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麻家梁4号煤层综放开采放煤方法优化研究 被引量:2
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作者 张骞 《煤》 2021年第5期33-34,共2页
为解决麻家梁4号煤层综放开采时顶煤回收率低问题,将采用的单轮间隔放煤法优化为单轮分组间隔放煤法。通过现场试验,确定出了物理意义强、操作明确的支架放煤参数,实现了放煤作的“定量化”。实践证明单轮分组间隔放煤法,是一种提高顶... 为解决麻家梁4号煤层综放开采时顶煤回收率低问题,将采用的单轮间隔放煤法优化为单轮分组间隔放煤法。通过现场试验,确定出了物理意义强、操作明确的支架放煤参数,实现了放煤作的“定量化”。实践证明单轮分组间隔放煤法,是一种提高顶煤回收率、降低煤炭中含矸率的实用性放煤方法。 展开更多
关键词 朔南矿区 4号煤层 综放开采 放煤方法 研究
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智能放顶煤技术在特厚煤层上覆含水层保护中的应用 被引量:1
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作者 程伟轩 陈敬川 +3 位作者 张立辉 刘生优 贺鑫 潘卫东 《煤炭科学技术》 EI CAS CSCD 北大核心 2024年第S01期249-258,共10页
我国内蒙古东部和新疆北部草原地区煤炭及地下水资源丰富,煤矿高强度开采形成的采动裂隙易导通强富水含水层,极易引起上覆岩层的地下水系统破坏,更容易发生突水溃砂事故,尤其含水层下综合机械化放顶煤开采的放煤高度难以控制。以特厚煤... 我国内蒙古东部和新疆北部草原地区煤炭及地下水资源丰富,煤矿高强度开采形成的采动裂隙易导通强富水含水层,极易引起上覆岩层的地下水系统破坏,更容易发生突水溃砂事故,尤其含水层下综合机械化放顶煤开采的放煤高度难以控制。以特厚煤层上覆含水层系统保护为研究对象,以含水层保护和水砂灾害安全防控为研究目标,研发特厚煤层上覆含水层保护的智能放顶煤关键技术,应用井工煤矿动力突水溃砂防控技术,得出特厚煤层上覆地下水系统保护的根本途径。研发应用一种智能放顶煤技术,包括顶煤运移跟踪系统、多轮记忆放煤方法及系统。基于水文地质条件精细探查、覆岩破坏高度的实测、顶煤采放高度确定,应用多轮记忆放煤智能放顶煤技术,控制采动裂隙带高度。以应用工作面为例,应用水文地质精细探查与钻探验证、覆岩破坏高度获取、智能放顶煤技术后,在工作面回采过程中实现了上覆含水层水砂灾害的安全精准控制,有效保护了煤层上覆强富水含水层。 展开更多
关键词 顶煤运移跟踪系统 多轮记忆放煤方法及系统 覆岩精细地质探查 覆岩破坏高度实测 采放高度智能控制 上覆含水层保护 水砂灾害防控
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综放工作面实现高产高效的管理经验 被引量:1
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作者 贾庆丰 《煤》 2019年第6期44-45,共2页
针对大同石炭系特厚煤层综放开采日常生产中存在的管理难题,详细介绍了某高产高效综放工作面在支架、顶板、放煤方法等日常管理中经验与做法,为同类型矿井工作面提供借鉴,从而实现资源的安全高效开采。
关键词 综放工作面 顶板管理 放煤方法
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综放工作面自动化高效开采实践与改进 被引量:1
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作者 张强 《煤》 2019年第8期101-102,共2页
为了实现综放工作面自动化开采,提高工作面产量。麻家梁煤矿通过配套电液控制支架、增大供液流量、加大采煤机滚筒截深、装备智能监控中心、放煤工艺优化等实现了综放工作面的自动化与高产高效,达到了“机械化换人,自动化减人”的目的,... 为了实现综放工作面自动化开采,提高工作面产量。麻家梁煤矿通过配套电液控制支架、增大供液流量、加大采煤机滚筒截深、装备智能监控中心、放煤工艺优化等实现了综放工作面的自动化与高产高效,达到了“机械化换人,自动化减人”的目的,取得了良好的社会和经济效益。 展开更多
关键词 综放工作面 自动化开采 放煤方法
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“三软”煤层铺顶网综放开采研究
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作者 段子晔 《矿山压力与顶板管理》 北大核心 2002年第2期11-12,共2页
本文通过对“三软”煤层综放开采的研究 ,提出了“三软”
关键词 综放开采 三软煤层 铺顶网 梁端控制 放煤方式 顶板管理 放煤方法
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综放面复杂顶煤结构提高资源回采率的研究
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作者 杨明 黄铜玲 王振亭 《山东煤炭科技》 2012年第6期139-140,共2页
依据柴里煤矿23下203综放工作面复杂顶煤结构提高资源回采率的适应性研究,该文分析复杂顶煤结构确定合理的放煤步距,以及采取相应措施改善放煤工艺,并在生产实践中加以应用,有效地控制了采放平衡,提高回采率,实现资源最大回收,达到了高... 依据柴里煤矿23下203综放工作面复杂顶煤结构提高资源回采率的适应性研究,该文分析复杂顶煤结构确定合理的放煤步距,以及采取相应措施改善放煤工艺,并在生产实践中加以应用,有效地控制了采放平衡,提高回采率,实现资源最大回收,达到了高产、高效。 展开更多
关键词 综放面 提高回采率 放煤参数 放煤方法
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Definition, theory, methods, and applications of the safe and efficient simultaneous extraction of coal and gas 被引量:36
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作者 Yuanping Cheng Liang Wang +3 位作者 Hongyong Liu Shengli Kong Jintuo Zhu Qingyi Tu 《International Journal of Coal Science & Technology》 EI 2015年第1期52-65,共14页
Simultaneous extraction of the coal and gas is an effective method of eliminating coal mine gas disasters while safely exploiting the coal and achieving efficient gas drainage in China, which is widely accepted by the... Simultaneous extraction of the coal and gas is an effective method of eliminating coal mine gas disasters while safely exploiting the coal and achieving efficient gas drainage in China, which is widely accepted by the main coal-producing countries around the world. However, the concrete definition of simultaneous extraction is vague and there is little accurate theoretical support for the simultaneous extraction of coal and gas, which makes it difficult to determine an efficient gas drainage method appropriate to the features of coal seams. Based on theoretical analysis, laboratory tests and field observations, a specific definition of simultaneous extraction of coal and gas is proposed after analyzing the characteristics of coal seam occurrences in