tidal datum plane

简明释义

潮高基准面

英英释义

例句

1.Researchers often refer to the tidal datum plane when studying sea level rise.

研究人员在研究海平面上升时常常提到潮汐基准面。

2.The tidal datum plane helps in determining the baseline for tidal measurements.

潮汐基准面有助于确定潮汐测量的基线。

3.Understanding the tidal datum plane is essential for coastal engineering projects.

理解潮汐基准面对于沿海工程项目至关重要。

4.Accurate mapping requires establishing a reliable tidal datum plane.

准确的制图需要建立一个可靠的潮汐基准面。

5.The surveyor used the tidal datum plane to accurately measure the elevation of the coastal structures.

测量员使用潮汐基准面准确测量沿海建筑物的高度。

作文

Understanding the concept of a tidal datum plane is essential for various fields, including oceanography, marine engineering, and coastal management. A tidal datum plane serves as a reference point for measuring tidal heights and depths in relation to sea level. This baseline is crucial because it allows scientists and engineers to interpret tidal data accurately, which can influence everything from navigation to environmental conservation efforts. The tidal datum plane is typically established by averaging the lowest or highest tides observed over a specific period. For instance, Mean Sea Level (MSL) is a common tidal datum plane used in many regions, which represents an average of all tidal levels recorded over time. This average helps in creating a reliable framework for understanding how tides behave in different locations.In coastal engineering projects, the tidal datum plane is critical for designing structures such as docks, piers, and seawalls. Engineers must take into account the variations in tidal ranges to ensure that these structures can withstand the forces exerted by water at different times. If a structure is built too close to the high-water mark without considering the tidal datum plane, it could be vulnerable to flooding during storm surges or unusually high tides.Moreover, the tidal datum plane plays a significant role in maritime navigation. Ships rely on accurate tidal information to safely navigate harbors and coastal waters. By understanding the relationship between their draft (the vertical distance between the waterline and the bottom of the hull) and the tidal datum plane, mariners can avoid grounding and ensure safe passage. Environmental scientists also utilize the tidal datum plane in their studies. For example, when assessing the impact of rising sea levels due to climate change, researchers measure how much higher the tides are compared to the tidal datum plane. This information is vital for predicting potential flooding in vulnerable coastal communities and for developing strategies to mitigate these risks.Furthermore, the establishment of a consistent tidal datum plane across different regions allows for better communication and collaboration among scientists and engineers. It creates a standardized reference that can be used in international projects, facilitating data sharing and comparative studies. Without such a reference, discrepancies in tidal measurements could lead to confusion and misinterpretation of data, hindering progress in coastal research and development.In conclusion, the tidal datum plane is more than just a technical term; it is a fundamental concept that underpins a wide array of activities related to water bodies. From ensuring safe navigation and constructing resilient infrastructure to conducting vital environmental research, the importance of the tidal datum plane cannot be overstated. As we continue to confront challenges posed by climate change and rising sea levels, understanding and utilizing the tidal datum plane will be crucial for sustainable management of our coastal environments.

理解潮汐基准面的概念对于海洋学、海洋工程和沿海管理等多个领域至关重要。潮汐基准面作为测量潮位和深度相对于海平面的参考点，具有重要意义。这一基线是关键，因为它使科学家和工程师能够准确解读潮汐数据，这影响着从航行到环境保护的各个方面。潮汐基准面通常通过对特定时期内观察到的最低或最高潮位进行平均来建立。例如，平均海平面（MSL）是许多地区常用的潮汐基准面，它代表了一段时间内记录的所有潮位的平均值。这一平均值有助于创建一个可靠的框架，以理解不同地点潮汐的行为。在沿海工程项目中，潮汐基准面对于设计码头、平台和防波堤等结构至关重要。工程师必须考虑潮汐范围的变化，以确保这些结构能够承受在不同时间水体施加的力量。如果一个结构建得离高潮线太近，而没有考虑潮汐基准面，它可能会在风暴潮或异常高的潮位期间面临淹没的风险。此外，潮汐基准面在海事导航中也发挥着重要作用。船只依赖准确的潮汐信息安全地航行于港口和沿海水域。通过了解其吃水（即水线与船体底部之间的垂直距离）与潮汐基准面之间的关系，海员可以避免搁浅，并确保安全通行。环境科学家也利用潮汐基准面进行研究。例如，在评估气候变化导致的海平面上升影响时，研究人员会测量潮位相对于潮汐基准面的高度。这些信息对于预测脆弱沿海社区潜在的洪水风险以及制定减轻这些风险的策略至关重要。此外，在不同地区建立一致的潮汐基准面，可以促进科学家和工程师之间更好的沟通与合作。它创建了一个标准化的参考，可以用于国际项目，促进数据共享和比较研究。如果没有这样的参考，潮汐测量中的差异可能会导致混淆和数据误解，从而阻碍沿海研究和开发的进展。总之，潮汐基准面不仅仅是一个技术术语；它是支撑与水体相关的各种活动的基本概念。从确保安全航行和建设韧性基础设施到进行重要的环境研究，潮汐基准面的重要性不容小觑。随着我们继续面临气候变化和海平面上升带来的挑战，理解和利用潮汐基准面将对可持续管理我们的沿海环境至关重要。