granulating

简明释义

英[ˈɡrænjʊleɪtɪŋ]美[ˈɡrænjuleɪtɪŋ]

v. 使粒化，形成颗粒；（伤口等在愈合过程中）形成肉芽（granulate 的现在分词）

英英释义

单词用法

同义词

反义词

例句

1.Multi-function such as granulating, pelletizing, coating in one machine.

※集制粒、制丸、包衣多种功能于一体。

2.Chinese medicine spray drying, granulating and coating.

中药喷雾制粒及包衣。

3.Recycle and reproduce the grinding and granulating of degrading plastic films and Angle materials.

对降解塑料薄膜与角料粉碎、造粒的回收再生产。

4.This article introduced two kinds of granulating technologies abroad, namely rolling method and spray method.

本文介绍了国外滚动式和喷雾式两种造粒工艺。

5.Particularly it is suitable for granulating, pelleting and coating of various varieties in pharmaceutical industry, foodstuff industry and chemical industry, etc.

特别适用于医药、食品、化工等行业多品种、多剂型制粒、制丸及包衣。

6.The continuous vacuum belt dryer and the continuous vacuum granulating dryer were introduced in this article.

简要介绍了中药浸膏干燥用的连续真空带式干燥机和连续真空制粒干燥机。

7.Compared with horizontal cylinder granulating method, its mixing effect is more reasonable.

较卧式湿法具有更为合理的混合效果。

8.The pharmacist is granulating 颗粒化 the powder to ensure even distribution of the active ingredients.

药剂师正在<granulating>粉末，以确保活性成分均匀分布。

9.In the laboratory, we are granulating 颗粒化 the chemicals for our experiment.

在实验室，我们正在<granulating>化学品以进行实验。

10.The process of granulating 颗粒化 helps improve the flow properties of the material.

<granulating>的过程有助于改善材料的流动性。

11.After mixing, the next step involves granulating 颗粒化 the mixture to form pellets.

混合后，下一步是<granulating>混合物以形成颗粒。

12.The food industry often uses granulating 颗粒化 techniques to create uniform sizes for snacks.

食品行业通常使用<granulating>技术来创建均匀大小的小吃。

作文

In the field of chemistry and material science, the process of granulating (颗粒化) is essential for transforming powders into granules. This transformation is crucial for various applications, particularly in pharmaceuticals, agriculture, and food production. The purpose of granulating (颗粒化) is to enhance the physical properties of a powder, making it easier to handle, transport, and process. By converting fine powders into larger granules, we can improve flowability and reduce dust generation, which are significant concerns in industrial settings. The granulating (颗粒化) process typically involves several steps, including mixing, agglomeration, and drying. Initially, the raw materials are mixed to ensure uniformity. This is followed by agglomeration, where moisture or binding agents are added to facilitate the formation of granules. During this phase, the particles clump together, creating larger aggregates. Finally, the granules undergo drying to remove excess moisture, resulting in stable and dry granules that can be stored and used effectively. One of the most common methods of granulating (颗粒化) is wet granulation, which utilizes a liquid binder to promote particle cohesion. This method is particularly popular in the pharmaceutical industry, where the uniformity of dosage forms is critical. By ensuring that each granule contains a consistent amount of active ingredient, manufacturers can produce reliable and effective medications. Moreover, wet granulation allows for better control over the size and distribution of the granules, leading to improved dissolution rates and enhanced bioavailability of drugs. On the other hand, dry granulation is another technique used for granulating (颗粒化) powders. In this method, the powder is compacted under pressure to form larger particles without the use of liquid binders. Dry granulation is advantageous for heat-sensitive materials, as it avoids exposure to high temperatures during the drying process. This technique is commonly employed in the production of tablets and capsules, where maintaining the integrity of the active ingredients is paramount. The significance of granulating (颗粒化) extends beyond pharmaceuticals. In agriculture, granulated fertilizers provide a more controlled release of nutrients to plants, improving efficiency and reducing environmental impact. Similarly, in the food industry, granulating (颗粒化) is used to create products like sugar and salt, enhancing their handling and application in various food formulations. Furthermore, the art of granulating (颗粒化) can also be observed in the production of certain types of soil and compost. By granulating organic materials, we can create a more uniform product that promotes better aeration and drainage in gardening and landscaping applications. In conclusion, the process of granulating (颗粒化) plays a vital role in numerous industries by enhancing the properties of powders and facilitating their use in various applications. Whether in pharmaceuticals, agriculture, or food production, granulating (颗粒化) improves the functionality and effectiveness of materials, ultimately contributing to better products and processes. As technology advances, we can expect further innovations in granulating (颗粒化) techniques, leading to even greater efficiency and sustainability in industrial practices.

在化学和材料科学领域，granulating（颗粒化）过程对于将粉末转变为颗粒至关重要。这种转变对于制药、农业和食品生产等各种应用尤为重要。granulating（颗粒化）的目的是增强粉末的物理特性，使其更易于处理、运输和加工。通过将细粉转化为较大的颗粒，我们可以改善流动性并减少粉尘产生，这在工业环境中是一个重要问题。 granulating（颗粒化）过程通常包括几个步骤，包括混合、团聚和干燥。最初，原材料被混合以确保均匀性。接下来是团聚，在此过程中添加水分或粘合剂以促进颗粒的形成。在这一阶段，颗粒聚集在一起，形成较大的聚集体。最后，颗粒经过干燥以去除多余的水分，从而得到稳定干燥的颗粒，可以有效储存和使用。 granulating（颗粒化）最常见的方法之一是湿法颗粒化，该方法利用液体粘合剂促进颗粒之间的结合。这种方法在制药行业特别受欢迎，因为剂量形式的均匀性至关重要。通过确保每个颗粒含有一致数量的活性成分，制造商可以生产可靠和有效的药物。此外，湿法颗粒化允许更好地控制颗粒的大小和分布，从而提高溶解率和药物的生物利用度。 另一方面，干法颗粒化是另一种用于granulating（颗粒化）粉末的技术。在这种方法中，粉末在压力下被压缩以形成较大的颗粒，而无需使用液体粘合剂。干法颗粒化对热敏材料具有优势，因为它避免了在干燥过程中暴露于高温。这种技术通常用于片剂和胶囊的生产，其中保持活性成分的完整性至关重要。 granulating（颗粒化）的重要性超越了制药领域。在农业中，颗粒化肥料提供了更可控的养分释放给植物，提高了效率并减少了对环境的影响。同样，在食品行业，granulating（颗粒化）用于生产糖和盐等产品，增强其在各种食品配方中的处理和应用。 此外，granulating（颗粒化）的艺术也可以在某些类型的土壤和堆肥生产中观察到。通过颗粒化有机材料，我们可以创建一种更均匀的产品，促进园艺和景观应用中的更好通气和排水。 总之，granulating（颗粒化）过程在众多行业中发挥着至关重要的作用，通过增强粉末的特性并促进其在各种应用中的使用。无论是在制药、农业还是食品生产中，granulating（颗粒化）都提高了材料的功能性和有效性，最终有助于更好的产品和过程。随着技术的进步，我们可以期待在granulating（颗粒化）技术方面进一步创新，从而在工业实践中实现更高的效率和可持续性。