vanadic
简明释义
adj. 钒的
英英释义
Relating to or derived from vanadium, especially in its higher oxidation states. | 与钒相关或源自钒,尤其是在其较高氧化态下。 |
单词用法
钒催化 | |
钒态 | |
钒离子 | |
钒溶液 |
同义词
| 钒的(低价态) | 钒的化合物常用于催化剂中。 | ||
| 钒酸盐 | Vanadate ions can act as inhibitors in biochemical reactions. | 钒酸根离子可以作为生化反应中的抑制剂。 |
反义词
| 非钒的 | The non-vanadic compounds are often used in different chemical processes. | 非钒化合物通常用于不同的化学过程。 | |
| 还原性的 | Reductive reactions can be contrasted with vanadic oxidation processes. | 还原反应可以与钒氧化过程形成对比。 |
例句
1.At last, based on above, the mine-exploiting model, which might made the recycling of titanium among vanadic titanomagnetite best, was figured out by using of optimum principle.
最后,在此基础上,利用最优化原理,建立了使钒钛磁铁矿中钛回收率达到最佳的矿山开采模型。
2.The upper shaft lining of no. 1 blast furnace for smelting high TiO2 bearing vanadic titanomagnetite is repaired by forcing and gunning methods.
对冶炼高钛型钒钛磁铁矿的一号高炉炉身上部进行了压入和喷补造衬。
3.Using analysis methods of orthogonal combination under the conditions of high alkalinity, sintering process on Vanadic Titanomagnetite are researched.
在高碱度条件下,运用正交组合分析手段,对钒钛磁铁精矿的烧结工艺进行烧结实验研究分析。
4.Objective It is to select the best method to determine bilirubin through technology comparison between vanadic acid oxidation method, improved J-G method and bilirubin Oxidase method.
目的对钒酸氧化法、改良j - G法、胆红素氧化酶法进行方法学比较,选择胆红素测定的最好方法。
5.Objective It is to select the best method to determine bilirubin through technology comparison between vanadic acid oxidation method, improved J-G method and bilirubin Oxidase method.
目的对钒酸氧化法、改良j - G法、胆红素氧化酶法进行方法学比较,选择胆红素测定的最好方法。
6.The researchers discovered that the presence of vanadic 钒的 acid can enhance the catalytic activity in chemical reactions.
研究人员发现,存在的vanadic 钒的 酸可以增强化学反应中的催化活性。
7.In metallurgy, vanadic 钒的 alloys are known for their strength and resistance to corrosion.
在冶金中,vanadic 钒的 合金以其强度和抗腐蚀性而闻名。
8.The study focused on the environmental impact of vanadic 钒的 compounds in industrial processes.
该研究集中于工业过程中vanadic 钒的 化合物对环境的影响。
9.Scientists are exploring the use of vanadic 钒的 materials in battery technology for better energy storage.
科学家们正在探索在电池技术中使用vanadic 钒的 材料以实现更好的能量存储。
10.The vanadic 钒的 oxide was used as a pigment in ceramics due to its vibrant color.
由于其鲜艳的颜色,vanadic 钒的 氧化物被用作陶瓷中的颜料。
作文
Vanadium is a transition metal that is well known for its strength and resistance to corrosion. One of the most interesting aspects of vanadium is its compounds, particularly those that are classified as vanadic (钒的) compounds. These vanadic (钒的) compounds play a crucial role in various industrial applications, including the production of steel and the manufacturing of catalysts. In this essay, I will explore the significance of vanadic (钒的) compounds in both chemistry and industry, as well as their environmental impact.The term vanadic (钒的) refers to compounds that contain vanadium in its highest oxidation state, which is +5. This state is often found in vanadium pentoxide (V2O5), a prominent vanadic (钒的) compound. Vanadium pentoxide is widely used as a catalyst in the production of sulfuric acid and in the synthesis of other chemicals. Its catalytic properties make it an essential component in many industrial processes, showcasing the practical importance of vanadic (钒的) compounds.In addition to its catalytic applications, vanadic (钒的) compounds are also vital in the steel industry. Vanadium is added to steel alloys to enhance their strength, toughness, and wear resistance. The incorporation of vanadic (钒的) compounds into steel not only improves the mechanical properties of the material but also allows for the production of lighter and more durable products. This is particularly important in industries such as automotive and aerospace, where material performance is critical.Moreover, the use of vanadic (钒的) compounds extends beyond traditional industries. In recent years, researchers have been investigating the potential of vanadium-based materials in energy storage technologies. For instance, vanadic (钒的) redox flow batteries have gained attention due to their high efficiency and scalability. These batteries utilize vanadic (钒的) ions in their electrochemical processes, making them a promising option for renewable energy systems. As the world shifts towards sustainable energy solutions, the role of vanadic (钒的) compounds is likely to become increasingly significant.However, the environmental impact of vanadic (钒的) compounds cannot be overlooked. While vanadium itself is not considered highly toxic, the mining and processing of vanadium ores can lead to environmental degradation. Additionally, the disposal of vanadic (钒的) waste products poses challenges, as they can contribute to soil and water contamination. Therefore, it is essential to implement sustainable practices in the extraction and use of vanadic (钒的) compounds to minimize their ecological footprint.In conclusion, vanadic (钒的) compounds are integral to various industrial applications, from catalysis to steel production and energy storage. Their unique properties and versatility make them valuable assets in modern technology. However, as we continue to harness the benefits of vanadic (钒的) compounds, it is crucial to address the environmental implications associated with their use. By prioritizing sustainability and responsible management, we can ensure that the advantages of vanadic (钒的) compounds are realized without compromising the health of our planet.
