Volume 7, Issue 1, March 2018, Page: 12-17
Detection Technology of Metal Elements in Crude Oil and Prospect of Utilization of Metal Resources
Bai Fengyou, Daqing Oilfield Exploration and Development Research Institute, Daqing, China
Received: Feb. 23, 2018;       Published: Feb. 24, 2018
DOI: 10.11648/j.jenr.20180701.12      View  1791      Downloads  59
There are many kinds of metals in crude oil. The rare metals are essential metals for the development of atomic energy, aviation and space, national defense construction, electronic computer, high point scientific instruments and so on. Although the resources of rare metals are abundant in China, but for a long time, china supplies 90% of the world's rare metals at a relatively low price, the reserves of rare metal resources are declining at an alarming rate. By 2020, only 6 of the 45 major minerals could meet the needs of China. Through the establishment of metal element detection technology in crude oil, the crude oil of Toutai Oil Field in China is determined, and there are rich rare metal elements in the crude oil. For example, the rare-earth metal content is 62.61 micrograms per kilogram, the rare light metals is 78.4 micrograms per kilogram, and the rare refractory metals is 290.47 micrograms per kilogram, etc. Although the research on the prospect of comprehensive utilization of rare metals in crude oil is late in China, the extraction of rare metals from crude oil has a broad prospect.
Crude Oil, Metal, Detection Technology, Resource Utilization, Prospect
To cite this article
Bai Fengyou, Detection Technology of Metal Elements in Crude Oil and Prospect of Utilization of Metal Resources, Journal of Energy and Natural Resources. Vol. 7, No. 1, 2018, pp. 12-17. doi: 10.11648/j.jenr.20180701.12
Gao Han, Ma Bo. Research Progress of Nickel and Vanadium in Petroleum. Contemporary Chemical Industry, 2007, 36 (6):574-576.
Hu Chengming. Extraction of Metal from Crude Oil. World Science, 1988 (2):49-54.
Xi Yin. Production Technology of Vanadium from Petroleum Residue in Foreign Countries. World Nonferrous Metals, 2001 (5):36-40.
Ma Liangbang, Ge Ying. Determination of Trace Metal Elements in Solid Bitumen with Microwave Digestion by Inductively Coupled Plasma-Atomic Emission Spectrometry, Rock and Mineral Analysis, 2013, 32 (3):441-444.
Shao Min, Yao Zhongwei. Study on Separation and Enrichment in the Analysis of Platinum Group Elements. Western Resources, 2015 (2):120-122.
Lu Bin. Determination of Metal Elements in Crude Oil and Residuum by Direct Injection of ICP-AES Inductively Coupled Plasma Emission Spectrometry Oil. Journal of Anqing College (Natural Science Edition), 2009, 15 (2):61-66.
Li Jingxi, Chen Farong. Determination of Trace Metal Elements in Different Crude Oils and Their Cluster Analysis. Journal of Instrumental Analysis, 2010, 29 (6):558-563.
Zhao Zengyi. Distribution Characteristics of Trace Elements in Crude Oil in Junggar Basin and Its Application. Exploration and Development of Natural gas, 2007, 30 (2):30-33.
Tang Xiaohua. The Study on the Characteristics of Nickel and Vanadium in Blend Crude Oil. China Academic Journal Electronic Magazine, 2016 (2):41-45.
Jin Dawei. New Technology for Detecting Trace Metal Elements in Crude Oil (ICP-AES) and Its Application. West-China Exploration Engineering, 2016 (5):57-63.
Suo Jinling. Determination of Metal Elements in Pipeline Transportation Crude Oil by Crucible Ashing and ICP-AES. Petroleum Processing and Petrochemicals, 2013, 44 (4): 100–104.
Qiu Xingquan, Wu Xiaoyan. Analyzation of Metal Ion Interference in Determination of Total Chromium in Water by Flame Atomic Absorption Spectrometry. Guangdong Chemical Industry, 2017, 44 (349):272-275.
Browse journals by subject