burnt shale

简明释义

1. 烧页岩; 2. 页岩残渣;

英英释义

例句

1.The construction of the new building utilized burnt shale to enhance the strength of the foundation.

新建筑的施工利用了烧结页岩来增强基础的强度。

2.The landscaping company recommended using burnt shale as a decorative element in the garden.

园艺公司建议在花园中使用烧结页岩作为装饰元素。

3.In our geology class, we learned how burnt shale can be used as an indicator of past volcanic activity.

在我们的地质课上，我们了解到烧结页岩可以作为过去火山活动的指示物。

4.The artist chose burnt shale for its unique texture in her sculpture.

这位艺术家选择了烧结页岩，因为它在雕塑中具有独特的质感。

5.During the renovation, we discovered that burnt shale was used in the original construction of the house.

在翻修过程中，我们发现房子的原始施工中使用了烧结页岩。

作文

The study of geological materials has always fascinated scientists and researchers alike. One such material that has garnered attention is burnt shale, which refers to a type of shale that has undergone thermal alteration due to exposure to high temperatures. This process can occur naturally, such as during volcanic activity, or can be induced artificially in industrial settings. Understanding burnt shale is crucial for various applications, including energy production and environmental management.Shale itself is a fine-grained sedimentary rock composed of clay minerals and organic matter. When subjected to heat, the organic components within the shale can decompose, leading to the formation of hydrocarbons. This transformation makes burnt shale a valuable resource in the oil and gas industry, as it can serve as a source rock for hydrocarbon generation.Moreover, the thermal alteration of shale can also affect its physical and chemical properties. For instance, burnt shale often exhibits increased porosity and permeability, making it more conducive to the storage and movement of fluids. These characteristics are particularly important in the context of natural gas extraction, where the ability to efficiently extract gas from shale formations can significantly impact production rates and economic viability.In addition to its implications in energy production, burnt shale also plays a role in environmental considerations. The combustion of shale, whether intentional or accidental, can release various pollutants into the atmosphere. Understanding the composition of burnt shale is essential for assessing the potential environmental impacts of shale combustion. Researchers are increasingly focused on evaluating the emissions associated with burnt shale to develop strategies for mitigating pollution and enhancing sustainability.Furthermore, the study of burnt shale extends beyond industrial applications; it also provides insights into past geological events. By analyzing the characteristics of burnt shale found in sedimentary layers, geologists can infer information about ancient environments and climatic conditions. This historical perspective is invaluable for understanding the Earth’s evolution and predicting future geological changes.In conclusion, burnt shale is a multifaceted material that holds significant importance in both industrial applications and environmental studies. Its unique properties make it a key player in energy production, while its environmental implications necessitate careful examination. As research continues to evolve, our understanding of burnt shale will undoubtedly deepen, paving the way for innovative solutions to contemporary challenges in energy and environmental management.

地质材料的研究一直以来都吸引着科学家和研究人员的关注。其中一种引起注意的材料是烧结页岩，它指的是一种由于暴露在高温下而经历热变质的页岩。这一过程可以自然发生，例如在火山活动期间，也可以在工业环境中人为诱导。理解烧结页岩对各种应用至关重要，包括能源生产和环境管理。页岩本身是一种细粒沉积岩，由粘土矿物和有机物组成。当页岩受到热量影响时，其中的有机成分可能会分解，从而形成碳氢化合物。这一转变使得烧结页岩成为石油和天然气行业中的宝贵资源，因为它可以作为碳氢化合物生成的源岩。此外，页岩的热变质也会影响其物理和化学性质。例如，烧结页岩通常表现出更高的孔隙度和渗透性，使其更适合于流体的储存和运动。这些特性在天然气提取的背景下尤为重要，因为有效地从页岩层中提取天然气的能力会显著影响生产率和经济可行性。除了在能源生产中的意义外，烧结页岩还在环境考虑中发挥着作用。无论是故意还是意外燃烧页岩，都可能向大气中释放各种污染物。理解烧结页岩的成分对评估页岩燃烧的潜在环境影响至关重要。研究人员越来越关注评估与烧结页岩相关的排放，以制定减轻污染和增强可持续性的策略。此外，烧结页岩的研究不仅限于工业应用；它还提供了对过去地质事件的见解。通过分析沉积层中发现的烧结页岩的特征，地质学家可以推断出古代环境和气候条件的信息。这一历史视角对于理解地球的演化和预测未来的地质变化具有重要价值。总之，烧结页岩是一种多面向的材料，在工业应用和环境研究中都具有重要意义。其独特的性质使其在能源生产中扮演着关键角色，而其环境影响则需要仔细审查。随着研究的不断发展，我们对烧结页岩的理解无疑会加深，为应对当代能源和环境管理挑战铺平道路。