multiphase
简明释义
adj. 多相的;多方面的(等于 polyphase)
英英释义
Involving or consisting of multiple distinct phases or stages, often used in contexts such as chemistry, engineering, or process systems. | 涉及或由多个不同阶段或层次组成的,通常用于化学、工程或过程系统等领域。 |
单词用法
多相流;多相流动 |
同义词
| 多阶段的 | 多阶段的过程通常用于化学工程中。 | ||
| 多组分的 | 多组分系统需要仔细分析。 | ||
| 多方面的 | Her multifaceted approach to problem-solving proved effective. | 她多方面的问题解决方法被证明是有效的。 |
反义词
| 单相 | A single-phase motor is typically used in household appliances. | 单相电动机通常用于家用电器。 | |
| 单相 | Monophase systems are simpler and easier to manage than multiphase systems. | 单相系统比多相系统更简单,更易于管理。 |
例句
1.The multiphase flow model and algorithm was setup. The velocity fields and distribution of fuel concentration are given.
建立了多相流模型与算法,给出了云雾区的速度场与燃料浓度分布。
2.The features of rock finite strain in the superimposed fold area under buckling are comprehensive results of multiphase deformation.
纵弯叠加褶皱地区岩石有限应变特征是所受历次变形的综合结果。
3.We can better design and administer the multiphase flow pipeline when we realize theoretically the discipline of the multiphase flow.
从理论上认识多相流动的规律,才能更好地设计、管理多相混输管线。
4.It provides complete, authoritative coverage of the concepts, experimental techniques, and numerical modeling of multiphase flows.
它提供概念的完整,威权的新闻报导,多相的实验技术和数字模型流动。
5.Multiphase reactive chromatography is a chromatographic process with multi-mobile phases and chemical reactions.
多相反应色谱,即多个流动相且伴随化学反应的色谱过程。
6.This allows a you to achieve a multiphase transformation by applying several style sheets in sequence.
这允许按顺序应用几个样式表来完成多阶段转换。
7.The chemical reaction was designed to occur in a multiphase 多相 system to enhance the efficiency of product formation.
该化学反应被设计为在一个多相系统中进行,以提高产品形成的效率。
8.In oil extraction, a multiphase 多相 flow model helps predict the behavior of oil, gas, and water mixtures.
在石油开采中,多相流动模型有助于预测石油、天然气和水混合物的行为。
9.The multiphase 多相 nature of the fluid flow complicates the design of pipelines.
流体流动的多相特性使管道设计变得复杂。
10.The multiphase 多相 approach in manufacturing allows for simultaneous processing of different materials.
制造中的多相方法允许同时处理不同材料。
11.Researchers are studying multiphase 多相 systems to improve the efficiency of renewable energy sources.
研究人员正在研究多相系统,以提高可再生能源的效率。
作文
In recent years, the concept of multiphase systems has gained significant attention in various fields, including engineering, physics, and environmental science. A multiphase system refers to a situation where multiple distinct phases coexist, such as solid, liquid, and gas. Understanding these systems is essential for developing new technologies and improving existing processes.For instance, in chemical engineering, multiphase flow occurs when different phases, like oil and water, move together through pipelines. This phenomenon can significantly affect the efficiency of transportation and processing systems. Engineers must consider the interactions between these phases to optimize flow rates and reduce energy consumption. By studying multiphase dynamics, they can design better separators and reactors that enhance the overall performance of chemical plants.Moreover, in the field of environmental science, multiphase systems are crucial for understanding pollutant behavior in natural waters. Contaminants often exist in different phases, such as dissolved in water, adsorbed onto sediments, or suspended as particles. Researchers analyze these multiphase interactions to develop effective remediation strategies for polluted sites. For example, knowing how pollutants partition between water and sediment helps in predicting their transport and potential risks to aquatic life.The study of multiphase systems also extends to materials science, where scientists explore how different materials interact at the microscopic level. Composite materials, which are made from two or more constituent materials, exhibit multiphase characteristics. These materials can have enhanced properties, such as increased strength or reduced weight, compared to their individual components. Understanding the multiphase nature of these materials allows researchers to tailor their properties for specific applications, such as aerospace or automotive industries.Additionally, in the realm of food science, multiphase systems play a vital role in understanding texture and flavor. Many food products contain a combination of solids, liquids, and gases, which influence their sensory attributes. For instance, emulsions, foams, and gels are all examples of multiphase food systems. Food scientists study these systems to improve product quality and shelf life, ensuring that consumers enjoy the best possible experience.In conclusion, the concept of multiphase systems is integral to various scientific and engineering disciplines. From optimizing industrial processes to developing innovative materials and improving food quality, understanding multiphase interactions is essential for progress. As research continues to advance, we can expect to see even more applications of multiphase systems that will benefit society and the environment. The exploration of multiphase phenomena not only enhances our knowledge but also drives technological advancements that can lead to a more sustainable future.
近年来,多相系统的概念在工程、物理和环境科学等多个领域引起了广泛关注。多相系统是指多个不同相态共存的情况,例如固体、液体和气体。理解这些系统对于开发新技术和改善现有工艺至关重要。例如,在化学工程中,多相流动发生在不同相态(如油和水)一起通过管道流动时。这种现象会显著影响运输和处理系统的效率。工程师必须考虑这些相态之间的相互作用,以优化流速并减少能耗。通过研究多相动态,他们可以设计出更好的分离器和反应器,从而提高化工厂的整体性能。此外,在环境科学领域,多相系统对于理解污染物在自然水体中的行为至关重要。污染物通常以不同的相态存在,如溶解在水中、吸附在沉积物上或作为颗粒悬浮。研究人员分析这些多相相互作用,以制定有效的污染场地修复策略。例如,了解污染物在水和沉积物之间的分配,有助于预测其运输和对水生生物的潜在风险。多相系统的研究还扩展到材料科学,科学家们探索不同材料在微观层面上的相互作用。复合材料由两种或更多成分材料制成,表现出多相特性。这些材料可以比其单独成分具有更强的性能,例如增强强度或减轻重量。理解这些材料的多相特性使研究人员能够为特定应用量身定制其性能,例如航空航天或汽车工业。此外,在食品科学领域,多相系统在理解食物的质地和风味方面发挥着重要作用。许多食品产品包含固体、液体和气体的组合,这影响其感官属性。例如,乳液、泡沫和凝胶都是多相食品系统的例子。食品科学家研究这些系统,以改善产品质量和保质期,确保消费者享受最佳的体验。总之,多相系统的概念是多个科学和工程学科的核心。从优化工业流程到开发创新材料和改善食品质量,理解多相相互作用对于进步至关重要。随着研究的不断深入,我们可以期待看到更多多相系统的应用,这将惠及社会和环境。对多相现象的探索不仅提升了我们的知识,还推动了技术进步,可能导致一个更可持续的未来。
