Method for determining enrichment form of ion adsorption type thorium and co-associated elements

An ion adsorption type, associated element technology, applied in the field of nuclear geological research, to achieve the effect of good applicability, strong operability, and clear technical process

Pending Publication Date: 2022-04-26
BEIJING RES INST OF URANIUM GEOLOGY
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Problems solved by technology

[0003] At present, there are no independently developed ion-adsorption thorium deposits in China, and ion-adsorption thorium deposits are often associated with rare and rare earth resources

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  • Method for determining enrichment form of ion adsorption type thorium and co-associated elements
  • Method for determining enrichment form of ion adsorption type thorium and co-associated elements
  • Method for determining enrichment form of ion adsorption type thorium and co-associated elements

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Embodiment Construction

[0027] The present invention will be described in further detail below in conjunction with the accompanying drawings and embodiments.

[0028] Taking the associated thorium deposit in Guposhan, Guangxi Province as an example, the present invention provides a method for determining the enrichment form of ion-adsorbed thorium and associated elements, which specifically includes the following steps:

[0029] Step 1. Collection and arrangement of the existing exploration and research data of the Guposhan associated thorium deposit in Guangxi Province

[0030] Systematically collect the exploration and research data of the associated thorium deposit in Guposhan, Guangxi Province. Analyze and summarize previous data and develop secondary development, fully grasp the basic data of known ion-adsorption thorium deposits, verify the reliability of data from different sources, and determine the results of previous work. The collected exploration and research data of the associated thori...

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Abstract

The invention belongs to the field of nuclear geology research, and particularly relates to a method for determining the enrichment form of ion adsorption type thorium and co-associated elements, which comprises the following steps of: 1, collecting and sorting the existing exploration and research data of a known ion adsorption type thorium ore deposit; step 2, preliminarily determining enrichment forms of thorium and co-associated elements of the known ion adsorption type thorium deposit; 3, field geological survey and sample collection and analysis are conducted on the known ion adsorption type thorium deposit; step 4, determining enrichment forms of thorium and associated elements by utilizing analysis test data and field survey data; and 5, comprehensively researching and constructing a known ion adsorption type thorium deposit geochemical enrichment model. According to the method, key geological information of the enrichment form of the thorium and the co-associated elements of the ion adsorption type thorium ore deposit is determined, the geological process of ion adsorption type thorium mineralization is simulated, and the enrichment form of the thorium and the co-associated elements of the known typical ion adsorption type thorium ore deposit is determined for the first time.

Description

technical field [0001] The invention belongs to the field of nuclear geological research, in particular to a method for determining the enrichment form of ion-adsorbed thorium and associated elements. Background technique [0002] Thorium is the second nuclear energy that can replace uranium, and it is an important nuclear energy "reserve grain". In the future, nuclear energy will play an increasingly important role in national production and life, which can guarantee my country's energy security. At present, the investigation and research level of thorium resources in my country is relatively low, and most thorium deposits (spots), mineralized points and abnormal points are discovered incidentally during the exploration of other minerals. In my country, rare earth and rare associated thorium resource minerals are the most available thorium resources at present, because of their low mining cost and the highest energy efficiency of mineralization utilization, and ion-adsorpt...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N23/2251G01N23/2252G06Q50/02G16C10/00
CPCG01N23/2251G01N23/2252G16C10/00G06Q50/02
Inventor 孟艳宁蔡煜琦范洪海
Owner BEIJING RES INST OF URANIUM GEOLOGY
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