asphaltic pyrobitumen

简明释义

1. 焦性地沥青; 2. 焦沥青岩;

英英释义

例句

1.In the laboratory, researchers tested the properties of asphaltic pyrobitumen to evaluate its performance in extreme temperatures.

在实验室中，研究人员测试了沥青性热解沥青的性能，以评估其在极端温度下的表现。

2.The oil refinery processes crude oil to produce asphaltic pyrobitumen as a byproduct.

炼油厂将原油加工成沥青性热解沥青作为副产品。

3.The construction company decided to use asphaltic pyrobitumen for the road paving project due to its durability.

由于其耐用性，建筑公司决定在道路铺设项目中使用沥青性热解沥青。

4.During the seminar, experts discussed the environmental benefits of using asphaltic pyrobitumen in road construction.

在研讨会上，专家们讨论了在道路建设中使用沥青性热解沥青的环境益处。

5.The asphaltic pyrobitumen used in roofing materials provides excellent waterproofing capabilities.

用于屋顶材料的沥青性热解沥青提供了出色的防水能力。

作文

In the field of geology and petroleum engineering, the term asphaltic pyrobitumen refers to a specific type of organic material that is derived from the thermal alteration of bitumen. This process occurs under high temperature and pressure conditions, which transform the original bitumen into a more complex and dense substance. Understanding asphaltic pyrobitumen is crucial for geologists and engineers, as it plays a significant role in the formation of oil reserves and the overall dynamics of hydrocarbon systems. To grasp the significance of asphaltic pyrobitumen, one must first understand what bitumen is. Bitumen is a viscous mixture of hydrocarbons that can be found in natural deposits or produced through the refining of crude oil. It is commonly used in road construction and roofing due to its waterproofing properties. However, when subjected to extreme geological conditions over millions of years, bitumen undergoes a transformation into asphaltic pyrobitumen. This transformation is characterized by a loss of lighter hydrocarbons and an increase in density and viscosity. The study of asphaltic pyrobitumen is essential for several reasons. Firstly, it provides insights into the thermal history of sedimentary basins. By analyzing the characteristics of asphaltic pyrobitumen, geologists can infer the temperature and pressure conditions that existed during its formation. This information is valuable for understanding the maturation process of source rocks and the migration pathways of hydrocarbons. Secondly, asphaltic pyrobitumen can influence the economic viability of oil extraction projects. Its presence in reservoirs can indicate that the area has been subjected to sufficient thermal maturity to generate oil. However, the high viscosity of asphaltic pyrobitumen can also pose challenges for extraction, as it requires specialized techniques to mobilize and recover the hydrocarbons. Moreover, the environmental implications of asphaltic pyrobitumen cannot be overlooked. As the world moves towards more sustainable energy sources, understanding the properties and behaviors of this material can aid in developing cleaner extraction methods and minimizing ecological impacts. For instance, research into the biodegradation of asphaltic pyrobitumen may lead to advancements in remediation technologies for oil spills or contaminated sites. In conclusion, asphaltic pyrobitumen is a vital component in the study of hydrocarbons, providing essential information about geological processes and economic prospects in the oil industry. Its unique characteristics and formation processes make it a subject of interest for researchers and professionals alike. By deepening our understanding of asphaltic pyrobitumen, we can better navigate the complexities of energy production and environmental stewardship in the modern world.

在地质学和石油工程领域，术语沥青性热解沥青指的是一种特定类型的有机材料，它是由沥青的热转化而来的。这一过程发生在高温和高压条件下，将原始沥青转变为更复杂和更密集的物质。理解沥青性热解沥青对于地质学家和工程师至关重要，因为它在油气储层的形成及整个烃系统的动态中发挥着重要作用。要抓住沥青性热解沥青的重要性，首先必须了解沥青是什么。沥青是一种粘稠的碳氢化合物混合物，可以在自然沉积物中发现或通过原油精炼生产。由于其防水特性，它通常用于道路建设和屋顶。然而，当沥青在数百万年的极端地质条件下受到影响时，它会转变为沥青性热解沥青。这一转变的特点是轻质烃的损失以及密度和粘度的增加。研究沥青性热解沥青具有多个重要原因。首先，它提供了对沉积盆地热历史的洞察。通过分析沥青性热解沥青的特征，地质学家可以推断出其形成过程中存在的温度和压力条件。这些信息对于理解源岩的成熟过程和烃的迁移路径非常有价值。其次，沥青性热解沥青的存在可能影响油气开采项目的经济可行性。它在油藏中的存在可能表明该区域经历了足够的热成熟度以生成油。然而，沥青性热解沥青的高粘度也可能对开采造成挑战，因为它需要专业技术来动员和回收烃。此外，沥青性热解沥青的环境影响也不容忽视。随着世界向更可持续的能源来源转型，了解这种材料的特性和行为可以帮助开发更清洁的开采方法，并最小化生态影响。例如，对沥青性热解沥青的生物降解研究可能导致油污或污染场地修复技术的进步。总之，沥青性热解沥青是烃研究中的一个重要组成部分，为油气工业的地质过程和经济前景提供了基本信息。其独特的特性和形成过程使其成为研究人员和专业人士感兴趣的对象。通过加深对沥青性热解沥青的理解，我们可以更好地应对现代世界能源生产和环境保护的复杂性。