nickeliferous
简明释义
英[ˌnɪkəˈlɪfərəs]美[ˌnɪkəˈlɪfərəs]
adj. 含镍的
英英释义
含镍的或可提取镍的。 |
单词用法
含镍矿石 | |
含镍沉积物 | |
含镍矿物 | |
勘探含镍地区 |
同义词
| 含镍的 | 该含镍矿石经过处理以提取金属。 | ||
| 富镍的 | 他们在该地区发现了一个富镍的矿床。 | ||
| 含有镍的 | Nickel-containing alloys are used in various industrial applications. | 含镍合金用于各种工业应用。 |
反义词
| 无镍矿的 | 无镍矿的沉积物富含其他矿物。 | ||
| 无镍的 | This product is labeled as nickel-free for allergy concerns. | 该产品标记为无镍,以应对过敏问题。 |
例句
1.Near the border zone an important string of nickeliferous peridotites is emplaced .
在靠近交界带上有重要的一连串的含镍橄榄岩(体)的侵入。
2.The oxygen autogenous smelting process of nickeliferous copper concentrate from Jinchuan Nonferrous Corp.
对金川二次铜精矿氧气自热熔炼过程进行热力学分析。
3.The oxygen autogenous smelting process of nickeliferous copper concentrate from Jinchuan Nonferrous Corp.
对金川二次铜精矿氧气自热熔炼过程进行热力学分析。
4.The nickeliferous 含镍的 minerals found in the area are crucial for battery manufacturing.
该地区发现的nickeliferous 含镍的矿物对电池制造至关重要。
5.In the laboratory, we analyzed the composition of the nickeliferous 含镍的 rock samples.
在实验室中,我们分析了nickeliferous 含镍的岩石样本的成分。
6.The report highlighted the importance of nickeliferous 含镍的 ores in the production of stainless steel.
报告强调了nickeliferous 含镍的矿石在不锈钢生产中的重要性。
7.Geologists have identified several nickeliferous 含镍的 regions that could be economically viable for extraction.
地质学家已经确定了几个可能经济可行的nickeliferous 含镍的区域进行开采。
8.The mining company is exploring a new site for its potential nickeliferous 含镍的 deposits.
这家矿业公司正在探索一个新地点,寻找其潜在的nickeliferous 含镍的矿藏。
作文
In the vast world of geology and mineralogy, the term nickeliferous refers to rocks and ores that contain a significant amount of nickel. Nickel is a vital metal used in various applications, including stainless steel production, batteries, and even in the manufacturing of coins. The importance of nickeliferous materials cannot be overstated, as they play a crucial role in modern industry and technology. Understanding the characteristics and locations of nickeliferous deposits is essential for mining companies and environmental scientists alike.One of the most prominent sources of nickel is found in laterite ores, which are rich in iron and aluminum as well. These ores form in tropical climates through the weathering of ultramafic rocks, which are high in magnesium and iron. The process of forming nickeliferous laterites involves leaching of metals from the rock, leaving behind a concentration of nickel and other valuable minerals. Countries like Indonesia, the Philippines, and New Caledonia are known for their extensive deposits of nickeliferous laterites, making them key players in the global nickel market.The extraction of nickel from nickeliferous ores typically involves two main processes: pyrometallurgy and hydrometallurgy. Pyrometallurgy involves smelting the ore at high temperatures to separate the metal from its impurities. This method is energy-intensive but can yield high-quality nickel. On the other hand, hydrometallurgy employs aqueous solutions to extract nickel, which is generally considered more environmentally friendly. However, it may take longer and require more complex processing steps.As the demand for nickel continues to rise, particularly with the growing popularity of electric vehicles and renewable energy technologies, the exploration and development of nickeliferous resources have become increasingly important. Mining companies are investing heavily in research and development to improve extraction techniques and reduce environmental impacts. For instance, innovative methods such as bioleaching, which uses microorganisms to extract metals from ores, are being explored as sustainable alternatives to traditional mining practices.Furthermore, the environmental implications of extracting nickel from nickeliferous deposits cannot be overlooked. Mining activities can lead to deforestation, soil erosion, and water pollution if not managed responsibly. Therefore, it is crucial for the industry to adopt sustainable practices that minimize ecological damage while meeting the rising demand for nickel. This includes implementing stricter regulations, conducting thorough environmental impact assessments, and engaging with local communities to ensure that mining operations benefit all stakeholders involved.In conclusion, the term nickeliferous encapsulates a significant aspect of the mineral industry, highlighting the importance of nickel-rich ores in our modern world. As we move towards a more sustainable future, understanding and responsibly managing nickeliferous resources will be vital in balancing economic growth with environmental stewardship. The journey ahead will require collaboration between governments, industries, and communities to ensure that the extraction and use of nickel contribute positively to society while preserving our planet for future generations.
在地质学和矿物学的广阔世界中,术语nickeliferous指的是含有显著镍量的岩石和矿石。镍是一种重要的金属,广泛用于各种应用,包括不锈钢生产、电池制造,甚至硬币的制造。nickeliferous材料的重要性不容小觑,因为它们在现代工业和技术中发挥着关键作用。了解nickeliferous矿床的特征和位置对矿业公司和环境科学家来说至关重要。镍的主要来源之一是在富含铁和铝的红土矿中。这些矿石在热带气候中通过超基性岩石的风化形成。形成nickeliferous红土矿的过程涉及从岩石中浸出金属,留下镍和其他有价值矿物的浓缩。印度尼西亚、菲律宾和新喀里多尼亚等国以其丰富的nickeliferous红土矿而闻名,使它们成为全球镍市场的关键参与者。从nickeliferous矿石中提取镍通常涉及两种主要工艺:火法冶金和湿法冶金。火法冶金是在高温下熔炼矿石,以将金属与杂质分离。这种方法能耗高,但可以获得高质量的镍。另一方面,湿法冶金利用水溶液提取镍,这通常被认为是更环保的。然而,这可能需要更长时间并且需要更复杂的处理步骤。随着对镍的需求不断上升,特别是电动汽车和可再生能源技术的日益普及,开发和勘探nickeliferous资源变得越来越重要。矿业公司正在大力投资研发,以改善提取技术并减少环境影响。例如,生物浸出等创新方法正在被探索作为传统采矿实践的可持续替代方案,这种方法利用微生物从矿石中提取金属。此外,从nickeliferous矿床中提取镍的环境影响不容忽视。若管理不善,采矿活动可能导致森林砍伐、土壤侵蚀和水污染。因此,行业必须采取可持续的做法,以最小化生态损害,同时满足对镍日益增长的需求。这包括实施更严格的法规,进行彻底的环境影响评估,并与当地社区进行接触,以确保采矿作业惠及所有相关利益相关者。总之,术语nickeliferous概括了矿业行业的一个重要方面,突显了富镍矿石在我们现代世界中的重要性。随着我们朝着更可持续的未来发展,理解和负责任地管理nickeliferous资源将对在经济增长与环境保护之间取得平衡至关重要。未来的旅程将需要政府、行业和社区之间的合作,以确保镍的提取和使用对社会产生积极贡献,同时为后代保护我们的星球。