cruising power

简明释义

巡航功率

英英释义

例句

1.The yacht's cruising power allows it to cover long distances without frequent refueling.

这艘游艇的巡航动力使它能够在不频繁加油的情况下覆盖长距离。

2.The car's cruising power is optimized for highway driving, providing a smooth and efficient ride.

这辆车的巡航动力经过优化，适合高速公路驾驶，提供平稳高效的乘坐体验。

3.The cruising power of this electric vehicle extends its range significantly.

这款电动车的巡航动力显著延长了其续航里程。

4.Sailboats rely on their cruising power to navigate through open waters with ease.

帆船依靠其巡航动力轻松地在开阔水域中航行。

5.With its impressive cruising power, the aircraft can fly non-stop for over ten hours.

凭借其令人印象深刻的巡航动力，这架飞机可以不间断飞行超过十个小时。

作文

In the realm of aviation and maritime navigation, the term cruising power refers to the optimal power output that an aircraft or a ship can maintain during its cruise phase. This is a critical concept for pilots and ship captains, as it directly influences fuel efficiency, speed, and overall performance. Understanding cruising power can significantly enhance the operational effectiveness of any journey, whether in the air or at sea.When an aircraft is cruising, it has reached a stable altitude and speed after takeoff and ascent. The cruising power is the amount of engine power used to maintain this state, ensuring that the aircraft can cover long distances without unnecessary fuel consumption. For instance, commercial airlines often optimize their cruising power settings to balance passenger comfort with fuel economy. By adjusting the throttle and other parameters, pilots ensure that they are using just enough power to sustain flight while minimizing costs and environmental impact.Similarly, in maritime contexts, cruising power plays a vital role in the efficiency of ships. When a vessel is at cruising speed, the captain must manage the engine output effectively to ensure that the ship travels at a steady pace. This involves calculating the cruising power required to overcome water resistance and wind, allowing the ship to maintain its course without excessive fuel usage. Achieving the right balance is essential for long voyages, where fuel costs can accumulate significantly.The importance of cruising power extends beyond just fuel efficiency; it also encompasses safety and reliability. For example, if a pilot or captain miscalculates the necessary power output, it could lead to dangerous situations, such as running low on fuel before reaching the destination or struggling to maintain altitude or speed. Therefore, understanding and managing cruising power is crucial for ensuring a safe and effective journey.Moreover, advancements in technology have allowed for more precise calculations of cruising power. Modern aircraft and ships are equipped with sophisticated systems that continuously monitor performance metrics, enabling operators to adjust power settings in real-time. This technological integration not only enhances safety but also contributes to more sustainable practices within the aviation and maritime industries.In conclusion, cruising power is a fundamental concept in both aviation and maritime navigation, representing the ideal power output needed to maintain a steady course during travel. Its significance lies in its impact on fuel efficiency, safety, and operational performance. As technology continues to evolve, the management of cruising power will likely become even more refined, paving the way for safer and more sustainable journeys across the skies and seas. Understanding this term is essential for anyone involved in these fields, as it encapsulates the balance between power, efficiency, and safety in transportation.

在航空和海洋导航领域，术语巡航功率指的是飞机或船舶在巡航阶段可以维持的最佳功率输出。这是飞行员和船长的一个关键概念，因为它直接影响燃油效率、速度和整体性能。理解巡航功率可以显著提升任何旅程的操作效率，无论是在空中还是在海上。当飞机处于巡航状态时，它在起飞和爬升后已达到稳定的高度和速度。巡航功率是用于维持这种状态的发动机功率，确保飞机能够在不必要的燃料消耗下覆盖长距离。例如，商业航空公司通常优化其巡航功率设置，以平衡乘客舒适度与燃油经济性。通过调整油门和其他参数，飞行员确保他们使用的功率正好足以维持飞行，同时最小化成本和环境影响。类似地，在海洋环境中，巡航功率在船舶的效率中发挥着至关重要的作用。当船只以巡航速度行驶时，船长必须有效管理发动机输出，以确保船舶以稳定的速度行驶。这涉及到计算克服水阻和风的所需巡航功率，使船舶能够在不浪费过多燃料的情况下保持航向。实现正确的平衡对于长途航行至关重要，因为燃料成本可能会显著增加。巡航功率的重要性不仅仅体现在燃油效率上；它还涉及安全性和可靠性。例如，如果飞行员或船长错误计算所需的功率输出，可能会导致危险情况，例如在到达目的地之前燃料不足，或难以维持高度或速度。因此，理解和管理巡航功率对于确保安全和有效的旅程至关重要。此外，技术的进步使得对巡航功率的计算更加精确。现代飞机和船舶配备了复杂的系统，持续监测性能指标，使操作人员能够实时调整功率设置。这种技术整合不仅提高了安全性，还促进了航空和海洋行业内更可持续的实践。总之，巡航功率是航空和海洋导航中的一个基本概念，代表了在旅行期间维持稳定航向所需的理想功率输出。其重要性在于对燃油效率、安全性和操作性能的影响。随着技术的不断发展，巡航功率的管理可能会变得更加精细，为在天空和海洋上的安全和可持续旅程铺平道路。理解这个术语对于任何参与这些领域的人来说都是必不可少的，因为它概括了运输中动力、效率和安全之间的平衡。