glauberite

简明释义

英[ˈɡlɔːbəˌraɪt]美[ˈɡlaʊbəraɪt]

n. 钙芒硝

英英释义

单词用法

同义词

反义词

例句

1.Nonsandstone reservoirs between salt beds of Qianjiang Formation in the Qianjiang Sag of the Jianghan Basin are mainly composed of dolomicrite, glauberite rock, mudstone and their peperite.

组成江汉盆地潜江凹陷潜江组盐间段非砂岩储层的岩石主要为泥晶白云岩、钙芒硝岩、泥岩及其混积岩，孔渗性普遍较差。

2.Nonsandstone reservoirs between salt beds of Qianjiang Formation in the Qianjiang Sag of the Jianghan Basin are mainly composed of dolomicrite, glauberite rock, mudstone and their peperite.

组成江汉盆地潜江凹陷潜江组盐间段非砂岩储层的岩石主要为泥晶白云岩、钙芒硝岩、泥岩及其混积岩，孔渗性普遍较差。

3.This is important to study on solution mining mechanism of the difficult solubility glauberite.

溶解后孔隙率的研究对难溶性钙芒硝盐岩水溶开采机理的研究有重要的意义。

4.To the solution mining in-sit, the voidage of dissolved glauberite is a crucial factor.

水溶过程中矿石的空隙度是确定该矿床能否采用原地水溶开采方法开采的决定性因素。

5.The obtaining of the results fro the experiments provides a helpful method for the extraction of the groundwater with indissoluble glauberite ore.

实验结论的得出为较难溶于水的钙芒硝矿的地下水溶开采提供了一种有益的方法。

6.Some artists use glauberite as a pigment due to its vibrant color when crushed.

一些艺术家使用glauberite作为颜料，因为它被研磨后颜色鲜艳。

7.The mineral sample contained significant amounts of glauberite, which is known for its unique crystal structure.

该矿物样本含有大量的glauberite，它以其独特的晶体结构而闻名。

8.In the laboratory, we studied the properties of glauberite to understand its potential industrial applications.

在实验室中，我们研究了glauberite的性质，以了解其潜在的工业应用。

9.Geologists often find glauberite in evaporite deposits formed by the evaporation of saline waters.

地质学家常常在由盐水蒸发形成的蒸发岩沉积物中发现glauberite。

10.The presence of glauberite can indicate the historical climate conditions of an area.

在一个地区发现glauberite可能表明该地区的历史气候条件。

作文

Glauberite is a mineral that has fascinated geologists and mineralogists for centuries. Its chemical formula is Na2Ca(SO4)2, which indicates that it is a double sulfate of sodium and calcium. This unique composition gives glauberite its distinct properties and makes it an interesting subject of study in various fields such as geology, chemistry, and even environmental science. The mineral was first described in the 17th century and is named after the German chemist Johann Rudolf Glauber, who is known for his work with salts and their applications. Glauberite typically forms in evaporitic environments where seawater or saline lakes evaporate, leaving behind concentrated solutions of minerals. As the water evaporates, the remaining salts crystallize, and glauberite can precipitate out along with other minerals like halite and gypsum.One of the most fascinating aspects of glauberite is its occurrence in nature. It is often found in sedimentary rock formations, particularly in regions that have a history of evaporative processes. For instance, large deposits of glauberite can be found in places like the Great Salt Lake in Utah, USA, and in various salt flats around the world. These deposits not only provide insights into the geological history of these regions but also have economic significance, as they can be mined for their sulfate content, which is used in various industrial applications.The study of glauberite also sheds light on the conditions under which it forms. For example, the presence of sodium and calcium ions in evaporating waters is essential for the crystallization of glauberite. Furthermore, the temperature and rate of evaporation play crucial roles in determining the size and purity of the crystals formed. Understanding these factors can help scientists predict where glauberite might be found and how it can be extracted efficiently.In addition to its geological significance, glauberite has applications in agriculture and industry. Sulfates are important nutrients for plants, and glauberite can be used as a fertilizer to improve soil quality. Moreover, the mineral is utilized in the production of glass and ceramics, where its sulfate content can enhance certain properties of the final products. This versatility makes glauberite a valuable resource in both natural and industrial contexts.In conclusion, glauberite is more than just a mineral; it is a key player in understanding geological processes and has practical applications that benefit various industries. Its unique composition and formation conditions make it an intriguing subject of study. As we continue to explore the Earth's geological wonders, glauberite serves as a reminder of the intricate connections between natural processes and human activity. Whether you are a student, a researcher, or simply someone interested in the natural world, learning about glauberite can deepen your appreciation for the complexities of our planet's geology and the resources it provides us with.

Glauberite是一种矿物，几个世纪以来一直吸引着地质学家和矿物学家的关注。它的化学式是Na2Ca(SO4)2，这表明它是钠和钙的双硫酸盐。这种独特的组成赋予了glauberite其独特的性质，并使其成为地质学、化学甚至环境科学等多个领域的有趣研究对象。这种矿物首次被描述是在17世纪，它以德国化学家约翰·鲁道夫·格劳伯的名字命名，他因其对盐及其应用的研究而闻名。Glauberite通常在蒸发环境中形成，在这些环境中，海水或盐湖蒸发，留下浓缩的矿物溶液。随着水分的蒸发，剩余的盐类结晶，glauberite可以与其他矿物如岩盐和石膏一起沉淀出来。Glauberite最引人注目的方面之一是它在自然界中的存在。它通常发现于沉积岩层中，特别是在具有蒸发过程历史的地区。例如，在美国犹他州的大盐湖和世界各地的各种盐滩上，可以找到大量的glauberite沉积。这些沉积不仅提供了对这些地区地质历史的洞察，而且具有经济意义，因为它们可以被开采用于其硫酸盐含量，该含量用于各种工业应用。对glauberite的研究也揭示了它形成的条件。例如，蒸发水中钠和钙离子的存在对于glauberite的结晶至关重要。此外，温度和蒸发速率在决定所形成晶体的大小和纯度方面起着关键作用。了解这些因素可以帮助科学家预测glauberite可能出现的地方，以及如何有效地提取它。除了其地质意义外，glauberite在农业和工业中也有应用。硫酸盐是植物的重要营养素，glauberite可以用作肥料，以改善土壤质量。此外，该矿物用于玻璃和陶瓷的生产，其中其硫酸盐含量可以增强最终产品的某些特性。这种多功能性使得glauberite在自然和工业背景中都成为一种宝贵的资源。总之，glauberite不仅仅是一种矿物；它是理解地质过程的关键角色，并具有使各种行业受益的实际应用。其独特的组成和形成条件使其成为一个引人入胜的研究主题。随着我们继续探索地球的地质奇观，glauberite提醒我们自然过程与人类活动之间的复杂联系。无论你是学生、研究人员，还是仅仅对自然世界感兴趣的人，了解glauberite都可以加深你对我们星球地质复杂性及其提供给我们的资源的欣赏。