asphaltic hyrobituminous shale

简明释义

1. 焦性地沥青页岩; 2. 焦沥青页岩;

英英释义

例句

1.The construction team decided to use asphaltic hyrobituminous shale for the new road due to its durability.

施工队决定使用沥青性水质页岩来修建新道路，因为它的耐用性。

2.Environmentalists are concerned about the impact of mining asphaltic hyrobituminous shale on local ecosystems.

环保主义者担心开采沥青性水质页岩对当地生态系统的影响。

3.In our geology class, we studied the properties of asphaltic hyrobituminous shale and its applications in energy production.

在我们的地质课上，我们研究了沥青性水质页岩的特性及其在能源生产中的应用。

4.The oil extraction process is often complicated by the presence of asphaltic hyrobituminous shale in the reservoir.

油气开采过程常常因油藏中存在沥青性水质页岩而变得复杂。

5.The researchers discovered that asphaltic hyrobituminous shale can be a significant source of hydrocarbons.

研究人员发现沥青性水质页岩可以成为重要的碳氢化合物来源。

作文

The exploration of natural resources has always been a topic of great interest to scientists and engineers alike. Among the various types of geological formations, asphaltic hyrobituminous shale is particularly noteworthy due to its unique properties and potential applications in energy production. This type of shale contains significant amounts of organic material, which can be converted into hydrocarbons through various extraction methods. Understanding asphaltic hyrobituminous shale is crucial for developing sustainable energy solutions that can help meet the world's growing energy demands.Firstly, it is essential to define what asphaltic hyrobituminous shale is. This term refers to a specific type of sedimentary rock that is rich in bitumen, a viscous form of petroleum. The presence of bitumen gives this shale its characteristic asphalt-like properties, making it an attractive source of hydrocarbons. Unlike conventional oil reserves, asphaltic hyrobituminous shale requires advanced extraction techniques, such as hydraulic fracturing or thermal recovery, to release the trapped hydrocarbons effectively.The significance of asphaltic hyrobituminous shale extends beyond its geological characteristics. It plays a vital role in the context of global energy consumption. As traditional fossil fuel reserves become depleted, the world is increasingly turning to unconventional sources of energy. Asphaltic hyrobituminous shale represents one of these sources, offering the potential for large-scale hydrocarbon production. Countries with abundant deposits of this shale, such as the United States and Canada, are investing heavily in research and development to optimize extraction processes and reduce environmental impacts.In addition to its economic implications, the study of asphaltic hyrobituminous shale also raises important environmental considerations. The extraction and processing of hydrocarbons from shale can lead to significant ecological disturbances, including water contamination and habitat destruction. Therefore, it is imperative to implement strict regulatory measures to ensure that the extraction of asphaltic hyrobituminous shale is conducted responsibly and sustainably. Researchers are exploring innovative technologies that can minimize environmental footprints while maximizing energy output.Moreover, the future of asphaltic hyrobituminous shale is closely tied to advancements in technology. New methods for extracting and processing shale oil are continually being developed, making it more economically viable. For instance, enhanced oil recovery techniques, such as steam-assisted gravity drainage, have shown promise in increasing the yield of hydrocarbons from asphaltic hyrobituminous shale. These innovations not only improve efficiency but also contribute to reducing greenhouse gas emissions associated with traditional extraction methods.In conclusion, asphaltic hyrobituminous shale is a critical resource in the quest for sustainable energy solutions. Its unique properties and potential for hydrocarbon production make it a focal point for research and investment. However, it is essential to approach its extraction with caution, balancing economic benefits with environmental protection. As we continue to explore and develop this resource, the future of asphaltic hyrobituminous shale will undoubtedly play a significant role in shaping the global energy landscape.

自然资源的探索一直是科学家和工程师们极为关注的话题。在各种地质构造中，沥青性水质页岩特别引人注目，因为它独特的性质和在能源生产中的潜在应用。这种类型的页岩含有大量的有机物质，可以通过各种提取方法转化为烃。理解沥青性水质页岩对于开发可持续的能源解决方案至关重要，这些解决方案可以帮助满足世界日益增长的能源需求。首先，有必要定义沥青性水质页岩是什么。这个术语指的是一种富含沥青的沉积岩，沥青是一种粘稠的石油形式。沥青的存在赋予了这种页岩特有的沥青样特性，使其成为一个具有吸引力的烃源。与传统的石油储备不同，沥青性水质页岩需要先进的提取技术，如水力压裂或热回收，以有效释放被困的烃。沥青性水质页岩的重要性不仅体现在其地质特征上。它在全球能源消费的背景下发挥着至关重要的作用。随着传统化石燃料储备的枯竭，世界越来越多地转向非常规能源来源。沥青性水质页岩代表了这些来源之一，提供了大规模烃生产的潜力。拥有丰富这种页岩矿藏的国家，如美国和加拿大，正在大力投资于研究和开发，以优化提取过程并减少环境影响。除了经济影响外，研究沥青性水质页岩还提出了重要的环境考虑。提取和加工页岩中的烃可能导致显著的生态干扰，包括水污染和栖息地破坏。因此，必须实施严格的监管措施，以确保沥青性水质页岩的提取以负责任和可持续的方式进行。研究人员正在探索创新技术，以尽量减少环境足迹，同时最大化能源产出。此外，沥青性水质页岩的未来与技术进步密切相关。新型的页岩油提取和加工方法不断发展，使其经济上更具可行性。例如，增强油气回收技术，如蒸汽辅助重力排水，已显示出提高从沥青性水质页岩中获取烃的产量的前景。这些创新不仅提高了效率，还有助于减少与传统提取方法相关的温室气体排放。总之，沥青性水质页岩是寻找可持续能源解决方案的重要资源。其独特的性质和烃生产的潜力使其成为研究和投资的重点。然而，在提取过程中必须谨慎行事，平衡经济利益与环境保护。随着我们继续探索和开发这一资源，沥青性水质页岩的未来无疑将在塑造全球能源格局方面发挥重要作用。