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机构地区:[1]中国矿业大学机电学院,江苏徐州221116 [2]兖州煤业股份有限公司济宁三号煤矿,山东济宁272072
出 处:《山东煤炭科技》2012年第3期17-19,共3页Shandong Coal Science and Technology
摘 要:基于目前国内矿井水处理技术现状,探索把矿井水资源化利用作为一个系统工程,集成嵌入到煤炭生产过程,作为煤炭开采的必然行为同时进行系统的设计和规划,实现煤炭资源与水资源的同步开采模式。研究实施了矿井水处理系统的信息化管理、矿井水井下处理就地复用及自动化监测和控制、井下突水工作面矿井水的有效分流与处理等关键技术,以及电吸附除盐技术在煤矿高矿化度矿井水处理中的推广应用,为矿井水资源化利用提供有效的途径和技术支持。Basing on the technology status of mine water treatment in China, this paper explores approaches to realize the pattern, which achieves syn- chronization of coal and water resources mining. This pattern makes mine water resource recovery utilization be integrated and embedded in the process of coal production as a system engineering and a necessary behavior of coal mining, which should be simultaneously designed and planned with coal mining in a systematic way. The information management of mine waters treatment system,the automatic monitoring and control of underground mine water treat- ment and on - site reuse,the effective distributary and treatment of mine water in underground water - inrush working face are studied, which serve as key technologies, as well as the application of electro - sorption desalting technique in high mineralized mine water treatment in coal mine. provide effective approaches and technical sunDorts to the mine water resource recovery utilization.
关 键 词:矿井水 水力循环澄清池 电吸附 煤水分离 资源化
分 类 号:X752[环境科学与工程—环境工程] X703
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