mixture control

简明释义

混合比控制

英英释义

例句

1.The software includes a mixture control feature for customizing ingredient proportions.

该软件包括一个混合控制功能，用于自定义成分比例。

2.The laboratory technician used mixture control to ensure accurate chemical reactions.

实验室技术人员使用混合控制来确保化学反应的准确性。

3.In cooking, proper mixture control can significantly affect the texture of the dish.

在烹饪中，适当的混合控制可以显著影响菜肴的质地。

4.The engineer adjusted the mixture control to optimize the fuel efficiency of the engine.

工程师调整了混合控制以优化发动机的燃油效率。

5.Adjusting the mixture control on the paint sprayer improved the finish quality.

调整喷漆机上的混合控制改善了涂层质量。

作文

In the world of engineering and technology, the concept of mixture control plays a crucial role in ensuring the efficiency and effectiveness of various processes. Mixture control refers to the regulation of the proportions of different components in a mixture, which can be applied in various fields such as chemical engineering, food production, and even automotive industries. Understanding how to effectively implement mixture control is essential for achieving optimal results and maintaining quality standards.One of the key areas where mixture control is vital is in chemical manufacturing. In this context, precise control over the composition of reactants can significantly impact the yield and purity of the final product. For instance, in the production of pharmaceuticals, even slight deviations in the ratios of ingredients can lead to ineffective or harmful products. Therefore, employing advanced technologies and methodologies for mixture control is imperative. Techniques such as real-time monitoring and feedback systems allow manufacturers to adjust the mixture dynamically, ensuring that the desired chemical reactions occur under optimal conditions.Another significant application of mixture control is in the food industry. The quality and taste of food products are heavily influenced by the proportions of ingredients used in their preparation. For example, in baking, the balance between flour, water, yeast, and other components is critical for achieving the desired texture and flavor of bread. Here, mixture control ensures that recipes are followed precisely, and any variations are accounted for to maintain consistency across batches. This is particularly important for large-scale food production, where even minor discrepancies can lead to significant losses and customer dissatisfaction.Moreover, the automotive industry also benefits from mixture control, especially in the context of fuel combustion. The air-fuel mixture in an engine must be carefully controlled to achieve maximum efficiency and reduce emissions. Modern vehicles employ sophisticated sensors and control systems to monitor the mixture in real-time, adjusting it based on various factors such as engine temperature and load. This not only enhances performance but also contributes to environmental sustainability by minimizing harmful emissions.The importance of mixture control extends beyond industrial applications; it is also relevant in research and development. Scientists often need to create specific mixtures for experiments, and precise control over the components is necessary to ensure valid results. Whether it’s in the field of materials science, biology, or physics, mixture control is fundamental to the reproducibility and reliability of experimental outcomes.In conclusion, mixture control is a multifaceted concept that is integral to a wide range of industries and applications. From chemical manufacturing to food production and automotive engineering, the ability to regulate the proportions of components in a mixture is essential for achieving desired results and maintaining quality. As technology continues to advance, the methods and tools available for mixture control will likely become even more sophisticated, enabling greater precision and efficiency in various processes. Understanding and mastering mixture control is therefore a valuable skill for professionals across many fields, highlighting its importance in today’s technologically driven world.

在工程和技术的世界中，混合控制的概念在确保各种过程的效率和有效性方面发挥着至关重要的作用。混合控制是指对混合物中不同组分比例的调节，这可以应用于化学工程、食品生产甚至汽车工业等多个领域。有效实施混合控制对于实现最佳结果和维持质量标准至关重要。混合控制在化学制造中的一个关键领域是至关重要的。在这种情况下，对反应物成分的组成进行精确控制可以显著影响最终产品的产量和纯度。例如，在制药生产中，即使成分比例的轻微偏差也可能导致无效或有害的产品。因此，采用先进的技术和方法进行混合控制是必要的。实时监控和反馈系统等技术允许制造商动态调整混合物，确保所需的化学反应在最佳条件下发生。混合控制的另一个重要应用是在食品工业中。食品产品的质量和口味受到所用成分比例的严重影响。例如，在烘焙中，面粉、水、酵母和其他成分之间的平衡对于实现面包的所需质地和风味至关重要。在这里，混合控制确保严格遵循配方，并考虑到任何变化，以保持批次之间的一致性。这对于大规模食品生产尤为重要，因为即使是微小的差异也可能导致重大损失和客户不满。此外，汽车工业也受益于混合控制，特别是在燃料燃烧的背景下。发动机中的空气-燃料混合物必须经过仔细控制，以实现最大效率并减少排放。现代车辆采用复杂的传感器和控制系统实时监测混合物，根据发动机温度和负载等各种因素进行调整。这不仅提高了性能，还通过最小化有害排放促进了环境可持续性。混合控制的重要性超越了工业应用；它在研发中也具有相关性。科学家们通常需要为实验创建特定的混合物，而对组分进行精确控制对于确保有效结果是必要的。无论是在材料科学、生物学还是物理学领域，混合控制都是实验结果可重复性和可靠性的基础。总之，混合控制是一个多方面的概念，对于广泛的行业和应用至关重要。从化学制造到食品生产和汽车工程，调节混合物中组分比例的能力对于实现期望的结果和维持质量至关重要。随着技术的不断进步，可用于混合控制的方法和工具可能会变得更加复杂，从而在各种过程中实现更高的精度和效率。因此，理解和掌握混合控制对于各个领域的专业人士来说是一项宝贵的技能，突显了其在当今技术驱动的世界中的重要性。