passive tank stabilization system

简明释义

被动水舱式减摇装置

英英释义

例句

1.The passive tank stabilization system proved effective during rough weather conditions, keeping the vessel steady.

在恶劣天气条件下，被动水箱稳定系统证明了其有效性，使船只保持稳定。

2.The new yacht design incorporates a passive tank stabilization system to enhance comfort at sea.

新的游艇设计采用了被动水箱稳定系统以提高海上的舒适度。

3.Our research shows that a passive tank stabilization system can significantly improve the performance of small boats.

我们的研究表明，被动水箱稳定系统可以显著提高小型船只的性能。

4.The implementation of a passive tank stabilization system in military vessels enhances operational capabilities.

在军舰中实施被动水箱稳定系统增强了作战能力。

5.By using a passive tank stabilization system, the engineers reduced the amount of fuel needed for stabilization.

通过使用被动水箱稳定系统，工程师减少了稳定所需的燃料量。

作文

In the realm of modern engineering, particularly in the design of vehicles and vessels, stability is a crucial factor that can significantly influence performance and safety. One innovative solution that has emerged to address stability issues is the passive tank stabilization system. This system is designed to minimize the effects of external forces such as waves or uneven terrain, thereby ensuring that the vehicle or vessel maintains an optimal balance during operation.The concept behind the passive tank stabilization system is relatively straightforward. It utilizes the principles of fluid dynamics and gravity to counteract movements that could destabilize the vehicle. Instead of relying on active components like motors or pumps, this system employs strategically placed tanks filled with liquid. As the vehicle moves or tilts, the liquid inside these tanks shifts to counterbalance the motion, providing a stabilizing effect without the need for complex machinery.One of the key advantages of the passive tank stabilization system is its simplicity and reliability. Since it does not rely on electronic controls or mechanical parts that can fail, the system is less prone to malfunctions. This makes it particularly suitable for military applications, where reliability is paramount. For instance, armored vehicles equipped with this stabilization system can traverse rough terrains without losing their balance, enhancing both mobility and safety for the occupants.Moreover, the passive tank stabilization system is also beneficial in maritime contexts. Ships and boats equipped with this technology can better navigate through turbulent waters. The shifting liquid within the tanks acts to dampen the rolling motions caused by waves, allowing for a smoother ride. This not only improves comfort for passengers but also enhances the vessel's performance, making it more efficient in terms of fuel consumption and speed.Another significant aspect of the passive tank stabilization system is its cost-effectiveness. Compared to active stabilization systems that require intricate electronic components and maintenance, the passive system is generally cheaper to produce and maintain. This is particularly advantageous for industries that operate on tight budgets, such as commercial shipping and agriculture.In conclusion, the passive tank stabilization system represents a remarkable advancement in the field of stability control. Its ability to provide effective stabilization through simple and reliable means makes it an attractive option for various applications. As technology continues to evolve, we can expect to see further innovations that enhance the capabilities of this system, ultimately leading to safer and more efficient vehicles and vessels. The integration of such systems into our daily transportation methods could revolutionize how we approach stability in engineering, paving the way for future advancements that prioritize safety and efficiency above all else.

在现代工程领域，特别是在车辆和船舶的设计中，稳定性是一个至关重要的因素，它可以显著影响性能和安全性。为了解决稳定性问题，一种创新的解决方案应运而生，那就是被动油箱稳定系统。该系统旨在最小化外部力量（如波浪或不平坦地形）的影响，从而确保车辆或船舶在操作过程中保持最佳平衡。被动油箱稳定系统背后的概念相对简单。它利用流体动力学和重力的原理来抵消可能导致车辆不稳定的运动。该系统不依赖于电动元件或泵，而是采用战略性布置的液体填充油箱。当车辆移动或倾斜时，这些油箱内的液体会移动以抵消运动，提供稳定效果，而无需复杂的机械装置。被动油箱稳定系统的一个关键优势是其简单性和可靠性。由于它不依赖于电子控制或可能故障的机械部件，因此该系统不易发生故障。这使其特别适合军事应用，在这些应用中，可靠性至关重要。例如，装备有该稳定系统的装甲车辆可以在崎岖的地形上行驶而不会失去平衡，从而增强了机动性和乘员的安全性。此外，被动油箱稳定系统在海事环境中也具有优势。配备这种技术的船只和小艇可以更好地在波涛汹涌的水域中航行。油箱内移动的液体有助于减缓波浪造成的滚动运动，从而实现更平稳的航行。这不仅提高了乘客的舒适度，还增强了船舶的性能，使其在燃油消耗和速度方面更加高效。被动油箱稳定系统的另一个重要方面是其成本效益。与需要复杂电子元件和维护的主动稳定系统相比，被动系统通常更便宜生产和维护。这对于在紧张预算下运营的行业（例如商业航运和农业）尤其具有优势。总之，被动油箱稳定系统代表了稳定控制领域的显著进步。它通过简单可靠的方式提供有效的稳定性，使其成为各种应用的有吸引力的选择。随着技术的不断发展，我们可以期待看到进一步的创新，以增强该系统的能力，最终导致更安全、效率更高的车辆和船舶的出现。这类系统的整合进入我们的日常交通方式可能会彻底改变我们在工程中对稳定性的看法，为未来优先考虑安全和效率的进步铺平道路。