ambient water pressure

简明释义

海水环境压力

英英释义

例句

1.The sensors were calibrated to measure changes in ambient water pressure 环境水压 for accurate data collection.

传感器经过校准，以测量环境水压的变化，以便准确收集数据。

2.As the submarine went deeper, the ambient water pressure 环境水压 increased significantly, requiring stronger materials.

随着潜艇深入，环境水压显著增加，要求使用更坚固的材料。

3.The diver had to adjust his equipment to account for the ambient water pressure 环境水压 as he descended deeper into the ocean.

潜水员必须调整他的设备以适应他深入海洋时的环境水压。

4.Engineers must consider the ambient water pressure 环境水压 when designing underwater structures.

工程师在设计水下结构时必须考虑环境水压。

5.The research team studied the effects of ambient water pressure 环境水压 on marine life in deep-sea environments.

研究小组研究了环境水压对深海环境中海洋生物的影响。

作文

Understanding the concept of ambient water pressure is crucial for various scientific and engineering applications. Water, being a fluid, exerts pressure on objects submerged in it due to the weight of the water above them. This pressure increases with depth, which can be explained by the hydrostatic principle. The deeper you go into a body of water, the greater the ambient water pressure becomes. For instance, at sea level, the atmospheric pressure is approximately 101.3 kPa, and for every additional meter of water depth, the pressure increases by about 9.81 kPa. This relationship is vital for divers, engineers, and marine biologists alike.In diving, understanding ambient water pressure is essential for safety. As divers descend, they experience an increase in pressure that can affect their bodies. If a diver goes too deep too quickly, they risk developing decompression sickness, commonly known as 'the bends.' This condition occurs when nitrogen bubbles form in the bloodstream due to rapid changes in pressure. Therefore, divers must be trained to manage their ascent and descent rates carefully, allowing their bodies to acclimate to the changing ambient water pressure.Moreover, the concept of ambient water pressure is also significant in engineering, particularly in the design of submarines and underwater structures. Engineers must consider the maximum ambient water pressure that these structures will encounter at their operational depths. Materials used in construction must withstand this pressure to ensure safety and functionality. Failure to account for ambient water pressure can lead to catastrophic failures, as seen in historical submarine disasters.In addition to diving and engineering, marine biology relies heavily on the understanding of ambient water pressure. Many marine organisms have adapted to live at various depths, where the ambient water pressure can be significantly different. For example, deep-sea creatures possess specialized adaptations that allow them to survive in high-pressure environments. Studying these organisms can provide insights into evolutionary biology and the potential for life in extreme conditions, such as those found on other planets.Furthermore, the effects of ambient water pressure are not limited to physical phenomena; they also influence chemical processes. For instance, the solubility of gases in water increases under higher pressures. This principle is critical for understanding aquatic ecosystems and the impact of climate change on oceanic conditions. As global temperatures rise, changes in ambient water pressure due to melting ice caps and rising sea levels can alter the distribution of marine species and their habitats.In conclusion, the term ambient water pressure encompasses a fundamental concept that impacts various fields, including diving, engineering, marine biology, and environmental science. A comprehensive understanding of ambient water pressure is essential for ensuring safety in underwater activities, designing resilient structures, and studying the intricate relationships within aquatic ecosystems. As we continue to explore our oceans and develop technologies to harness their resources, the importance of ambient water pressure will only grow, highlighting the need for ongoing research and education in this vital area of study.

理解环境水压的概念对于各种科学和工程应用至关重要。水作为一种流体，由于其上方水的重量，对浸没在其中的物体施加压力。这种压力随着深度的增加而增加，这可以通过静水原理来解释。例如，在海平面处，大气压力约为101.3 kPa，而每增加一米水深，压力大约增加9.81 kPa。这种关系对潜水员、工程师和海洋生物学家都至关重要。在潜水中，理解环境水压对安全至关重要。随着潜水员的下降，他们会经历压力的增加，这可能会影响他们的身体。如果潜水员下潜太快，可能会面临减压病的风险，通常称为“弯曲”。这种情况发生在由于压力的快速变化而导致氮气泡在血液中形成。因此，潜水员必须经过培训，以仔细管理他们的上升和下降速度，让他们的身体适应变化的环境水压。此外，环境水压的概念在工程领域也很重要，特别是在潜艇和水下结构的设计中。工程师必须考虑这些结构在其操作深度下将遇到的最大环境水压。用于建造的材料必须能够承受这种压力，以确保安全和功能。如果不考虑环境水压，可能会导致灾难性的故障，历史上的潜艇灾难就是一个例子。除了潜水和工程，海洋生物学也严重依赖对环境水压的理解。许多海洋生物已经适应了在不同深度生活，在那里环境水压可能有显著不同。例如，深海生物具有专门的适应能力，使它们能够在高压环境中生存。研究这些生物可以提供对进化生物学的见解，以及在其他行星上极端条件下生命存在的潜力。此外，环境水压的影响不仅限于物理现象；它们还影响化学过程。例如，气体在水中的溶解度在较高压力下增加。这一原理对于理解水生生态系统以及气候变化对海洋条件的影响至关重要。随着全球气温的上升，由于冰盖融化和海平面上升而导致的环境水压变化可能会改变海洋物种及其栖息地的分布。总之，术语环境水压包含一个基本概念，影响着潜水、工程、海洋生物学和环境科学等多个领域。全面理解环境水压对于确保水下活动的安全、设计耐用的结构以及研究水生生态系统中的复杂关系至关重要。随着我们继续探索海洋并开发利用其资源的技术，环境水压的重要性只会增加，突显出在这一重要研究领域持续进行研究和教育的必要性。