sea intake

简明释义

通海吸水箱

英英释义

例句

1.We need to clean the sea intake after every trip to prevent corrosion.

我们需要在每次旅行后清洁海水进水口以防止腐蚀。

2.During maintenance, we checked the sea intake for any blockages that could affect performance.

在维护期间，我们检查了海水进水口是否有任何堵塞，这可能会影响性能。

3.A clogged sea intake can lead to overheating and serious engine damage.

堵塞的海水进水口可能导致过热和严重的引擎损坏。

4.The ship's engine relies on the proper functioning of the sea intake to draw in water for cooling.

船舶的引擎依赖于正常运作的海水进水口来吸入水进行冷却。

5.The diver inspected the sea intake to ensure it was free of debris.

潜水员检查了海水进水口以确保没有杂物。

作文

The world's oceans cover more than 70% of the Earth's surface, playing a crucial role in regulating the climate and supporting diverse ecosystems. One of the significant processes that occur within these vast bodies of water is the sea intake, which refers to the method by which seawater is drawn into various systems, such as desalination plants or cooling systems for power generation. Understanding sea intake is vital for both environmental sustainability and technological advancement.Desalination is becoming increasingly important as freshwater resources become scarcer due to population growth and climate change. Desalination plants utilize sea intake to draw in seawater, which is then processed to remove salt and other impurities, making it suitable for human consumption. The efficiency of this process heavily relies on the design and implementation of the sea intake system. A well-designed sea intake minimizes the impact on marine life by ensuring that fish and other organisms are not harmed during the water intake process. This is achieved through the use of screens and filters that prevent larger marine creatures from being sucked into the plant.Moreover, the location of the sea intake is crucial. It needs to be positioned in an area with sufficient water flow to ensure that the plant can operate efficiently without depleting local marine resources. Environmental assessments are often conducted to determine the best location for a sea intake to balance the needs of human consumption and the health of marine ecosystems.In addition to desalination, sea intake systems are also used in cooling processes for power plants. These facilities require large amounts of water to maintain optimal operating temperatures. By using sea intake systems, power plants can efficiently cool their machinery while ensuring that the water returned to the ocean is at a safe temperature, thus preventing thermal pollution that could harm aquatic life.However, the practice of sea intake is not without its challenges. One major concern is the potential for entrainment, where small marine organisms are inadvertently drawn into the system. This can lead to a decrease in local fish populations and disrupt the balance of the ecosystem. To mitigate these risks, advancements in technology have led to the development of more sophisticated sea intake designs that include features like variable speed pumps and acoustic deterrents to keep marine life away from the intake area.Furthermore, as climate change continues to impact ocean temperatures and sea levels, the design and operation of sea intake systems must adapt to these changing conditions. Engineers and environmental scientists are working together to develop innovative solutions that will allow for sustainable sea intake practices while protecting marine ecosystems. In conclusion, understanding sea intake is essential for addressing the growing demand for freshwater and energy while preserving our oceans. As we continue to rely on the seas for vital resources, it is imperative that we implement responsible and environmentally friendly sea intake systems. This balance between human needs and ecological health will determine the future of our planet's marine environments and the sustainability of our water resources.

世界的海洋覆盖了地球表面70%以上，发挥着调节气候和支持多样生态系统的重要作用。在这些广阔水域中发生的一个重要过程是海水摄取，指的是将海水引入各种系统的方法，例如海水淡化厂或发电冷却系统。理解海水摄取对于环境可持续性和技术进步至关重要。随着人口增长和气候变化导致淡水资源日益稀缺，海水淡化变得越来越重要。海水淡化厂利用海水摄取来抽取海水，然后经过处理去除盐分和其他杂质，使其适合人类饮用。这一过程的效率在很大程度上依赖于海水摄取系统的设计和实施。设计良好的海水摄取可以最大限度地减少对海洋生物的影响，确保鱼类和其他生物在水摄取过程中不受伤害。这是通过使用屏幕和过滤器来防止较大的海洋生物被吸入工厂来实现的。此外，海水摄取的位置至关重要。它需要位于水流充足的区域，以确保工厂能够高效运行而不耗尽当地海洋资源。通常会进行环境评估，以确定海水摄取的最佳位置，以平衡人类消费的需求和海洋生态系统的健康。除了海水淡化，海水摄取系统还用于发电厂的冷却过程。这些设施需要大量水来维持最佳操作温度。通过使用海水摄取系统，发电厂可以有效地冷却其机械，同时确保返回海洋的水温安全，从而防止热污染对水生生物造成伤害。然而，海水摄取的做法并非没有挑战。一个主要问题是可能导致的夹带，即小型海洋生物被意外吸入系统。这可能导致当地鱼类数量减少，并破坏生态平衡。为了减轻这些风险，技术的进步促使开发出更复杂的海水摄取设计，包括可变速度泵和声波驱避装置，以使海洋生物远离摄取区。此外，随着气候变化继续影响海洋温度和海平面，海水摄取系统的设计和操作必须适应这些变化的条件。工程师和环境科学家正在共同努力开发创新解决方案，以便在保护海洋生态系统的同时实施可持续的海水摄取实践。总之，理解海水摄取对于应对日益增长的淡水和能源需求，同时保护我们的海洋至关重要。随着我们继续依赖海洋提供重要资源，务必实施负责任和环保的海水摄取系统。人类需求与生态健康之间的这种平衡将决定我们星球海洋环境的未来以及水资源的可持续性。