邀您投票 |《煤炭科学技术》2023年度高影响力论文评选
为繁荣煤炭科技,活跃学术气氛,发现优秀人才,鼓励广大煤炭科技工作者把代表性学术成果发表在祖国大地上,经编委会同意,本刊根据《<煤炭科学技术>年度高影响力论文评选办法》,秉承独立、公正、客观的原则,遵循科学、专业的方法和合理、规范的程序,采用定量评价与定性评价相结合的方式,从本刊2021、2022年正式刊出的论文中,根据论文在中国知网的数据表现,遴选60篇论文入围本轮投票,终评后最终确定40篇论文入围2023年度高影响力论文。投票将于2023年12月31日24:00截止,论文评选结果将在“煤炭科学技术”微信公众号公布,并由编辑部颁发荣誉证书。
希望喜欢支持《煤炭科学技术》的读者,关注并参与本次活动,积极转发投票页面,选出您心目中的《煤炭科学技术》2023年度高影响力论文。
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnovp2qtblAic18bcpDtwwDReFIicYk06A4ltdg89CblFByTqW0fe1SeqTA.sz_jpg">王国法,徐亚军,张金虎等.煤矿智能化开采新进展[J].煤炭科学技术,2021,49(01):1-10.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnocH5wHnbHoHWakDNibb3lYUZ7iabXhdU9gSbt9yJ9jBafRUicHgcbGfVXA.sz_jpg">顾大钊,李庭,李井峰等.我国煤矿矿井水处理技术现状与展望[J].煤炭科学技术,2021,49(01):11-18.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoG7V5qE0ZDP3KXdMfZoqY2xWv8vCPDlyEEiaAicAHtyxS0fXxczbE0hhw.sz_jpg">中深部煤层开采对地表生态环境的影响及修复提升途径研究王双明,侯恩科,谢晓深等.中深部煤层开采对地表生态环境的影响及修复提升途径研究[J].煤炭科学技术,2021,49(01):19-31.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrno3cUuQTIicHFWlhw9atYicb8icq7JH95R0ia9H9TZlQ6lXDtoxMoEBGuiaXw.sz_jpg">刘志强,宋朝阳,程守业等.我国反井钻机钻井技术与装备发展历程及现状[J].煤炭科学技术,2021,49(01):32-65.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoCBHLwPyNPnNM9op4LXcRNDq9zibDoDK6ic3WQVyea0SNBicdVde3XaWDQ.sz_jpg">秦波涛,仲晓星,王德明等.煤自燃过程特性及防治技术研究进展[J].煤炭科学技术,2021,49(01):66-99.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnox7W68WNfhNDl76wDEDXBM0puEs0sYORj9kqIwAxicH7HoQgFiapRU7Kg.sz_jpg">解强,张香兰,梁鼎成等.煤基活性炭定向制备:原理·方法·应用[J].煤炭科学技术,2021,49(01):100-127.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrno2R0tCjFNdTEdTm5CFQVkzGibh9z2QxA50ibicsRBTyNmKv98H41qia9W4A.sz_jpg">李伟.深部煤炭资源智能化开采技术现状与发展方向[J].煤炭科学技术,2021,49(01):139-145.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnokNBRyCniaKZviceUAR8iaK5m9yrQhhkjogSj2zgbsENB8o1iaA4puumtrQ.sz_jpg">程远平,周红星.煤与瓦斯突出预测敏感指标及其临界值研究进展[J].煤炭科学技术,2021,49(01):146-154.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoNLECxh5jzxHO1oIMX5tCkBR7lvsuibyntPHqhE7HNpfT9SptnaRj7Cw.sz_jpg">孙希奎.“三下”采煤膏体充填开采技术研究[J].煤炭科学技术,2021,49(01):218-224.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnot1ia9C2iapC28Yg674iagY9O7qtWx8LIE7AFnpgUYHCllpJOEL7ia6SRUg.sz_jpg">王兆丰,席杰,陈金生等.底板岩巷穿层钻孔一孔多用瓦斯抽采时效性研究[J].煤炭科学技术,2021,49(01):248-256.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnomCUCEOPaBysFR16sAiaPkfx6IUHK5B5uklz7lO4dZiaZZ8rgqvzU0Scw.sz_jpg">黄艳利,王文峰,卞正富.