water entry launcher

简明释义

入水发射装置

英英释义

例句

1.During the mission, the water entry launcher 水入射发射器 was deployed to release drones.

在任务期间，水入射发射器被用来释放无人机。

2.Engineers designed a more efficient water entry launcher 水入射发射器 for underwater exploration.

工程师设计了一种更高效的水入射发射器用于水下探测。

3.The team tested the new water entry launcher 水入射发射器 in various aquatic environments.

团队在各种水域环境中测试了新的水入射发射器。

4.The water entry launcher 水入射发射器 can be used for both research and rescue operations.

水入射发射器可以用于研究和救援行动。

5.Our latest model of the water entry launcher 水入射发射器 features advanced targeting systems.

我们最新型号的水入射发射器具有先进的目标系统。

作文

The concept of a water entry launcher is crucial in the field of aerospace and marine engineering. A water entry launcher refers to a system designed to facilitate the launch of vehicles, such as submarines or underwater drones, from a submerged position or directly from the water's surface. This technology is particularly important for military applications, where stealth and surprise are essential. The ability to launch a vehicle from underwater allows for a tactical advantage, as it reduces the chances of detection by enemy radar systems.In recent years, advancements in materials and engineering techniques have improved the efficiency and effectiveness of water entry launchers. Modern designs often incorporate hydrodynamic principles to minimize resistance as the vehicle exits the water. This not only enhances the speed of the launch but also ensures the safety of the vehicle and its crew. For instance, the design of the launch platform must account for wave action, currents, and other environmental factors that could affect the launch trajectory.Moreover, the integration of automated systems into water entry launchers has revolutionized the way these systems operate. Automation allows for precise control over the launch parameters, which can be adjusted in real-time based on changing conditions. This capability is particularly beneficial during military operations, where timing and accuracy are critical. Additionally, automated systems reduce the risk of human error, leading to more successful launches.The applications of water entry launchers extend beyond military use. In the realm of scientific research, underwater vehicles equipped with these launch systems can explore uncharted territories of the ocean. For example, autonomous underwater vehicles (AUVs) are often deployed using water entry launchers to gather data on marine life, underwater geology, and climate change effects. This information is vital for understanding our planet and addressing environmental challenges.Furthermore, commercial industries are beginning to recognize the potential of water entry launchers. Companies involved in underwater tourism and exploration can utilize these systems to enhance their offerings. Imagine tourists being able to experience the wonders of the ocean without the limitations of traditional diving methods. A well-designed water entry launcher could provide a seamless transition from surface to underwater exploration, making it an attractive option for adventure seekers.In conclusion, the water entry launcher represents a significant advancement in both military and civilian applications. Its ability to launch vehicles from underwater positions opens up new possibilities for exploration, research, and tactical operations. As technology continues to evolve, we can expect to see even more innovative designs and applications of water entry launchers, ultimately enhancing our understanding of the underwater world and improving operational capabilities in various fields.

“水下发射器”的概念在航空航天和海洋工程领域至关重要。“水下发射器”是指一种旨在促进从水下位置或直接从水面发射车辆（如潜艇或水下无人机）的系统。这项技术在军事应用中尤为重要，因为隐蔽性和突然性是至关重要的。从水下发射车辆的能力提供了战术优势，因为它减少了被敌方雷达系统探测的机会。近年来，材料和工程技术的进步提高了“水下发射器”的效率和有效性。现代设计通常结合了流体动力学原理，以最小化车辆出水时的阻力。这不仅提高了发射的速度，还确保了车辆及其乘员的安全。例如，发射平台的设计必须考虑波浪作用、洋流和其他可能影响发射轨迹的环境因素。此外，将自动化系统集成到“水下发射器”中彻底改变了这些系统的操作方式。自动化允许对发射参数进行精确控制，这些参数可以根据变化的条件实时调整。这种能力在军事行动中尤其有利，因为时机和准确性至关重要。此外，自动化系统降低了人为错误的风险，从而导致更成功的发射。“水下发射器”的应用不仅限于军事用途。在科学研究领域，配备这些发射系统的水下车辆可以探索未被勘测的海洋区域。例如，自动化水下车辆（AUV）通常使用“水下发射器”部署，以收集有关海洋生物、水下地质和气候变化影响的数据。这些信息对于理解我们的星球并应对环境挑战至关重要。此外，商业行业也开始认识到“水下发射器”的潜力。参与水下旅游和探索的公司可以利用这些系统来增强他们的产品。例如，想象一下游客能够体验海洋奇观，而不受传统潜水方法的限制。一个设计良好的“水下发射器”可以提供从水面到水下探索的无缝过渡，使其成为冒险者的一个有吸引力的选择。总之，“水下发射器”代表了军事和民用应用的重要进展。它从水下位置发射车辆的能力为探索、研究和战术行动开辟了新的可能性。随着技术的不断发展，我们可以期待看到“水下发射器”设计和应用的更多创新，最终增强我们对水下世界的理解，并改善各个领域的操作能力。