batch purification

简明释义

分批净化

英英释义

例句

1.Our team is researching more efficient methods for batch purification of proteins.

我们的团队正在研究更有效的蛋白质批量纯化方法。

2.During the production process, batch purification is essential to remove impurities from the chemicals.

在生产过程中，批量纯化对于去除化学品中的杂质至关重要。

3.The batch purification process can be optimized to reduce waste and increase sustainability.

批量纯化过程可以优化，以减少废物并提高可持续性。

4.The laboratory implemented a new protocol for batch purification, which significantly improved the yield of the final product.

实验室实施了一种新的批量纯化协议，显著提高了最终产品的产量。

5.After batch purification, the final product met all quality standards required by the industry.

经过批量纯化后，最终产品符合行业要求的所有质量标准。

作文

In the field of chemistry and biotechnology, the term batch purification refers to a process that is commonly used to separate and purify products from a mixture. This method is particularly important in the production of pharmaceuticals, where the purity of a compound can significantly affect its efficacy and safety. The batch purification process involves treating a specific quantity of material at one time, as opposed to continuous processing. This approach allows for greater control over the purification parameters and is often more cost-effective for smaller production runs.The first step in batch purification typically involves the extraction of the desired compound from the raw material. This can be achieved through various techniques such as solvent extraction, distillation, or filtration. Once the compound is extracted, it is subjected to further purification processes to remove impurities. These processes may include crystallization, chromatography, or membrane filtration.One of the key advantages of batch purification is its flexibility. Since each batch can be treated independently, adjustments can be made based on the specific characteristics of the material being processed. For instance, if a particular batch has a higher level of impurities, the purification conditions can be modified to ensure a higher yield of the pure product. This adaptability makes batch purification an attractive option for laboratories and small-scale manufacturers who need to produce high-quality compounds without the investment required for continuous processing systems.Furthermore, batch purification is often easier to scale up or down depending on demand. In situations where the market for a product fluctuates, companies can adjust their production volume without significant changes to their processing equipment. This scalability is crucial in industries like pharmaceuticals, where the demand for specific drugs can vary widely.However, there are also challenges associated with batch purification. One of the main drawbacks is that it can be time-consuming. Each batch must go through all the necessary steps before moving on to the next, which can lead to delays in production. Additionally, the efficiency of batch purification can sometimes be lower than that of continuous processes, especially when dealing with large volumes of material.In conclusion, batch purification plays a vital role in the production of high-purity compounds in various industries. Its flexibility, scalability, and ability to provide precise control over purification processes make it a valuable method, particularly for smaller-scale operations. Despite its challenges, the importance of batch purification cannot be overstated, as it ensures that the products we use are safe and effective. As technology continues to evolve, we can expect to see advancements in batch purification techniques that will enhance efficiency and reduce costs, further solidifying its place in modern manufacturing processes.

在化学和生物技术领域，短语batch purification指的是一种常用于从混合物中分离和纯化产品的过程。这种方法在制药生产中尤为重要，因为化合物的纯度可以显著影响其功效和安全性。batch purification过程涉及对特定数量的材料进行一次性处理，而不是连续处理。这种方法允许更好地控制纯化参数，并且对于较小的生产批次来说通常更具成本效益。batch purification的第一步通常涉及从原材料中提取所需的化合物。这可以通过各种技术实现，例如溶剂提取、蒸馏或过滤。一旦提取了化合物，就会对其进行进一步的纯化过程，以去除杂质。这些过程可能包括结晶、色谱法或膜过滤。batch purification的一个主要优点是其灵活性。由于每个批次可以独立处理，因此可以根据被处理材料的特定特征进行调整。例如，如果某一批次的杂质水平较高，则可以修改纯化条件以确保获得更高纯度的产品。这种适应性使得batch purification成为实验室和小规模制造商的一个有吸引力的选择，他们需要在不需要投入连续处理系统的情况下生产高质量的化合物。此外，batch purification通常更容易根据需求进行上下规模调整。在产品市场波动的情况下，公司可以在不对其处理设备进行重大更改的情况下调整生产量。这种可扩展性在制药等行业中至关重要，因为特定药物的需求可能会大幅波动。然而，batch purification也存在一些挑战。其主要缺点之一是可能会耗时。每个批次必须经过所有必要步骤才能进入下一个，这可能导致生产延迟。此外，特别是在处理大量材料时，batch purification的效率有时可能低于连续工艺。总之，batch purification在各行业高纯度化合物的生产中发挥着至关重要的作用。其灵活性、可扩展性以及提供精确控制纯化过程的能力，使其成为一种有价值的方法，特别适用于小规模操作。尽管面临挑战，但batch purification的重要性不容忽视，因为它确保我们使用的产品是安全有效的。随着技术的不断发展，我们可以期待看到batch purification技术的进步，这将提高效率并降低成本，进一步巩固其在现代制造过程中的地位。