新疆煤基固体废弃物处置与资源化利用研究[J].煤炭科学技术,2021,49(01):319-330.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrno040ib5yj8IkLOI7w5AK5EG53AKTGtYaxxy2vbRa4DSL9kk7V7xEBcZQ.sz_jpg">徐刚,黄志增,范志忠等.工作面顶板灾害类型、监测与防治技术体系[J].煤炭科学技术,2021,49(02):1-11.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoMOmaBm6qOVV7YWVqZfA2pXqqHs7rJqhbiaDafibC07t8mRowry2AiaAvA.sz_jpg">李梅,姜展,姜龙飞等.三维可视化技术在智慧矿山领域的研究进展[J].煤炭科学技术,2021,49(02):153-162.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoAM3yMSib4mOZicfia1kp4PNicXIxe0KRZHvtzkQRhKj5B2KYia1dllDexUw.sz_jpg">宋选民,朱德福,王仲伦等.我国煤矿综放开采40年:理论与技术装备研究进展[J].煤炭科学技术,2021,49(03):1-29.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoX4wlGNqR28q1hYXEoqAzQib2OcIdkibicDU6yicOOJ7xndtnKSM5ntPOIA.sz_jpg">康红普.煤矿巷道支护与加固材料的发展及展望[J].煤炭科学技术,2021,49(04):1-11.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnofTf9tibAfugA1Vo9x1kb2ML2ruEazZibTNr2Nkmmnc9seplVFgjbgsWg.sz_jpg">李首滨,李森,张守祥等.综采工作面智能感知与智能控制关键技术与应用[J].煤炭科学技术,2021,49(04):28-39.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoMIunR4JmKqh0xW1nNep1sVGYP83wDhvQl1RWD6l66V3gONqRdC4ibkw.sz_jpg">梁运涛,陈成锋,田富超等.甲烷气体检测技术及其在煤矿中的应用[J].煤炭科学技术,2021,49(04):40-48.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrno0CoAlibEIjfa6hrZ3Skuhg4g4CRR4EiaDHXEFiaq8NMAU273SHZ033ADQ.sz_jpg">黄曾华.综采装备单机智能化向智能协同模式转型的探索研究[J].煤炭科学技术,2021,49(04):169-175.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnogHnBzg3ibUNsuYIxdxN6oFdciaicOYTQicHmY2ibBUCic4M6IRTom3C3g1jQ.sz_jpg">王亮,廖晓雪,褚鹏等.瓦斯抽采穿层钻孔钻扩造穴卸压增透机理研究[J].煤炭科学技术,2021,49(05):75-82.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnogHJmT7xK3NDIdvVEsXy8V2XncibSGH9ic1rCQO0skhV5ulFdicTRicexeA.sz_jpg">潘一山,高学鹏,王伟等.冲击地压矿井综采工作面两巷超前支护液压支架研究[J].煤炭科学技术,2021,49(06):1-12.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoBWGoljLQIYXMK4ibhgvbaYibu5ibibBXl6P3BApvK73x9aLkN8GdOvX4Uw.sz_jpg">窦林名,曹晋荣,曹安业等.煤矿矿震类型及震动波传播规律研究[J].煤炭科学技术,2021,49(06):23-31.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoI98B0c5OSIfmwfxeO7Vt4zerdV9klqPguoUyuTU3JavXlNj58AyuIA.sz_jpg">潘俊锋,冯美华,卢振龙等.煤矿冲击地压综合监测预警平台研究及应用[J].煤炭科学技术,2021,49(06):32-41.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoqBHWCW7Cf9rvrwUmVnybcADEEjmgnRFgwdkFY5XMG7HcgKOibyrzZWw.sz_jpg">高明仕,贺永亮,徐东等.冲击地压巷道减隔震技术原理及应用[J].煤炭科学技术,2021,49(06):53-60.