completely deionized water

简明释义

完全去离子的水

英英释义

例句

1.For high-precision manufacturing, completely deionized water is essential to prevent mineral deposits on equipment.

对于高精度制造，使用完全去离子水是必不可少的，以防止设备上出现矿物沉积。

2.In the lab, we use completely deionized water for all our experiments to ensure no contaminants affect the results.

在实验室，我们使用完全去离子水进行所有实验，以确保没有污染物影响结果。

3.When preparing samples for analysis, it is crucial to use completely deionized water to avoid any ionic interference.

在准备分析样品时，使用完全去离子水以避免任何离子干扰是至关重要的。

4.The aquarium requires completely deionized water to maintain the health of its delicate fish species.

这个水族馆需要完全去离子水来维持其脆弱鱼类的健康。

5.Our drinking water system uses completely deionized water to ensure purity and taste.

我们的饮用水系统使用完全去离子水以确保纯净和口感。

作文

Water is often referred to as the universal solvent due to its ability to dissolve a wide variety of substances. However, not all water is created equal, especially when it comes to its purity and chemical composition. One specific type of water that is highly valued in various industrial and scientific applications is completely deionized water (CDI water). This term refers to water that has had all of its ions removed, resulting in a product that is free from dissolved salts and other impurities. The process of deionization involves passing water through ion exchange resins, which capture and remove cations and anions, effectively stripping the water of its ionic content.The significance of completely deionized water cannot be overstated. In laboratories, for instance, it is crucial for experiments that require a high degree of accuracy and control over chemical reactions. Any presence of ions can lead to unexpected results, skewing data and compromising the integrity of research. Therefore, using completely deionized water ensures that the environment is as controlled as possible, allowing scientists to achieve reliable and reproducible results.In addition to its use in laboratories, completely deionized water is also essential in industries such as pharmaceuticals, electronics, and food processing. In the pharmaceutical sector, for example, the purity of water is critical for the formulation of drugs. Contaminants can not only affect the efficacy of medications but can also pose serious health risks to patients. By utilizing completely deionized water, manufacturers can minimize these risks and ensure that their products meet stringent safety standards.Similarly, in the electronics industry, the production of semiconductors and circuit boards requires water that is free from impurities. Even the smallest amount of dissolved solids can damage sensitive components or interfere with manufacturing processes. Thus, completely deionized water plays a vital role in maintaining the quality and performance of electronic devices.Furthermore, completely deionized water is used in the automotive industry for cooling systems and battery maintenance. Using deionized water in automotive batteries helps to prevent mineral buildup and corrosion, extending the life of the battery and improving overall performance. It is also used in radiator systems to enhance heat transfer efficiency.Despite its many advantages, it is important to handle completely deionized water with care. Because it lacks ions, it is more aggressive in nature and can leach metals and other materials from containers and pipes. This characteristic means that it should be stored in appropriate materials, such as glass or specific types of plastics, to avoid contamination.In conclusion, completely deionized water is a critical resource across various fields due to its unmatched purity and versatility. Its ability to eliminate ions makes it indispensable in laboratory settings, pharmaceuticals, electronics, and automotive applications. As technology advances and the demand for high-purity water continues to grow, understanding the importance and proper handling of completely deionized water becomes increasingly essential for professionals in these industries. The future will likely see even more innovative uses for this remarkable substance, underscoring its role as a key player in modern science and technology.

水通常被称为通用溶剂，因为它能够溶解多种物质。然而，并不是所有的水都是一样的，特别是在其纯度和化学成分方面。有一种特定类型的水在各种工业和科学应用中非常重要，那就是完全去离子水（CDI水）。这个术语指的是已经去除所有离子的水，结果是没有溶解盐和其他杂质的产品。去离子化过程涉及将水通过离子交换树脂，这些树脂捕获并去除阳离子和阴离子，有效地剥离水中的离子含量。完全去离子水的重要性不容小觑。例如，在实验室中，它对于需要高度准确性和对化学反应进行控制的实验至关重要。任何离子的存在都可能导致意想不到的结果，扭曲数据并损害研究的完整性。因此，使用完全去离子水确保环境尽可能受控，使科学家能够获得可靠和可重复的结果。除了在实验室中的使用，完全去离子水在制药、电子和食品加工等行业也是必不可少的。例如，在制药行业，水的纯度对药物配方至关重要。污染物不仅会影响药物的疗效，还可能对患者造成严重健康风险。通过利用完全去离子水，制造商可以最小化这些风险，确保其产品符合严格的安全标准。同样，在电子行业，半导体和电路板的生产需要无杂质的水。即使是最小量的溶解固体也可能损坏敏感组件或干扰制造过程。因此，完全去离子水在维护电子设备的质量和性能方面发挥着至关重要的作用。此外，完全去离子水还用于汽车行业的冷却系统和电池维护。在汽车电池中使用去离子水有助于防止矿物质积聚和腐蚀，从而延长电池的使用寿命并改善整体性能。它也用于散热器系统，以提高热传导效率。尽管具有许多优点，但处理完全去离子水时需谨慎。由于缺乏离子，它的性质更具侵蚀性，可能从容器和管道中浸出金属和其他材料。这一特性意味着它应该储存在适当的材料中，例如玻璃或特定类型的塑料，以避免污染。总之，完全去离子水由于其无与伦比的纯度和多功能性，在各个领域都是一种关键资源。它消除离子的能力使其在实验室、制药、电子和汽车应用中不可或缺。随着技术的进步和对高纯度水的需求不断增长，理解完全去离子水的重要性和正确处理方法对于这些行业的专业人士变得越来越重要。未来，可能会看到这种非凡物质有更多创新的用途，强调其作为现代科学和技术关键角色的地位。