agitated crystallizer

简明释义

搅拌结晶器

英英释义

例句

1.The production of high-purity chemicals often requires the use of an agitated crystallizer (搅拌结晶器) to ensure uniform particle size.

高纯度化学品的生产通常需要使用agitated crystallizer (搅拌结晶器) 以确保颗粒大小均匀。

2.To improve yield, engineers optimized the design of the agitated crystallizer (搅拌结晶器) for better mixing.

为了提高产量，工程师优化了agitated crystallizer (搅拌结晶器) 的设计，以获得更好的混合效果。

3.The agitated crystallizer (搅拌结晶器) helps control the temperature and concentration during the crystallization process.

在结晶过程中，agitated crystallizer (搅拌结晶器) 有助于控制温度和浓度。

4.In pharmaceutical manufacturing, an agitated crystallizer (搅拌结晶器) is crucial for producing active pharmaceutical ingredients.

在制药制造中，agitated crystallizer (搅拌结晶器) 对于生产活性药物成分至关重要。

5.The agitated crystallizer (搅拌结晶器) was operated under controlled conditions to produce consistent results.

在受控条件下操作的agitated crystallizer (搅拌结晶器) 产生了一致的结果。

作文

In the world of chemical engineering, various processes are employed to convert raw materials into useful products. One such process is crystallization, which is essential in the production of many substances, including pharmaceuticals, chemicals, and food products. A key component of this process is the agitated crystallizer, a device designed to enhance the efficiency of crystallization by promoting better mixing and mass transfer. Understanding how an agitated crystallizer works can provide valuable insights into its applications and benefits.The basic principle behind crystallization is the formation of solid crystals from a solution. This process can occur naturally or can be induced artificially in a controlled environment. The agitated crystallizer plays a crucial role in the latter scenario. By continuously stirring the solution, it ensures that the solute remains evenly distributed throughout the liquid phase. This agitation helps to create supersaturation, a condition necessary for crystal growth. Without proper agitation, crystals may form unevenly, leading to variations in size and purity.There are several types of agitated crystallizers, each designed for specific applications. For instance, batch crystallizers are used for small-scale production, while continuous crystallizers are better suited for large-scale operations. Regardless of the type, the fundamental goal remains the same: to produce high-quality crystals efficiently.One of the significant advantages of using an agitated crystallizer is the ability to control the crystallization process closely. Factors such as temperature, concentration, and agitation speed can be adjusted to optimize crystal formation. This level of control is particularly important in industries like pharmaceuticals, where the purity and size of crystals can significantly impact the effectiveness of a drug.Moreover, the design of an agitated crystallizer often includes features that facilitate easy removal of crystals once they have formed. This can involve using filters or screens to separate the solid product from the liquid phase. Efficient separation is vital for maintaining productivity and ensuring that the final product meets quality standards.Another critical aspect of agitated crystallizers is their energy efficiency. Modern designs incorporate advanced technologies that minimize energy consumption while maximizing output. This not only reduces operational costs but also aligns with sustainability goals that many industries are striving to achieve.In conclusion, the agitated crystallizer is a vital tool in the field of chemical engineering, providing a means to produce high-quality crystals efficiently. Its ability to enhance mixing, control the crystallization process, and improve energy efficiency makes it indispensable in various industries. As technology continues to advance, we can expect further innovations in the design and operation of agitated crystallizers, ultimately leading to even greater efficiencies and improved product quality.

在化学工程的世界中，使用各种工艺将原材料转化为有用的产品。其中一个重要的过程是结晶，这在许多物质的生产中至关重要，包括药品、化学品和食品产品。这个过程中的一个关键组件是搅拌结晶器，它旨在通过促进更好的混合和物质传递来提高结晶的效率。了解搅拌结晶器的工作原理可以为我们提供有关其应用和好处的宝贵见解。结晶的基本原理是从溶液中形成固体晶体。这个过程可以自然发生，也可以在受控环境中人工诱导。搅拌结晶器在后者的场景中发挥着至关重要的作用。通过持续搅拌溶液，它确保溶质在液相中均匀分布。这种搅拌有助于创造过饱和状态，这是晶体生长所必需的。如果没有适当的搅拌，晶体可能会不均匀地形成，导致大小和纯度的变化。有几种类型的搅拌结晶器，每种类型都设计用于特定的应用。例如，批量结晶器用于小规模生产，而连续结晶器更适合大规模操作。无论类型如何，基本目标保持不变：高效地生产高质量的晶体。使用搅拌结晶器的一个显著优势是能够紧密控制结晶过程。温度、浓度和搅拌速度等因素可以调整，以优化晶体形成。这种控制水平在制药等行业中特别重要，因为晶体的纯度和大小会显著影响药物的有效性。此外，搅拌结晶器的设计通常包括便于在晶体形成后轻松去除晶体的特征。这可能涉及使用过滤器或筛网将固体产品与液相分离。高效的分离对于维持生产力和确保最终产品符合质量标准至关重要。搅拌结晶器的另一个关键方面是其能效。现代设计采用先进技术，最大限度地减少能源消耗，同时最大化产出。这不仅降低了运营成本，还符合许多行业正在努力实现的可持续发展目标。总之，搅拌结晶器是化学工程领域的重要工具，提供了一种高效生产高质量晶体的方法。它增强混合、控制结晶过程和提高能效的能力使其在各个行业中不可或缺。随着技术的不断进步，我们可以期待在搅拌结晶器的设计和操作中进一步创新，最终实现更大的效率和改善的产品质量。