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrno4n6HTctkrt249SrmseGjRusVP95rPic3dU9J2MNHNkVCib9XIfOXEnAA.sz_jpg">张平松,欧元超,李圣林.我国矿井物探技术及装备的发展现状与思考[J].煤炭科学技术,2021,49(07):1-15.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoQumVyf1kX9Vk9eiaD8bs06YJ6RDQtyTBhZ6mVjGEfkN7aoRxLzU9Uvw.sz_jpg">高有进,杨艺,常亚军等.综采工作面智能化关键技术现状与展望[J].煤炭科学技术,2021,49(08):1-22.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrno90aiap3ILKMV3FmE2UQ7oOictrkibn5qajAyDibh5mY95T7FibTm8LibwDCA.sz_jpg">张宝优.极近距离煤层错层位巷道布置方式及围岩控制技术研究[J].煤炭科学技术,2021,49(08):88-95.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoNrP6SibT4INjnp9jqWB8MnfDmglU0u9zHsBtkqENWdmELkoQa6DATCQ.sz_jpg">王国法,任世华,庞义辉等.煤炭工业“十三五”发展成效与“双碳”目标实施路径[J].煤炭科学技术,2021,49(09):1-8.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrno05yPu30jfo3GsmGd1R3Yljo0uuQmtledQ0ic5bBolO570m4jO7wwqKQ.sz_jpg">侯恩科,陈育,车晓阳等.浅埋煤层过沟开采覆岩破坏特征及裂隙演化规律研究[J].煤炭科学技术,2021,49(10):185-192.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoz5n0sUUKJsXxiajgNh7tmYnFwm7tIdx2s8QqZOQagcaA9hDlgyNzLDw.sz_jpg">孙腾民,刘世奇,汪涛.中国二氧化碳地质封存潜力评价研究进展[J].煤炭科学技术,2021,49(11):10-20.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrno1Y31icrRAVkX9rPJgcB9IJNemnCEqS2ibC67nNs4KU4j7ia5MgdDrfRHQ.sz_jpg">姚强岭,汤传金,刘梓昌.我国西部生态脆弱矿区煤-水共采问题分析[J].煤炭科学技术,2021,49(12):225-232.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnotjPKcTIxvn2IYPv7Iicj6SNmofkCxgia49D0USJu8pv081b81f0gcGog.sz_jpg">李树刚,刘李东,赵鹏翔等.综采工作面覆岩压实区裂隙动态演化规律影响因素分析[J].煤炭科学技术,2022,50(01):95-104.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoI5hoEkgjKSOCR1icxGHrgIkbKP5FAdRsMMwbibMVXbic0n7SP2gMIJoDg.sz_jpg">李树志,李学良,尹大伟.碳中和背景下煤炭矿山生态修复的几个基本问题[J].煤炭科学技术,2022,50(01):286-292.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoUNic5zXoNibw6NGvqiaKufDgQVGZmdibolia8c0WGDLiaMtXH6Zic5NJ279bg.sz_jpg">何学秋,田向辉,宋大钊.煤层CO2安全封存研究进展与展望[J].煤炭科学技术,2022,50(01):212-219.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoXB2ITeYgicIheo1YfNuPl4Vxbo6njZYgpkl3m8uN26Z262fD1Rvy0pw.sz_jpg">曹现刚,刘思颖,王鹏等.面向煤矸分拣机器人的煤矸识别定位系统研究[J].煤炭科学技术,2022,50(01):237-246.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoWcZ1SSt7S4spfBrYiauRgObVibHefd57AXiatBia0kDicwLZUebwf12LxUg.sz_jpg">胡少银,刘泉声,李世辉等.裂隙岩体注浆理论研究进展及展望[J].煤炭科学技术,2022,50(01):112-126.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnofNcEfTPhyIoKXmougOzpFSVxWiaUuMJVv26HTTiaZcCKZNgHX9BLc9Iw.sz_jpg">李全生,李晓斌,许家林等.