必不可少的。