anisometric deposit

简明释义

1. 不等粒沉积; 2. 非等粒沉积;

英英释义

例句

1.The presence of an anisometric deposit may indicate past geological activity in the area.

一个各向异性沉积的存在可能表明该地区过去的地质活动。

2.When analyzing the soil samples, we found an anisometric deposit that could affect crop yields.

在分析土壤样本时，我们发现了一个各向异性沉积，这可能会影响作物产量。

3.Researchers are studying the effects of anisometric deposits on local ecosystems.

研究人员正在研究各向异性沉积对当地生态系统的影响。

4.The geologist discovered an anisometric deposit in the mountain, indicating a varied mineral composition.

地质学家在山中发现了一个各向异性沉积，这表明矿物成分多样。

5.The mining company invested in technology to better extract resources from the anisometric deposit.

该采矿公司投资于技术，以更好地从各向异性沉积中提取资源。

作文

In the field of geology and mining, the term anisometric deposit refers to a type of mineral deposit that exhibits varying dimensions in different directions. This characteristic can significantly influence the extraction methods and economic viability of mining operations. Unlike isotropic deposits, which have uniform properties in all directions, anisometric deposit presents unique challenges and opportunities for geologists and mining engineers alike.Understanding the implications of anisometric deposit is crucial for effective resource management. For instance, when a mineral deposit has an elongated shape, it may require specialized techniques for drilling and extraction to ensure that the maximum amount of material is recovered while minimizing waste. The orientation of the deposit can also affect the feasibility of accessing it from surface or underground operations.Moreover, the presence of an anisometric deposit can impact the economic calculations associated with mining projects. Investors and stakeholders must consider factors such as the cost of extraction, transportation logistics, and market demand for the minerals involved. An elongated deposit may necessitate longer transportation routes, thereby increasing overall operational costs. Conversely, if the deposit is rich in valuable minerals, it might still be economically viable despite these challenges.From a geological perspective, the formation of anisometric deposit can provide insights into the tectonic and environmental conditions present during its creation. These deposits often form in response to specific geological processes, such as volcanic activity or sedimentary layering. By studying the characteristics of these deposits, geologists can better understand the history of the Earth's crust and the processes that lead to mineralization.In addition, the study of anisometric deposit has implications beyond just mining. It can influence various fields such as environmental science and land use planning. For instance, understanding the distribution and characteristics of these deposits can help in assessing potential environmental impacts from mining activities. Proper management practices can then be designed to mitigate negative effects on surrounding ecosystems.Furthermore, advancements in technology have allowed for more precise mapping and modeling of anisometric deposit. Geographic Information Systems (GIS) and remote sensing tools are increasingly used to analyze the spatial characteristics of mineral deposits. These technologies enable geologists to visualize the deposits in three dimensions, providing a clearer picture of their extent and orientation.In conclusion, the concept of anisometric deposit plays a vital role in the fields of geology and mining. Its unique characteristics present both challenges and opportunities for resource extraction and management. By understanding the implications of these deposits, professionals in the industry can make informed decisions that not only enhance economic outcomes but also promote sustainable practices. As we continue to explore and utilize the Earth’s resources, the study of anisometric deposit will remain an important area of focus for researchers and practitioners alike.

在地质学和矿业领域，术语非等轴沉积物指的是一种矿物沉积物，其在不同方向上表现出不同的尺寸特征。这种特征会显著影响采矿作业的方法和经济可行性。与各向同性沉积物不同，各向同性沉积物在各个方向上具有均匀的特性，而非等轴沉积物则为地质学家和矿业工程师带来了独特的挑战和机遇。理解非等轴沉积物的影响对于有效的资源管理至关重要。例如，当一个矿物沉积物呈现出拉长的形状时，可能需要采用专业化的钻探和提取技术，以确保最大限度地回收材料，同时最小化废物的产生。沉积物的方向也会影响从地表或地下进行开采的可行性。此外，非等轴沉积物的存在可能会影响与采矿项目相关的经济计算。投资者和利益相关者必须考虑提取成本、运输物流以及涉及矿物的市场需求等因素。拉长的沉积物可能需要更长的运输路线，从而增加整体运营成本。相反，如果沉积物富含有价值的矿物，尽管面临这些挑战，它仍然可能在经济上是可行的。从地质学的角度来看，非等轴沉积物的形成可以提供有关其创建过程中存在的构造和环境条件的见解。这些沉积物通常是在火山活动或沉积层理等特定地质过程的响应下形成的。通过研究这些沉积物的特征，地质学家可以更好地理解地壳的历史以及导致矿化的过程。此外，研究非等轴沉积物不仅仅局限于采矿。它还可以影响环境科学和土地利用规划等多个领域。例如，了解这些沉积物的分布和特征可以帮助评估采矿活动对环境的潜在影响。然后，可以设计适当的管理实践，以减轻对周围生态系统的负面影响。此外，技术的进步使得对非等轴沉积物的更精确的映射和建模成为可能。地理信息系统（GIS）和遥感工具越来越多地用于分析矿物沉积物的空间特征。这些技术使地质学家能够以三维方式可视化沉积物，从而更清晰地了解其范围和方向。总之，非等轴沉积物的概念在地质学和采矿领域中发挥着重要作用。其独特的特征为资源的提取和管理带来了挑战和机遇。通过理解这些沉积物的影响，行业专业人士可以做出明智的决策，不仅提高经济成果，还促进可持续实践。随着我们继续探索和利用地球的资源，对非等轴沉积物的研究将始终是研究人员和从业者关注的重要领域。