岩层采动裂隙演化规律与生态治理技术研究进展[J].煤炭科学技术,2022,50(01):28-47.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnojtPqgcJibt5liavjcGLInWg9re0gXkE8cxORNnCRHuEDBPegchshlc7w.sz_jpg">刘大锰,贾奇锋,蔡益栋.中国煤层气储层地质与表征技术研究进展[J].煤炭科学技术,2022,50(01):196-203.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoxjEzvO6Z68icXf7a57WS3vKbyoRbN5ulqicZLQ0blUW8R8HGapXte2gg.sz_jpg">大倾角高瓦斯煤层采动覆岩“三带”微震监测及瓦斯抽采效果孟祥军,赵鹏翔,王绪友等.大倾角高瓦斯煤层采动覆岩“三带”微震监测及瓦斯抽采效果[J].煤炭科学技术,2022,50(01):177-185.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoyqCwUmjYiboARmYUaHJQ6QdujvQRnD50bFIM3khYbhengc7KyXbolRA.sz_jpg">王恩元,李忠辉,李保林等.煤矿瓦斯灾害风险隐患大数据监测预警云平台与应用[J].煤炭科学技术,2022,50(01):142-150.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnokYxquznIJic2PYVwP9peYSv5bibNueQwF04kkvpef7YhB3kjkak1sic3Q.sz_jpg">王家臣,杨胜利,刘淑琴等.急倾斜煤层开采技术现状与流态化开采构想[J].煤炭科学技术,2022,50(01):48-59.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoPJev0GmzGR8IDW2eQiaziamNUwvEYDcJwVf8fZSz4HOWp65tVOiciaFqFw.sz_jpg">孟召平,李国富,田永东等.晋城矿区废弃矿井采空区煤层气地面抽采研究进展[J].煤炭科学技术,2022,50(01):204-211.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoSH24J37Jqq8fTKFOzKO7AkZZaZS10Po9Mo4ad7pwAfXTdKX4kkMRpQ.sz_jpg">王国法.煤矿智能化最新技术进展与问题探讨[J].煤炭科学技术,2022,50(01):1-27.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoHNV3PULplmnAkwlpOhS9E7m0RVeOpMzZQicFxEicoNzc2owW83eywAGA.sz_jpg">卸压瓦斯运移区“孔-巷”协同抽采布置参数优化及高效抽采赵鹏翔,康新朋,李树刚等.卸压瓦斯运移区“孔-巷”协同抽采布置参数优化及高效抽采[J].煤炭科学技术,2022,50(02):137-146.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnojicdqQqDmNqeos7Dfo65MoM6FRrNiaXwb8NYfC0oYzHToIP5GsMYrCNg.sz_jpg">陕北采煤沉陷区不同沉陷年限黄土坡面土壤可蚀性的变化规律宋世杰,杜麟,王双明等.陕北采煤沉陷区不同沉陷年限黄土坡面土壤可蚀性的变化规律[J].煤炭科学技术,2022,50(02):289-299.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnovX3CtxJnGdNYwicKrzvuWln5Y1NwolMs9K1jVp3yQmiaxeAXk5XOKSQw.sz_jpg">王世博,葛世荣,王世佳等.长壁综采工作面无人自主开采发展路径与挑战[J].煤炭科学技术,2022,50(02):231-243.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoTJyrvdJMIFYrsTEf9rGf4nn7ve4Cywaf3oZ4Hn1Cs0EvvsqfO4OCfA.sz_jpg">胡亚辉,赵国瑞,吴群英.面向煤矿智能化的5G关键技术研究[J].煤炭科学技术,2022,50(02):223-230.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrno0rDDxosCPyULqQU0jo4LpjZMK7naEIAUnA83OFSmfL51nC0OjlqgoQ.sz_jpg">张俊文,宋治祥,刘金亮等.煤矿深部开采冲击地压灾害结构调控技术架构[J].煤炭科学技术,2022,50(02):27-36.