China, and we developed the mechanism of mining-enhanced permeability and established the corresponding theoretical model. This comprises a process of fracture network formation, in which the original fractures are opened and new fractures are produced by unloading damage. According to the theoretical model, the engineering approaches and their quantitative parameters of 'unloading by borehole drilling' for single coal seams and 'unloading by protective seam mining' for groups of coal seams are proposed, and the construction principles for coal exploitation and gas-drainage systems for different conditions are given. These methods were applied successfully in the Tunlan Coal Mine in Shanxi Province and the Panyi Coal Mine in Anhui Province and could assure safe and efficient simultaneous extraction of coal and gas in these outburst coal mines. 展开更多
关键词 Coal seam gas Outburst coal seam Mining-enhanced permeability Simultaneous extraction of coal and gas
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Technology of gas drainage and utilization in Huaibei mining area 被引量:3
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作者 LI Wei XU Rui 《Journal of Coal Science & Engineering(China)》 2009年第3期278-283,共6页
With the characteristics of coal seam geology and gas occurrence,a'ground-underground' integrated gas drainage method was formed,which can relieve gaspressure and increase permeability by mining the protection... With the characteristics of coal seam geology and gas occurrence,a'ground-underground' integrated gas drainage method was formed,which can relieve gaspressure and increase permeability by mining the protection seams in conditional regions.After coal seam gas drainage,high gas outburst seam was converted to low gas safetyseam.In the coal face mining process,safety and high efficient coal mining were realizedby the measure of gas-suction over mining.In addition to the drainage gas for civil gasand gas power generation,the Huaibei Mining Group has actively carried out research onthe utilization technology of methane drainage by ventilation.On the one hand,it can saveprecious energy;on the other hand,it can protect the environment for people's survival.In2007,the amount of coal mine gas drainage was 120 hm3;the rate of coal mine gasdrainage was 44%.Compared with the year 2002,the amount of coal mine gas drainageincreased by two times.Meanwhile,the utilization rate of gas increased rapidly. 展开更多
关键词 gas drainage gas utilization Huaibei mining area
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Longhole waterjet rotary cutting for in-seam cross panel methane drainage 被引量:5
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作者 LU Tingkan YU Hong DAI Yaohui 《Mining Science and Technology》 EI CAS 2010年第3期378-383,共6页
In order to improve the efficiency of gas drainage before and during longwall extraction,a waterjet rotary cutting system has been developed for in-seam cross panel methane drainage.The purpose of the water rotary cut... In order to improve the efficiency of gas drainage before and during longwall extraction,a waterjet rotary cutting system has been developed for in-seam cross panel methane drainage.The purpose of the water rotary cutting system developed was to create artificial fractures along the gas drainage boreholes.During the design of the system,it was perceived that the nozzle geometry is one of the key factors,affecting cutting capacity.Therefore,we studied the structural and geometric parameters of the nozzle and optimized its performance during laboratory tests and numerical simulation.Underground trials conducted in a coal mine,indicate that production of gas drainage before and after cutting significantly increased by up to three times.The advantages of waterjet assisted gas drainage method has been identified as:1) increasing gas drainage efficiency,2) a possible development of a gas drainage fractured network within coal seams associated with panel extraction,and 3) reducing the risk of exceeding gas limits during longwalling. 展开更多
