butane-butene fraction

简明释义

丁烷—丁烯馏分;

英英释义

例句

1.The refinery produced a high yield of the butane-butene fraction, which is essential for petrochemical processes.

炼油厂生产了大量的丁烷-丁烯馏分，这对石油化工过程至关重要。

2.The environmental impact of the butane-butene fraction during combustion is being studied.

在燃烧过程中，丁烷-丁烯馏分的环境影响正在研究中。

3.The butane-butene fraction can be used as a feedstock for producing various chemicals.

丁烷-丁烯馏分可以作为生产各种化学品的原料。

4.Our team is analyzing the properties of the butane-butene fraction to improve its marketability.

我们的团队正在分析丁烷-丁烯馏分的性质，以提高其市场竞争力。

5.During the separation process, we focused on optimizing the recovery of the butane-butene fraction.

在分离过程中，我们专注于优化丁烷-丁烯馏分的回收。

作文

The study of hydrocarbons is essential in understanding the various components that make up our world. Among these components, the butane-butene fraction is particularly significant in the field of petrochemicals. The butane-butene fraction refers to a mixture of butane and butene, two important aliphatic hydrocarbons that are derived from natural gas processing and crude oil refining. Butane, a four-carbon alkane, is often used as a fuel source for lighters and portable stoves, while butene, which has a similar structure but includes a double bond, plays a crucial role in the production of plastics and synthetic rubber.Understanding the properties and applications of the butane-butene fraction can provide insights into its importance in various industries. For instance, in the petrochemical industry, the butane-butene fraction is separated during the refining process and can be further processed to create valuable products. One of the key uses of butene is in the production of polyethylene, a widely used plastic that can be found in countless everyday items, from bags to bottles. This highlights how the butane-butene fraction contributes not only to energy production but also to the manufacturing of essential materials that support modern life.Moreover, the butane-butene fraction is also significant in the context of environmental sustainability. As the world moves towards cleaner energy solutions, the efficient use and conversion of hydrocarbons like butane and butene become increasingly important. Advances in technology allow for the transformation of the butane-butene fraction into alternative fuels, which can help reduce greenhouse gas emissions. For example, by converting butane into butene through dehydrogenation, we can create a feedstock for producing more environmentally friendly fuels, thus supporting global efforts to combat climate change.In addition, the butane-butene fraction is a subject of research in chemical engineering and industrial processes. Scientists and engineers are continuously exploring ways to optimize the separation and purification of these hydrocarbons to enhance yield and efficiency. By improving the methods used to extract and utilize the butane-butene fraction, industries can reduce waste and increase the overall sustainability of their operations.Furthermore, the economic implications of the butane-butene fraction should not be overlooked. As demand for energy and materials continues to rise, the ability to efficiently produce and utilize butane and butene can significantly impact market prices and availability. Countries rich in natural gas reserves can leverage the butane-butene fraction to boost their economies, creating jobs and driving innovation in related sectors.In conclusion, the butane-butene fraction serves as a vital component in both energy production and material manufacturing. Its significance extends beyond just being a mixture of hydrocarbons; it represents opportunities for technological advancements, environmental sustainability, and economic growth. By continuing to study and innovate around the butane-butene fraction, we can unlock new potentials that benefit society as a whole. Understanding this fraction not only enhances our knowledge of chemistry but also underscores the interconnectedness of energy, environment, and economy in our modern world.

烃的研究对于理解构成我们世界的各种成分至关重要。在这些成分中，丁烷-丁烯馏分在石油化工领域尤其重要。丁烷-丁烯馏分是指丁烷和丁烯的混合物，这两种重要的脂肪烃源自天然气加工和原油精炼。丁烷是一种四碳烷烃，常用作打火机和便携式炉具的燃料，而丁烯则具有类似的结构，但包含一个双键，在塑料和合成橡胶的生产中发挥着至关重要的作用。理解丁烷-丁烯馏分的性质和应用可以为其在各个行业的重要性提供见解。例如，在石油化工行业，丁烷-丁烯馏分在精炼过程中被分离，并可进一步加工以创造有价值的产品。丁烯的一个主要用途是在聚乙烯的生产中，这是一种广泛使用的塑料，可以在无数日常物品中找到，从袋子到瓶子。这突显了丁烷-丁烯馏分不仅对能源生产有贡献，而且对支持现代生活的基本材料的制造也至关重要。此外，丁烷-丁烯馏分在环境可持续性方面也非常重要。随着世界向更清洁的能源解决方案迈进，有效利用和转化像丁烷和丁烯这样的烃变得越来越重要。技术的进步使得将丁烷-丁烯馏分转化为替代燃料成为可能，这有助于减少温室气体排放。例如，通过脱氢将丁烷转化为丁烯，我们可以创造出生产更环保燃料的原料，从而支持全球应对气候变化的努力。此外，丁烷-丁烯馏分也是化学工程和工业过程研究的主题。科学家和工程师不断探索优化这些烃的分离和纯化的方法，以提高产量和效率。通过改善提取和利用丁烷-丁烯馏分的方法，行业可以减少浪费，提高其运营的整体可持续性。此外，丁烷-丁烯馏分的经济影响也不容忽视。随着对能源和材料的需求不断上升，高效生产和利用丁烷和丁烯的能力可以显著影响市场价格和供应。富含天然气储备的国家可以利用丁烷-丁烯馏分来推动其经济发展，创造就业机会并推动相关领域的创新。总之，丁烷-丁烯馏分作为能源生产和材料制造中的重要组成部分，其重要性超越了仅仅是烃的混合物；它代表了技术进步、环境可持续性和经济增长的机会。通过不断研究和创新丁烷-丁烯馏分，我们可以释放出对整个社会有益的新潜力。理解这一馏分不仅增强了我们对化学的认识，还强调了能源、环境和经济在我们现代世界中的相互联系。