气田水锂、溴资源定量计算方法和前景展望——以W气田震旦系气藏为例

胡浩; 汪敏; 江林; 耿超; 吴东; 沈秋媛; 陈立

引用本文:	胡浩,汪敏,江林,耿超,吴东,沈秋媛,等. 气田水锂、溴资源定量计算方法和前景展望——以W气田震旦系气藏为例[J]. 石油与天然气化工, 2024, 53(3): 56-63.

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气田水锂、溴资源定量计算方法和前景展望——以W气田震旦系气藏为例
胡浩¹,汪敏¹,江林¹,耿超¹,吴东¹,沈秋媛¹,陈立²
1.中国石油西南油气田公司蜀南气矿;2.中国石油西南油气田公司天然气研究院

摘要:

目的鉴于国内部分气田地层水中丰富的锂、溴资源,为明确气田水开发的综合利用价值,定量计算和评估锂、溴总体资源量。方法基于地质分析法,提出一种定量计算已开发气田地层水(以下简称气田水)中锂、溴资源量的新方法,并结合行业内提锂、提溴工艺,计算气田水可提取的碳酸锂、溴素等工业原料资源量。结果① W气田震旦系气藏为具有统一气水界面的底水气藏,气田水总地质储量为29.92×10⁸ m³；② 采用矿化度约束权衡法、井点面积权衡法、等值线面积权衡法分别计算气田水锂元素、溴元素的平均含量,最终确定气田水中锂元素和溴元素的平均质量浓度分别为114.8 mg/L和181.7 mg/L；③ 综合水体储量和锂、溴元素含量,定量计算气田水锂元素总量为34.35×10⁴ t,溴元素总量为54.37×10⁴ t；④ 基于气田水锂、溴元素含量,预测可提取工业产品碳酸锂146.19×10⁴ t,溴素144.19×10⁴ t。结论基于已开发气田气藏特点和气田水开发综合利用行业新热点,定量评估锂、溴资源量,结合提锂、溴工艺技术,形成气田水开发综合利用新链条,为国内外同类型气田的有效开发和新能源利用提供借鉴。 

关键词: 新能源提锂提溴定量计算气田水综合利用 

DOI：10.3969/j.issn.1007-3426.2024.03.010

分类号:

基金项目:中国石油天然气股份有限公司科学研究与技术开发项目研究课题“深层卤水资源勘查评价与高效利用技术研究”(编号2021DJ5302)

Quantitative calculation methods and prospects for lithium and bromine resources in gas field water: A case from Sinian gas reservoir in W gas field

HU Hao¹, WANG Min¹, JIANG Lin¹, GENG Chao¹, WU Dong¹, SHEN Qiuyuan¹, CHEN Li²

1.Southern Sichuan Gas District, PetroChina Southwest Oil & Gasfield Company, Luzhou, Sichuan, China;2. Research Institute of Natural Gas Technology, PetroChina Southwest Oil & Gasfield Company, Chengdu, Sichuan, China

Abstract:

ObjectiveGiven the abundant lithium and bromium resources in the formation water of some gas fields in China, to clarify the comprehensive utilization value of gas field water development, the total resources of lithium and bromium are quantitatively calculated and evaluated. Methods Based on the comprehensive geological method, this paper innovatively proposes a new method for quantitative calculation of lithium and bromium resources for the developed gas field formation water(hereinafter referred to as gas field water). It calculates the industrial raw materials such as lithium carbonate and bromine that can be extracted from the whole gas reservoir in combination with the latest lithium and bromium extraction process. ResultsFirstly, W gas reservoir is a bottom water gas reservoir with a unified gas-water interface, with a total formation water reserve of 2.992×10⁹ m³.Secondly,the mineralization degree constraint, well point area, and contour area balance methods were used to calculate the average content of lithium and bromine in the gas reservoir. As a results, it has been determined that the average mass concentration of lithium and bromium in gas field water is 114.8 mg/L and 181.7 mg/L, respectively.Thirdly, based on the water reserves and the content of lithium and bromium, the quantitative calculation of the total lithium content in gas field water is 0.343 5×10⁶ t, and the total bromium content is 0.543 7×10⁶ t. Fourthly, based on the content of lithium and bromium resources, it is predicted to extract 1.461 9×10⁶ t lithium carbonate and 1.441 9×10⁶ t bromine. ConclusionsBased on the current development status of developed gas fields, combined with the utilization of new energy in gas field development, this article innovatively proposes a new method for quantitatively calculating lithium and bromium resources extracted from gas field water, providing certain guiding significance for the effective development and new energy utilization of similar gas fields at home and abroad.

Key words: new energy lithium extraction bromium extraction quantitative calculation gas field water comprehensive utilization