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoStG4JsiaxjFqLj1VV0JnDXK3omkRzpWdUDWP0Shke7krgBwGc2uVTcA.sz_jpg">王忠鑫,辛凤阳,宋波等.论露天煤矿智能化建设总体设计[J].煤炭科学技术,2022,50(02):37-46.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnosueRflGkJcAM2eHX6RMhcZacujUlibqspefJdWxLF3rGicG5Txr2bZOw.sz_jpg">张强,张润鑫,刘峻铭等.煤矿智能化开采煤岩识别技术综述[J].煤炭科学技术,2022,50(02):1-26.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnojB15xUC4Qy8LsLEKDg8pOGyKl9wVBwgH9o7K7SfGFMHUlaib8aN6WVg.sz_jpg">张鹏,朱学军,孙文斌等.采动诱发充填断层活化滞后突水机制研究[J].煤炭科学技术,2022,50(03):136-143.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnon4HL5xILJicqt6fggvSr4qsUp7rdPaibxIwh65sK64kkY4W8CtBIqRMA.sz_jpg">秦身钧,徐飞,崔莉等.煤型战略关键微量元素的地球化学特征及资源化利用[J].煤炭科学技术,2022,50(03):1-38.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnofoWhNX0MKicTvrb6JI2he05iaJzVyvaOxbdLibTiaxfqSQdARqy5d3WplQ.sz_jpg">胡超文,王俊虎,何满潮等.中厚煤层切顶卸压无煤柱自成巷技术关键参数研究[J].煤炭科学技术,2022,50(04):117-123.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoEOce9iaL5f9dKdKortvIfG4T6hG3LMu2quqxhQWGBK9ib4BibOHP1bAUA.sz_jpg">方崇全.煤矿带式输送机巡检机器人关键技术研究[J].煤炭科学技术,2022,50(05):263-270.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoC2mdMI4lxIF9wl8RmreWAnzzib21Vxc4fHUc0Cune4GMYJLZyr3uFbw.sz_jpg">张建中,郭军.智慧矿山工业互联网技术架构探讨[J].煤炭科学技术,2022,50(05):238-246.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrno69pM4MOweMib7ibMuQjElatZwL85psGzbb96iawtmwZIA35B5eeiaNl6Mw.sz_jpg">李桂臣,杨森,孙元田等.复杂条件下巷道围岩控制技术研究进展[J].煤炭科学技术,2022,50(06):29-45.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoEE52N4ITxnDoyvGgYGWrmDwKuMyJPFG36lAKVBb2Tn8xpHpC6u1sRA.sz_jpg">柏建彪,张自政,王襄禹等.高水材料充填沿空留巷应力控制与围岩强化机理及应用[J].煤炭科学技术,2022,50(06):16-28.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoIEeCAZbbibfl7R3CYBbp2ic2l11u1QgLfqljEvvkfYl4ba2W7V83fiawg.sz_jpg">康红普,姜鹏飞,冯彦军等.煤矿巷道围岩卸压技术及应用[J].煤炭科学技术,2022,50(06):1-15.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnolTA2GyFdmicTw5FAFNfucLSAzOAEfp2b0aTHR6nF45jhNsF4agw4qmg.sz_jpg">张旭辉,吕欣媛,王甜等.数字孪生驱动的掘进机器人决策控制系统研究[J].煤炭科学技术,2022,50(07):36-49.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnocqVvnW4sFbtABaiapa0oRDzGpGInbfKbAGOzsJ5xDiadeHea45Oakibjw.sz_jpg">刘艳丽,李强,陈占飞等.煤气化渣特性分析及综合利用研究进展[J].煤炭科学技术,2022,50(11):251-257.
2023-12-21/9v5IyrChCwLU7MSjFuFX7MiahGPoBmrnoplfLjNwtibdKFHicgQxYjag8zibY70l44S9LulicmEJuDxZIVF8FnicIiaQQ.sz_jpg">王海军,王洪磊.带式输送机智能化关键技术现状与展望[J].煤炭科学技术,2022,50(12):225-239.
