permanent buoyant tank

简明释义

永久浮力舱

英英释义

例句

1.In the new aquarium, visitors can observe fish swimming in a permanent buoyant tank that simulates their natural habitat.

在新的水族馆中，游客可以观察到鱼在一个模拟其自然栖息地的永久浮力水槽中游泳。

2.The permanent buoyant tank at the university allows students to study fluid dynamics in a controlled environment.

大学里的永久浮力水槽让学生能够在受控环境中研究流体动力学。

3.For safety reasons, the permanent buoyant tank is equipped with emergency flotation devices.

出于安全考虑，永久浮力水槽配备了紧急浮力装置。

4.Engineers designed a permanent buoyant tank for testing the buoyancy of various materials.

工程师设计了一个用于测试各种材料浮力的永久浮力水槽。

5.The research facility installed a permanent buoyant tank to conduct experiments on marine life.

研究机构安装了一个永久浮力水槽来进行海洋生物实验。

作文

In the realm of marine engineering and oceanography, the concept of a permanent buoyant tank is pivotal for various applications. A permanent buoyant tank refers to a specially designed structure that remains afloat on the water's surface, providing a stable platform for research and development. This type of tank is often used for experiments involving buoyancy, wave dynamics, and other hydrodynamic studies. The design of a permanent buoyant tank must consider factors such as stability, material durability, and environmental impact. One of the primary advantages of having a permanent buoyant tank is its capability to facilitate long-term experiments without the need for constant relocation or setup. For instance, researchers studying the effects of ocean currents on marine life can utilize these tanks to create controlled environments that mimic natural conditions. This allows for more accurate data collection and analysis over extended periods, which is crucial for understanding ecological changes.Moreover, a permanent buoyant tank can serve as a training ground for marine professionals. Institutions that specialize in oceanography or marine biology often utilize these tanks to provide students with hands-on experience. By simulating real-world scenarios, students can learn valuable skills related to marine research, equipment handling, and data interpretation. The educational benefits of such facilities are immense, contributing to the development of future experts in the field.From an engineering perspective, the construction of a permanent buoyant tank involves advanced technology and materials. Engineers must ensure that the structure can withstand harsh environmental conditions, including strong winds, waves, and potential debris. Additionally, the buoyancy of the tank must be carefully calculated to maintain its position and functionality. This requires a deep understanding of physics and engineering principles, making the design process both challenging and rewarding.Furthermore, the versatility of a permanent buoyant tank extends beyond research and education. It can also be utilized for recreational purposes, such as floating parks or aquatic sports facilities. These tanks can be transformed into vibrant community spaces where people engage in water activities while enjoying the beauty of nature. The integration of recreational elements encourages public interest in marine environments and promotes conservation efforts.In conclusion, the significance of a permanent buoyant tank in marine science and engineering cannot be overstated. Its applications range from serious scientific research to educational training and community engagement. As we continue to explore our oceans and understand their complexities, the role of such innovative structures will undoubtedly grow. Investing in the development and maintenance of permanent buoyant tanks will not only enhance our scientific capabilities but also foster a greater appreciation for the marine world among future generations.

在海洋工程和海洋学的领域中，永久浮筒的概念对于各种应用至关重要。永久浮筒指的是一种特殊设计的结构，能够漂浮在水面上，为研究和开发提供稳定的平台。这种类型的水箱通常用于涉及浮力、波动动态和其他流体动力学研究的实验。永久浮筒的设计必须考虑稳定性、材料耐用性和环境影响等因素。拥有一个永久浮筒的主要优势之一是它能够促进长期实验，而无需不断搬迁或重新设置。例如，研究人员可以利用这些水箱研究海流对海洋生物的影响，从而创造出模拟自然条件的受控环境。这允许更准确的数据收集和分析，这对于理解生态变化至关重要。此外，永久浮筒还可以作为海洋专业人员的训练场所。专注于海洋学或海洋生物学的机构通常利用这些水箱为学生提供实践经验。通过模拟现实世界的场景，学生可以学习与海洋研究、设备操作和数据解读相关的宝贵技能。这种设施的教育益处是巨大的，有助于未来专家的发展。从工程学的角度来看，建设永久浮筒涉及先进的技术和材料。工程师必须确保结构能够承受恶劣的环境条件，包括强风、波浪和潜在的杂物。此外，水箱的浮力必须经过仔细计算，以保持其位置和功能。这需要对物理学和工程原理有深入的理解，使设计过程既具有挑战性又富有成就感。此外，永久浮筒的多功能性超越了研究和教育。它还可以用于娱乐目的，例如漂浮公园或水上运动设施。这些水箱可以转变为充满活力的社区空间，人们可以在这里进行水上活动，同时享受大自然的美丽。休闲元素的结合鼓励公众对海洋环境的兴趣，并促进保护工作。总之，永久浮筒在海洋科学和工程中的重要性不容小觑。它的应用范围从严肃的科学研究到教育培训和社区参与。随着我们继续探索海洋并理解其复杂性，这种创新结构的角色无疑将会增长。投资于永久浮筒的开发和维护不仅将增强我们的科学能力，还将培养未来几代人对海洋世界的更大欣赏。