关键词 gas drainage waterjet rotary cutting longhole LONGWALL
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The Research of thick seam mining methods
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作者 He Feng Zhen 《Review of Global Academics》 2014年第1期15-33,共19页
China's total coal reserves are enormous, in which recoverable reserves of coal seam thickness ofmineable coal reserves in China accounted for 43% of recoverable reserves When correctly using thick seam mining, minin... China's total coal reserves are enormous, in which recoverable reserves of coal seam thickness ofmineable coal reserves in China accounted for 43% of recoverable reserves When correctly using thick seam mining, mining methods can improve the proper thick seam mining rate and reduce coal loss. Using proper thick seam mining method can effectively reduce the thick seam mining costs. In mining safety, the use of appropriate thick seam mining methods can effectively prevent thick seam mining accidents. But in the process of development and current situation from the perspective of the Chinese coal mining, there are certain aspects of thick seam mining problems. These problems are mainly in the thick seam mining and the coal recovery rate is low, resulting in lots of waste coal. Besides, thick coal mining is less secure, safe and there are frequent accidents. These problems have seriously affected the thick seam mining. And a lot of thick coal seams of coal resources can not be effectively taken out. Now Chinese mining methods in thick seam mining areas are mainly open-pit mining and underground mining exploitation. Because of the open-pit coal burial depth has more stringent requirements, only used in shallow-depth areas. Underground mining is the primary way China is now using in thick seam mining. Underground mining methods include full-height slice mining and mechanized mining caving mining method once adopted. Research on these thick seam mining methods can provide theoretical and technical support for thick seam mining, thick seam mining techniques to enhance the level . I will combine the current situation of thick seam mining in Chinese study with thick seam mining methods, comments and suggestions for the current thick seam mining study 展开更多
关键词 thick coal seams mining methods research and analysis
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The control of coal mine gas and coordinated exploitation of coal bed methane in China 被引量:4
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作者 LIU Jian-zhong 《Journal of Coal Science & Engineering(China)》 2009年第3期267-272,共6页
Based on the characteristics of the coalfield geology and the distribution of coalbed methane (CBM) in China,the geological conditions for exploiting the CBM and drainingthe coal mine gas were analyzed,as well as the ... Based on the characteristics of the coalfield geology and the distribution of coalbed methane (CBM) in China,the geological conditions for exploiting the CBM and drainingthe coal mine gas were analyzed,as well as the characteristics of CBM production.Bycomparing the current situation of CBM exploitation in China with that in the United States,the current technology and characteristics of the CBM exploitation in China were summarizedand the major technical problems of coal mine gas control and CBM exploitationanalyzed.It was emphasized that the CBM exploitation in China should adopt the coalmine gas drainage method coordinated with coal mine exploitation as the main model.Itwas proposed that coal mine gas control should be coordinated with coal mine gas exploitation.The technical countermeasure should be integrating the exploitation of coal andCBM and draining gas before coal mining. 展开更多
关键词 control of coal mine gas coordinated exploitation coal bed methane technical countermeasures
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