2021年度入围论文 (30篇选20篇)","options":[{"name":"煤矿智能化开采新进展","url":"","cnt":0},{"name":"我国煤矿矿井水处理技术现状与展望","url":"","cnt":0},{"name":"中深部煤层开采对地表生态环境的影响及修复提升途径研究","url":"","cnt":0},{"name":"我国反井钻机钻井技术与装备发展历程及现状","url":"","cnt":0},{"name":"煤自燃过程特性及防治技术研究进展","url":"","cnt":0},{"name":"煤基活性炭定向制备:原理·方法·应用","url":"","cnt":0},{"name":"深部煤炭资源智能化开采技术现状与发展方向","url":"","cnt":0},{"name":"煤与瓦斯突出预测敏感指标及其临界值研究进展","url":"","cnt":0},{"name":"“三下”采煤膏体充填开采技术研究","url":"","cnt":0},{"name":"底板岩巷穿层钻孔一孔多用瓦斯抽采时效性研究","url":"","cnt":0},{"name":"新疆煤基固体废弃物处置与资源化利用研究","url":"","cnt":0},{"name":"工作面顶板灾害类型、监测与防治技术体系","url":"","cnt":0},{"name":"三维可视化技术在智慧矿山领域的研究进展","url":"","cnt":0},{"name":"我国煤矿综放开采40年:理论与技术装备研究进展","url":"","cnt":0},{"name":"煤矿巷道支护与加固材料的发展及展望","url":"","cnt":0},{"name":"综采工作面智能感知与智能控制关键技术与应用","url":"","cnt":0},{"name":"甲烷气体检测技术及其在煤矿中的应用","url":"","cnt":0},{"name":"综采装备单机智能化向智能协同模式转型的探索研究","url":"","cnt":0},{"name":"瓦斯抽采穿层钻孔钻扩造穴卸压增透机理研究","url":"","cnt":0},{"name":"冲击地压矿井综采工作面两巷超前支护液压支架研究","url":"","cnt":0},{"name":"煤矿矿震类型及震动波传播规律研究","url":"","cnt":0},{"name":"煤矿冲击地压综合监测预警平台研究及应用","url":"","cnt":0},{"name":"冲击地压巷道减隔震技术原理及应用","url":"","cnt":0},{"name":"我国矿井物探技术及装备的发展现状与思考","url":"","cnt":0},{"name":"综采工作面智能化关键技术现状与展望","url":"","cnt":0},{"name":"极近距离煤层错层位巷道布置方式及围岩控制技术研究","url":"","cnt":0},{"name":"煤炭工业“十三五”发展成效与“双碳”目标实施路径","url":"","cnt":0},{"name":"浅埋煤层过沟开采覆岩破坏特征及裂隙演化规律研究","url":"","cnt":0},{"name":"中国二氧化碳地质封存潜力评价研究进展","url":"","cnt":0},{"name":"我国西部生态脆弱矿区煤-水共采问题分析","url":"","cnt":0}],"total_cnt":0},{"type":2,"title":"2022年度入围论文 (30篇选20篇)","options":[{"name":"综采工作面覆岩压实区裂隙动态演化规律影响因素分析","url":"","cnt":0},{"name":"碳中和背景下煤炭矿山生态修复的几个基本问题","url":"","cnt":0},{"name":"煤层CO_2安全封存研究进展与展望","url":"","cnt":0},{"name":"面向煤矸分拣机器人的煤矸识别定位系统研究","url":"","cnt":0},{"name":"裂隙岩体注浆理论研究进展及展望","url":"","cnt":0},{"name":"岩层采动裂隙演化规律与生态治理技术研究进展","url":"","cnt":0},{"name":"中国煤层气储层地质与表征技术研究进展","url":"","cnt":0},{"name":"大倾角高瓦斯煤层采动覆岩“三带”微震监测及瓦斯抽采效果","url":"","cnt":0},{"name":"煤矿瓦斯灾害风险隐患大数据监测预警云平台与应用","url":"","cnt":0},{"name":"急倾斜煤层开采技术现状与流态化开采构想","url":"","cnt":0},{"name":"晋城矿区废弃矿井采空区煤层气地面抽采研究进展","url":"","cnt":0},{"name":"煤矿智能化最新技术进展与问题探讨","url":"","cnt":0},{"name":"卸压瓦斯运移区“孔-巷”协同抽采布置参数优化及高效抽采","url":"","cnt":0},{"name":"陕北采煤沉陷区不同沉陷年限黄土坡面土壤可蚀性的变化规律","url":"","cnt":0},{"name":"长壁综采工作面无人自主开采发展路径与挑战","url":"","cnt":0},{"name":"面向煤矿智能化的5G关键技术研究","url":"","cnt":0},{"name":"煤矿深部开采冲击地压灾害结构调控技术架构","url":"","cnt":0},{"name":"论露天煤矿智能化建设总体设计","url":"","cnt":0},{"name":"煤矿智能化开采煤岩识别技术综述","url":"","cnt":0},{"name":"采动诱发充填断层活化滞后突水机制研究","url":"","cnt":0},{"name":"煤型战略关键微量元素的地球化学特征及资源化利用","url":"","cnt":0},{"name":"中厚煤层切顶卸压无煤柱自成巷技术关键参数研究","url":"","cnt":0},{"name":"煤矿带式输送机巡检机器人关键技术研究","url":"","cnt":0},{"name":"智慧矿山工业互联网技术架构探讨","url":"","cnt":0},{"name":"复杂条件下巷道围岩控制技术研究进展","url":"","cnt":0},{"name":"高水材料充填沿空留巷应力控制与围岩强化机理及应用","url":"","cnt":0},{"name":"煤矿巷道围岩卸压技术及应用","url":"","cnt":0},{"name":"数字孪生驱动的掘进机器人决策控制系统研究","url":"","cnt":0},{"name":"煤气化渣特性分析及综合利用研究进展","url":"","cnt":0},{"name":"带式输送机智能化关键技术现状与展望","url":"","cnt":0}],"total_cnt":0}]" data-delflag="0" style="animation: