submersible type

简明释义

潜水式

英英释义

例句

1.For our aquarium, we decided to use a submersible type heater to maintain the temperature.

为了我们的水族馆，我们决定使用一个潜水型加热器来保持温度。

2.The submersible type lights create a beautiful ambiance in the pond.

这种潜水型灯光在池塘中营造了美丽的氛围。

3.The submersible type sensors are ideal for monitoring water quality in lakes.

这种潜水型传感器非常适合监测湖泊的水质。

4.The engineer recommended a submersible type pump for the deep well project.

工程师建议为深井项目使用潜水型泵。

5.We need to select a submersible type motor for this underwater application.

我们需要为这个水下应用选择一个潜水型电机。

作文

The exploration of the ocean has always fascinated humanity. As we strive to uncover the mysteries hidden beneath the waves, various technologies have emerged to aid in this quest. One such technology is the submersible type vehicle, which plays a crucial role in underwater exploration. These vehicles are designed to operate underwater for extended periods, allowing scientists and researchers to study marine life, geological formations, and even shipwrecks. The submersible type can be categorized into two main types: manned and unmanned. Manned submersibles are equipped with life-support systems, enabling human operators to pilot them deep into the ocean, while unmanned submersibles, or remotely operated vehicles (ROVs), are controlled from the surface and can reach depths that are often too dangerous for humans.One of the most significant advantages of using a submersible type vehicle is its ability to withstand extreme pressure. As one descends into the depths of the ocean, the pressure increases dramatically. A submersible type is engineered to endure these conditions, ensuring that the equipment and personnel inside remain safe. This durability allows for the collection of valuable data that would otherwise be impossible to obtain. For instance, scientists can gather samples from hydrothermal vents, study unique ecosystems, and observe the behavior of deep-sea creatures in their natural habitats.Moreover, the technological advancements in submersible type vehicles have revolutionized marine research. Modern submersibles are equipped with advanced sensors, cameras, and robotic arms, enabling them to perform complex tasks at great depths. They can capture high-resolution images and videos, providing insights into the biodiversity of the ocean. Additionally, these vehicles can collect water samples and analyze chemical compositions, contributing to our understanding of oceanic processes and climate change.The applications of submersible type vehicles extend beyond scientific research. They are also used in commercial industries, such as oil and gas exploration, underwater construction, and marine archaeology. In oil and gas industries, submersibles play a pivotal role in inspecting pipelines and conducting surveys of potential drilling sites. Their ability to operate in challenging environments makes them indispensable tools for companies seeking to harness underwater resources.Despite their many benefits, the use of submersible type vehicles also raises ethical and environmental concerns. The disturbance caused by these vehicles can impact fragile marine ecosystems. Therefore, it is essential to balance exploration with conservation efforts. Researchers and industry professionals must work together to develop guidelines that minimize the ecological footprint of submersible operations.In conclusion, the submersible type vehicle represents a remarkable advancement in our ability to explore the ocean's depths. Its capacity to withstand extreme conditions and perform intricate tasks has opened up new frontiers in marine science and industry. As we continue to innovate and refine these technologies, it is vital to remain mindful of our responsibility to protect the ocean and its inhabitants. The future of underwater exploration lies not only in our ability to discover but also in our commitment to preserving the delicate balance of marine ecosystems.

海洋的探索一直吸引着人类。随着我们努力揭开隐藏在波浪下的神秘面纱，各种技术应运而生，以帮助我们实现这一目标。其中一种技术是潜水器类型，它在水下探索中发挥着关键作用。这些载具旨在长时间在水下操作，使科学家和研究人员能够研究海洋生物、地质结构甚至沉船。潜水器类型可以分为两种主要类型：有人驾驶和无人驾驶。有人的潜水器配备了生命支持系统，使人类操作员能够将其驾驶到深海，而无人潜水器或遥控潜水器（ROV）则由水面控制，可以到达通常对人类来说过于危险的深度。使用潜水器类型载具的一个显著优点是其能够承受极端压力。随着深入海洋，压力会急剧增加。潜水器类型经过工程设计，能够承受这些条件，确保内部设备和人员的安全。这种耐用性使得收集宝贵数据成为可能，否则这些数据将无法获得。例如，科学家可以从热液喷口收集样本，研究独特的生态系统，并观察深海生物在自然栖息地中的行为。此外，潜水器类型载具的技术进步已经彻底改变了海洋研究。现代潜水器配备了先进的传感器、摄像机和机械臂，使它们能够在极大深度执行复杂任务。它们可以捕捉高分辨率的图像和视频，为我们提供有关海洋生物多样性的见解。此外，这些载具可以收集水样并分析化学成分，有助于我们理解海洋过程和气候变化。潜水器类型载具的应用超越了科学研究。它们还被用于商业行业，如石油和天然气勘探、水下建筑和海洋考古。在石油和天然气行业中，潜水器在检查管道和进行潜在钻探地点的调查中发挥着关键作用。它们在挑战性环境中操作的能力使它们成为寻求开发水下资源的公司的不可或缺的工具。尽管有许多好处，但使用潜水器类型载具也引发了伦理和环境问题。这些载具造成的干扰可能会影响脆弱的海洋生态系统。因此，平衡探索与保护工作至关重要。研究人员和行业专业人士必须共同努力制定减少潜水器操作生态足迹的指导方针。总之，潜水器类型载具代表了我们探索海洋深度能力的显著进步。它承受极端条件和执行复杂任务的能力为海洋科学和工业开辟了新的前沿。随着我们继续创新和完善这些技术，保持对保护海洋及其生物的责任感至关重要。水下探索的未来不仅在于我们发现的能力，也在于我们致力于维护海洋生态系统的微妙平衡。