Engler degree

简明释义

恩氏度

英英释义

例句

1.A higher Engler degree (恩格勒度) means that the liquid is less viscous.

更高的Engler degree（恩格勒度）意味着液体的粘度较低。

2.To comply with industry standards, the paint's Engler degree (恩格勒度) must be tested regularly.

为了符合行业标准，油漆的Engler degree（恩格勒度）必须定期测试。

3.The viscosity of the oil was measured in Engler degree (恩格勒度) to determine its flow characteristics.

油的粘度以Engler degree（恩格勒度）进行测量，以确定其流动特性。

4.The Engler degree (恩格勒度) indicates how easily a liquid can flow at a specific temperature.

在特定温度下，Engler degree（恩格勒度）指示液体流动的容易程度。

5.In our laboratory, we often use Engler degree (恩格勒度) to assess the quality of different fuels.

在我们的实验室中，我们经常使用Engler degree（恩格勒度）来评估不同燃料的质量。

作文

The concept of the Engler degree is crucial in understanding the viscosity of various fluids. Developed by the German chemist Hermann Engler, this measurement provides a way to quantify how resistant a fluid is to flow. The Engler degree is particularly useful in industries such as oil and gas, where knowing the viscosity of crude oil can impact extraction and refining processes. When we talk about the Engler degree, we are referring to a specific scale that measures the time it takes for a fluid to flow through a standard orifice under gravity. This measurement is essential for engineers and scientists who need to design systems that handle liquids effectively.In practical applications, the Engler degree helps in comparing the viscosities of different fluids. For example, a fluid with a high Engler degree indicates a thicker, more viscous liquid, while a low Engler degree signifies a thinner, less viscous fluid. This information is vital when selecting materials for pipelines, pumps, and other equipment that will be used to transport these fluids. Understanding the Engler degree allows engineers to predict how a fluid will behave under various conditions, which is essential for ensuring safety and efficiency in operations.Moreover, the Engler degree plays a significant role in quality control within manufacturing processes. For instance, in the production of paints and coatings, maintaining a consistent viscosity ensures that the final product meets performance standards. By measuring the Engler degree during production, manufacturers can adjust formulations to achieve the desired thickness, ensuring that the product adheres well and provides the intended finish.In addition to industrial applications, the Engler degree has implications in scientific research. Researchers studying fluid dynamics often rely on this measurement to understand how different fluids interact with surfaces and each other. The Engler degree can influence how fluids spread, mix, or react chemically, which is critical in fields such as chemistry, biology, and environmental science.Overall, the Engler degree serves as a fundamental parameter in both theoretical and practical contexts. It bridges the gap between laboratory research and real-world applications, allowing for better design and optimization of systems involving fluid movement. As industries continue to evolve and new materials are developed, the importance of accurately measuring viscosity through the Engler degree will only increase. Whether in petrochemicals, food processing, or pharmaceuticals, understanding the Engler degree will remain an essential skill for professionals in various fields.In conclusion, the Engler degree is more than just a number; it represents a critical aspect of fluid mechanics and material science. Its relevance spans across multiple disciplines, highlighting the interconnectedness of scientific principles and industrial practices. By mastering the Engler degree, individuals can contribute to advancements in technology and improve processes that rely on fluid dynamics. Hence, the study and application of the Engler degree are indispensable for anyone involved in the engineering and scientific communities.

“Engler度”这一概念对于理解各种流体的粘度至关重要。由德国化学家赫尔曼·恩格勒提出，这一测量提供了一种量化流体流动阻力的方法。“Engler度”在石油和天然气等行业尤其有用，因为了解原油的粘度会影响提取和精炼过程。当我们谈论“Engler度”时，我们指的是一种特定的尺度，测量流体在重力作用下通过标准孔口的时间。这项测量对于需要设计有效处理液体的系统的工程师和科学家来说至关重要。在实际应用中，“Engler度”有助于比较不同流体的粘度。例如，具有高“Engler度”的流体表明其较厚、粘稠，而低“Engler度”则表示其较薄、粘度较低。这些信息在选择用于运输这些流体的管道、泵和其他设备的材料时至关重要。了解“Engler度”使工程师能够预测流体在不同条件下的行为，这对于确保操作的安全性和效率至关重要。此外，“Engler度”在制造过程中的质量控制中也发挥着重要作用。例如，在涂料和涂层的生产中，保持一致的粘度确保最终产品符合性能标准。通过在生产过程中测量“Engler度”，制造商可以调整配方以达到所需的厚度，从而确保产品良好附着并提供预期的效果。除了工业应用外，“Engler度”在科学研究中也具有重要意义。研究流体动力学的研究人员通常依赖这一测量来理解不同流体如何与表面及彼此相互作用。“Engler度”可能会影响流体的扩散、混合或化学反应，这在化学、生物学和环境科学等领域至关重要。总体而言，“Engler度”作为一个基本参数在理论和实践的背景下都发挥着作用。它弥合了实验室研究与现实世界应用之间的差距，使得涉及流体运动的系统的设计和优化变得更加有效。随着各行业的不断发展和新材料的开发，准确测量粘度通过“Engler度”的重要性只会增加。无论是在石油化工、食品加工还是制药行业，理解“Engler度”将始终是各个领域专业人士的重要技能。总之，“Engler度”不仅仅是一个数字；它代表了流体力学和材料科学的一个关键方面。它的相关性跨越多个学科，突显了科学原理与工业实践之间的相互联系。通过掌握“Engler度”，个人可以为技术进步做出贡献，并改善依赖流体动力学的过程。因此，研究和应用“Engler度”对任何参与工程和科学社区的人来说都是不可或缺的。