hydrothermally

简明释义

英[ˌhaɪdroʊˈθɜrməli]美[ˌhaɪdroʊˈθɜrməli]

adv. 热水地；热液地

英英释义

单词用法

同义词

反义词

例句

1.The silicoaluminophosphate molecular sieve(SAPO-5) with relative bigger pore diameter was synthesized hydrothermally and the optimum synthesis condition was determined through experiments.

采用水热法合成大孔径硅磷酸铝分子筛（SAPO-5），并通过试验确定了SAPO-5分子筛的最佳合成条件。

2.The silicoaluminophosphate molecular sieve(SAPO-5) with relative bigger pore diameter was synthesized hydrothermally and the optimum synthesis condition was determined through experiments.

采用水热法合成大孔径硅磷酸铝分子筛（SAPO-5），并通过试验确定了SAPO-5分子筛的最佳合成条件。

3.Tunable superstructures were obtained in hydrothermally etched iron-passivated porous silicon (IPS).

采用水热腐蚀技术制备的铁钝化多孔硅表面具有可调超结构。

4.The hydrothermally synthesis of calcium silicate hydrates.

水热合成了水合硅酸钙。

5.The minerals were formed hydrothermally in the Earth's crust.

这些矿物是在地壳中水热形成的。

6.Geologists study rocks that have been altered hydrothermally to understand volcanic activity.

地质学家研究那些被水热改变的岩石，以了解火山活动。

7.The hot springs are a result of water being heated hydrothermally by magma.

这些温泉是由于水被岩浆水热加热所致。

8.Many gemstones are formed hydrothermally, making them unique and valuable.

许多宝石是通过水热方式形成的，使它们独特且有价值。

9.The research focused on hydrothermally altered zones in the mining area.

研究重点是矿区内被水热改变的区域。

作文

The study of geology often reveals fascinating processes that shape our planet. One such process is the role of hydrothermal systems, which are critical in the formation of various geological features. When we refer to something as hydrothermally related, we are discussing the interactions between water and heat within the Earth's crust. These interactions can lead to the formation of minerals, the alteration of rocks, and even the creation of unique ecosystems. For instance, hydrothermal vents on the ocean floor are prime examples of how hydrothermally active environments can support life in extreme conditions. Hydrothermal processes involve heated water, typically originating from magma or geothermal activity. As this water rises through the crust, it can dissolve minerals and transport them to the surface. This phenomenon is not only important for mineral deposits but also for understanding the thermal dynamics of our planet. The term hydrothermally emphasizes the significance of water in geological processes, highlighting how essential it is in shaping our environment. In addition to mineral formation, hydrothermally influenced areas can also create spectacular landscapes. Hot springs, geysers, and fumaroles are all manifestations of hydrothermal activity. These features attract tourists and scientists alike, eager to witness the power of nature at work. For example, Yellowstone National Park is renowned for its hydrothermally active sites, where visitors can observe boiling mud pots and erupting geysers. The beauty and wonder of these natural phenomena stem from the intricate balance of water and heat beneath the Earth's surface. Moreover, the study of hydrothermal systems extends beyond Earth. Scientists are increasingly interested in the potential for hydrothermally driven processes on other celestial bodies, such as Europa, one of Jupiter's moons. Europa is believed to have a subsurface ocean heated by tidal forces, creating conditions similar to those found in hydrothermal environments on Earth. This raises intriguing questions about the possibility of extraterrestrial life in hydrothermally active regions beyond our planet. In conclusion, the term hydrothermally encapsulates a wide range of geological phenomena that are vital to our understanding of Earth's processes. From the formation of valuable mineral resources to the creation of stunning natural features, hydrothermal systems play an essential role in shaping our world. As we continue to explore both our planet and others in the solar system, the significance of hydrothermally active environments will undoubtedly remain a key focus of scientific inquiry. Understanding these processes not only enhances our knowledge of geology but also deepens our appreciation for the dynamic nature of the universe we inhabit.

地质学的研究常常揭示出塑造我们星球的迷人过程。其中一个过程就是热液系统的作用，这在各种地质特征的形成中至关重要。当我们提到某物与热液相关时，我们是在讨论水与地壳内热量之间的相互作用。这些相互作用可以导致矿物的形成、岩石的改变，甚至创造出独特的生态系统。例如，海底的热液喷口就是热液活跃环境如何在极端条件下支持生命的典型例子。 热液过程涉及加热的水，通常来源于岩浆或地热活动。当这些水通过地壳上升时，它可以溶解矿物并将其运输到地表。这一现象不仅对矿产资源的重要性至关重要，也有助于理解我们星球的热动力学。术语热液强调水在地质过程中的重要性，突显出它在塑造我们环境中的必要性。 除了矿物形成，受热液影响的区域还可以创造出壮观的景观。温泉、间歇泉和气孔都是热液活动的表现。这些特征吸引了游客和科学家，他们渴望见证大自然的力量。例如，黄石国家公园因其热液活跃的地点而闻名，游客可以观察到沸腾的泥浆池和喷发的间歇泉。这些自然现象的美丽与奇观源于地球表面下水与热之间的微妙平衡。 此外，热液系统的研究超越了地球。科学家们越来越关注在其他天体上由热液驱动的过程的潜力，例如木星的一个卫星欧罗巴。据信欧罗巴拥有一个被潮汐力加热的地下海洋，创造出类似于地球上热液环境的条件。这引发了关于在我们星球之外的热液活跃区域存在外星生命的可能性的有趣问题。 总之，术语热液概括了广泛的地质现象，这些现象对我们理解地球的过程至关重要。从宝贵矿产资源的形成到壮观自然特征的创造，热液系统在塑造我们的世界中发挥着重要作用。随着我们继续探索我们自己的星球和太阳系中的其他星球，热液活跃环境的重要性无疑仍将是科学研究的关键焦点。理解这些过程不仅增强了我们对地质学的认识，也加深了我们对我们所栖息的宇宙动态本质的欣赏。