coffinite

简明释义

[ˈkɒfɪˌnaɪt][ˈkɑːfɪnaɪt]

n. [矿物] 铀石;水硅铀矿

英英释义

Coffinite is a mineral composed of uranium dioxide (UO2) with a small amount of other elements such as silicon and oxygen, often found in uranium-rich deposits.

Coffinite是一种矿物,主要由二氧化铀(UO2)组成,含有少量其他元素如硅和氧,通常在富含铀的矿床中发现。

单词用法

coffinite mineral

Coffinite矿物

coffinite deposits

Coffinite沉积

coffinite-rich ore

富含Coffinite的矿石

coffinite occurrence

Coffinite的出现

同义词

uraninite

铀矿

Coffinite is often found in association with uraninite in uranium deposits.

Coffinite通常与铀矿一起出现在铀矿床中。

pitchblende

沥青铀矿

Pitchblende is considered a primary ore of uranium, similar to coffinite.

沥青铀矿被认为是铀的主要矿石,类似于coffinite

反义词

uraninite

铀矿

Uraninite is the primary ore of uranium.

铀矿是铀的主要矿石。

pitchblende

沥青铀矿

Pitchblende contains a high concentration of uranium.

沥青铀矿含有高浓度的铀。

例句

1.Coffinite is the uranium mineral.

铀矿物为铀石。

2.Ore minerals in the colorado-type deposits are of uraninite and coffinite, with associated vanadium and copper minerals .

科罗拉多型矿床中的铀矿物为晶质铀矿和水硅铀矿,与之共生的还有钒,铜矿物。

3.Ore minerals in the Colorado-type deposits are of uraninite and coffinite, with associated vanadium and copper minerals.

科罗拉多型矿床中的铀矿物为晶质铀矿和水硅铀矿,与之共生的还有钒,铜矿物。

4.Ore minerals in the colorado-type deposits are of uraninite and coffinite, with associated vanadium and copper minerals .

科罗拉多型矿床中的铀矿物为晶质铀矿和水硅铀矿,与之共生的还有钒,铜矿物。

5.In the lab, we identified coffinite using X-ray diffraction techniques.

在实验室中,我们使用X射线衍射技术识别了coffinite

6.The presence of coffinite can indicate previous geothermal activity in the area.

在该地区发现coffinite可能表明之前的地热活动。

7.Geologists often study coffinite to understand the formation of uranium deposits.

地质学家经常研究coffinite以了解铀矿床的形成。

8.Mining companies are interested in coffinite due to its potential as a uranium ore.

矿业公司对coffinite感兴趣,因为它有作为铀矿石的潜力。

9.The mineral sample contained a significant amount of coffinite, which is known for its uranium content.

这个矿物样本含有大量的coffinite,它以其铀含量而闻名。

作文

Coffinite, a mineral primarily composed of uranium, has gained attention in recent years due to its significance in the field of nuclear energy and environmental science. This mineral is often found in sedimentary rocks and is known for its unique properties that make it an essential component in the study of uranium deposits. Understanding coffinite (铀矿石) is crucial for geologists and environmental scientists alike, as it plays a vital role in the natural cycle of uranium and its extraction processes.The formation of coffinite (铀矿石) typically occurs under specific geological conditions, where organic matter and uranium-rich solutions interact over millions of years. This process results in the crystallization of coffinite (铀矿石), which can then be mined for its uranium content. The presence of coffinite (铀矿石) in various geological formations provides insights into the historical geological events that shaped our planet. By studying this mineral, scientists can reconstruct past environments and understand the processes that lead to uranium enrichment.In addition to its geological importance, coffinite (铀矿石) also has significant implications for the nuclear energy sector. As the world seeks to transition to cleaner energy sources, uranium remains a key player in the production of nuclear power. The extraction and processing of coffinite (铀矿石) are critical steps in ensuring a sustainable supply of uranium for nuclear reactors. However, the mining and processing of this mineral must be conducted with care, as improper handling can lead to environmental contamination and health risks for workers.Moreover, the study of coffinite (铀矿石) extends beyond just its economic value. It also raises important questions about waste management and environmental protection. As uranium is extracted from coffinite (铀矿石), the byproducts of this process must be managed responsibly to prevent long-term ecological damage. Researchers are actively exploring methods to mitigate the environmental impact of mining activities, including the development of more efficient extraction techniques and the rehabilitation of mined sites.Furthermore, the presence of coffinite (铀矿石) in certain regions can indicate the potential for future uranium deposits. Geologists often conduct surveys to locate areas rich in coffinite (铀矿石), which can lead to new discoveries and advancements in the field of nuclear energy. As demand for uranium continues to grow, understanding the distribution and characteristics of coffinite (铀矿石) becomes increasingly important.In conclusion, coffinite (铀矿石) is more than just a mineral; it is a critical resource that intersects geology, energy production, and environmental science. Its study not only helps us understand the Earth's history but also informs our approach to sustainable energy practices. As we move forward in our quest for cleaner energy solutions, the role of coffinite (铀矿石) will undoubtedly remain significant, highlighting the intricate connections between natural resources and human innovation.

铀矿石(coffinite)是一种主要由铀组成的矿物,近年来因其在核能和环境科学领域的重要性而受到关注。这种矿物通常存在于沉积岩中,以其独特的性质而闻名,使其成为研究铀矿床的重要组成部分。理解coffinite铀矿石)对地质学家和环境科学家来说至关重要,因为它在铀的自然循环及其提取过程中发挥着重要作用。coffinite铀矿石)的形成通常发生在特定的地质条件下,有机物和富铀溶液在数百万年中相互作用。这一过程导致coffinite铀矿石)的结晶,然后可以开采其铀含量。coffinite铀矿石)在各种地质构造中的存在为我们提供了对塑造我们星球的历史地质事件的洞察。通过研究这种矿物,科学家们可以重建过去的环境,并理解导致铀富集的过程。除了其地质重要性外,coffinite铀矿石)还对核能行业具有重要意义。随着世界寻求向更清洁的能源转型,铀仍然是核电生产中的关键角色。提取和加工coffinite铀矿石)是确保核反应堆可持续铀供应的关键步骤。然而,必须小心进行这种矿物的开采和加工,因为不当处理可能导致环境污染和工人的健康风险。此外,研究coffinite铀矿石)不仅仅涉及其经济价值。它还引发了关于废物管理和环境保护的重要问题。随着铀从coffinite铀矿石)中提取,必须负责管理这一过程的副产品,以防止长期的生态损害。研究人员正在积极探索减轻采矿活动环境影响的方法,包括开发更高效的提取技术和恢复采矿场地。此外,某些地区coffinite铀矿石)的存在可能表明未来铀矿床的潜力。地质学家通常会进行调查,以定位富含coffinite铀矿石)的区域,这可能导致新的发现和核能领域的进展。随着对铀需求的不断增长,理解coffinite铀矿石)的分布和特征变得越来越重要。总之,coffinite铀矿石)不仅仅是一种矿物;它是一个与地质学、能源生产和环境科学交叉的关键资源。其研究不仅有助于我们理解地球的历史,还为我们提供了可持续能源实践的指导。在我们继续追求更清洁能源解决方案的过程中,coffinite铀矿石)的角色无疑将保持重要性,突显自然资源与人类创新之间的复杂联系。