cyanamid

简明释义

英[/ˈsaɪənəˌmɪd/]美[/ˈsaɪənəˌmɪd/]

n. 氨基氰

英英释义

单词用法

同义词

反义词

例句

1.However, because of a carbon atom at 3 with nitrogen, and the common protein in only a carbon atom with a nitrogen, nitrogen triclosan Cyanamid higher protein content than that.

但因其一个碳原子上含有3个氮，而普通蛋白质中一个碳原子上仅含有一个氮，三氯氰胺的氮含量比蛋白质还高。

2.However, because of a carbon atom at 3 with nitrogen, and the common protein in only a carbon atom with a nitrogen, nitrogen triclosan Cyanamid higher protein content than that.

但因其一个碳原子上含有3个氮，而普通蛋白质中一个碳原子上仅含有一个氮，三氯氰胺的氮含量比蛋白质还高。

3.Triclosan Cyanamid as a result of protein in place of a really, so that food production, its production costs will be greatly reduced.

由于三氯氰胺代替了真的蛋白质，这样，食品生产时，其生产成本就会大为降低。

4.The use of cyanamid in fertilizers can significantly enhance crop yields.

在肥料中使用氰胺可以显著提高作物产量。

5.Farmers are advised to apply cyanamid during the early growth stages of plants.

建议农民在植物的早期生长阶段施用氰胺。

6.Safety precautions should be taken when handling cyanamid in industrial settings.

在工业环境中处理氰胺时应采取安全预防措施。

7.The chemical composition of cyanamid makes it a popular choice for agricultural use.

氰胺的化学成分使其成为农业应用的热门选择。

8.Research shows that cyanamid can improve nitrogen efficiency in soil.

研究表明，氰胺可以提高土壤中的氮效率。

作文

In the world of agriculture and chemical manufacturing, the term cyanamid refers to a chemical compound that plays a crucial role in various applications. cyanamid (氰胺) is primarily known for its use as a fertilizer, where it acts as a source of nitrogen, an essential nutrient for plant growth. The importance of nitrogen in agriculture cannot be overstated, as it is a key component of amino acids, proteins, and nucleic acids, which are vital for the development of plants.One of the main advantages of using cyanamid as a fertilizer is its ability to release nitrogen slowly into the soil. This slow-release characteristic helps to minimize nitrogen leaching, which can occur with other types of fertilizers. Leaching is the process by which nutrients are washed away from the soil by rain or irrigation, leading to decreased soil fertility and potential environmental issues. By using cyanamid, farmers can ensure that their crops receive a steady supply of nitrogen over an extended period, promoting healthier growth and higher yields.Moreover, cyanamid is also utilized in the production of various chemicals and pharmaceuticals. Its unique properties make it a valuable intermediate in the synthesis of numerous organic compounds. For instance, cyanamid can be transformed into other nitrogen-containing compounds that are used in the manufacture of dyes, plastics, and agricultural chemicals. This versatility highlights the significance of cyanamid not only in agriculture but also in the broader chemical industry.Despite its benefits, the use of cyanamid is not without controversy. There are concerns regarding its potential environmental impact, particularly when it comes to its application in agriculture. If used excessively, cyanamid can contribute to soil acidification and affect the microbial balance in the soil ecosystem. Additionally, improper handling of cyanamid during its production and application can pose health risks to workers and surrounding communities due to its toxic nature.To mitigate these risks, it is essential for farmers and manufacturers to adhere to safety guidelines and best practices when using cyanamid. This includes proper dosage, application methods, and monitoring of soil health. Furthermore, research into alternative fertilizers and sustainable agricultural practices is ongoing, aiming to reduce reliance on chemical inputs like cyanamid while still meeting the food production demands of a growing global population.In conclusion, cyanamid is a significant compound in both agriculture and the chemical industry. Its role as a nitrogen source in fertilizers is vital for crop production, while its versatility allows for its use in various chemical syntheses. However, it is crucial to approach its use responsibly, considering both the benefits and potential environmental and health risks associated with it. As we move towards more sustainable farming practices, understanding compounds like cyanamid will be essential in balancing agricultural productivity with environmental stewardship.

在农业和化学制造领域，术语cyanamid（氰胺）指的是一种在多种应用中发挥重要作用的化合物。cyanamid主要用于作为肥料，它作为氮的来源，是植物生长所必需的营养素。氮在农业中的重要性不言而喻，因为它是氨基酸、蛋白质和核酸的关键成分，这些都是植物发育所必需的。使用cyanamid作为肥料的主要优点之一是其能够缓慢释放氮到土壤中。这种缓释特性有助于减少氮的淋溶，这种情况在其他类型的肥料中可能会发生。淋溶是指养分因降雨或灌溉而被冲走的过程，导致土壤肥力下降和潜在的环境问题。通过使用cyanamid，农民可以确保他们的作物在较长时间内获得稳定的氮供应，从而促进更健康的生长和更高的产量。此外，cyanamid还用于各种化学品和药物的生产。其独特的性质使其成为合成众多有机化合物的重要中间体。例如，cyanamid可以转化为其他含氮化合物，这些化合物用于染料、塑料和农业化学品的制造。这种多功能性突显了cyanamid在农业和更广泛的化学工业中的重要性。尽管有其好处，但使用cyanamid并非没有争议。人们对其在农业应用中潜在的环境影响表示担忧。如果使用过量，cyanamid可能会导致土壤酸化，并影响土壤生态系统中的微生物平衡。此外，在生产和施用cyanamid时的不当处理可能会对工人和周围社区造成健康风险，因为其具有毒性。为了减轻这些风险，农民和制造商在使用cyanamid时必须遵循安全指南和最佳实践。这包括适当的剂量、施用方法和土壤健康监测。此外，关于替代肥料和可持续农业实践的研究仍在进行中，旨在减少对像cyanamid这样的化学输入的依赖，同时满足日益增长的全球人口的食品生产需求。总之，cyanamid在农业和化学工业中都是一个重要的化合物。它作为肥料中的氮源，对作物生产至关重要，而其多功能性使其可以用于各种化学合成。然而，负责任地使用它至关重要，考虑到与其相关的好处以及潜在的环境和健康风险。随着我们朝着更可持续的农业实践迈进，理解像cyanamid这样的化合物对于在农业生产力与环境保护之间取得平衡将是至关重要的。