initial;transition: initial;color: initial;color-scheme: initial;font: initial;font-feature-settings: initial;font-kerning: initial;font-optical-sizing: initial;font-variation-settings: initial;text-orientation: initial;text-rendering: initial;-webkit-font-smoothing: initial;-webkit-locale: initial;-webkit-text-orientation: initial;-webkit-writing-mode: initial;writing-mode: initial;zoom: initial;place-content: initial;place-items: initial;place-self: initial;alignment-baseline: initial;appearance: initial;backdrop-filter: initial;backface-visibility: initial;background-image: initial;background-position: initial;background-size: initial;background-repeat: initial;background-attachment: initial;background-origin: initial;background-clip: initial;background-blend-mode: initial;baseline-shift: initial;block-size: initial;border-block-end: initial;border-block-start: initial;border-color: initial;border-style: initial;border-width: initial;border-radius: initial;border-collapse: initial;border-inline-end: initial;border-inline-start: initial;bottom: initial;box-shadow: initial;break-after: initial;break-before: initial;break-inside: initial;buffered-rendering: initial;caption-side: initial;caret-color: initial;clear: initial;clip: initial;clip-path: initial;clip-rule: initial;color-interpolation: initial;color-interpolation-filters: initial;color-rendering: initial;columns: initial;column-fill: initial;gap: initial;column-rule: initial;column-span: initial;contain: initial;contain-intrinsic-size: initial;content: initial;content-visibility: initial;counter-increment: initial;counter-reset: initial;counter-set: initial;cursor: initial;cx: initial;cy: initial;d: initial;dominant-baseline: initial;empty-cells: initial;fill: initial;fill-opacity: initial;fill-rule: initial;flex: initial;flex-flow: initial;float: initial;flood-color: initial;flood-opacity: initial;grid: initial;grid-area: initial;height: initial;hyphens: initial;image-orientation: initial;image-rendering: initial;inline-size: initial;isolation: initial;left: initial;letter-spacing: initial;lighting-color: initial;line-break: initial;list-style: initial;margin-block-end: initial;margin-block-start: initial;margin-inline-end: initial;margin-inline-start: initial;marker: initial;mask: initial;mask-type: initial;max-block-size: initial;max-height: initial;max-inline-size: initial;min-block-size: initial;min-height: initial;min-inline-size: initial;min-width: initial;mix-blend-mode: initial;object-fit: initial;object-position: initial;offset: initial;opacity: initial;order: initial;orphans: initial;outline: initial;outline-offset: initial;overflow-anchor: initial;overflow: initial;overscroll-behavior-block: initial;overscroll-behavior-inline: initial;overscroll-behavior: initial;padding-block-end: initial;padding-block-start: initial;padding-inline-end: initial;padding-inline-start: initial;page: initial;page-orientation: initial;paint-order: initial;perspective: initial;perspective-origin: initial;pointer-events: initial;quotes: initial;r: initial;resize: initial;right: initial;ruby-position: initial;rx: initial;ry: initial;scroll-behavior: initial;scroll-margin-block: initial;scroll-margin: initial;scroll-margin-inline: initial;scroll-padding-block: initial;scroll-padding: initial;scroll-padding-inline: initial;scroll-snap-align: initial;scroll-snap-stop: initial;scroll-snap-type: initial;shape-image-threshold: initial;shape-margin: initial;shape-outside: initial;shape-rendering: initial;size: initial;speak: initial;stop-color: initial;stop-opacity: initial;stroke: initial;stroke-dasharray: initial;stroke-dashoffset: initial;stroke-linecap: initial;stroke-linejoin: initial;stroke-miterlimit: initial;stroke-opacity: initial;stroke-width: initial;tab-size: initial;table-layout: initial;text-align: initial;text-align-last: initial;text-anchor: initial;text-combine-upright: initial;text-decoration: initial;text-decoration-skip-ink: initial;text-indent: initial;text-overflow: initial;text-shadow: initial;text-size-adjust: inherit;text-underline-position: initial;top: initial;touch-action: initial;transform-box: initial;transform-origin: initial;transform-style: initial;user-select: initial;vector-effect: initial;vertical-align: initial;visibility: initial;-webkit-app-region: initial;border-spacing: initial;-webkit-border-image: initial;-webkit-box-align: initial;-webkit-box-decoration-break: initial;-webkit-box-direction: initial;-webkit-box-flex: initial;-webkit-box-ordinal-group: initial;-webkit-box-orient: initial;-webkit-box-pack: initial;-webkit-box-reflect: initial;-webkit-highlight: initial;-webkit-hyphenate-character: initial;-webkit-line-break: initial;-webkit-line-clamp: initial;-webkit-mask-box-image: initial;-webkit-mask: initial;-webkit-mask-composite: initial;-webkit-perspective-origin-x: initial;-webkit-perspective-origin-y: initial;-webkit-print-color-adjust: initial;-webkit-rtl-ordering: initial;-webkit-ruby-position: initial;-webkit-tap-highlight-color: initial;-webkit-text-combine: initial;-webkit-text-decorations-in-effect: initial;-webkit-text-emphasis: initial;-webkit-text-emphasis-position: initial;-webkit-text-fill-color: initial;-webkit-text-security: initial;-webkit-text-stroke: initial;-webkit-transform-origin-x: initial;-webkit-transform-origin-y: initial;-webkit-transform-origin-z: initial;-webkit-user-drag: initial;-webkit-user-modify: initial;white-space: initial;widows: initial;width: 100%;will-change: initial;word-break: initial;word-spacing: initial;x: initial;y: initial;z-index: initial;transform: initial;">
关键词:煤炭科学技术 202 研究进展 煤矿智能化 综采工作面 现状与展望
特别声明:
本文转载仅仅是出于传播信息的需要,并不意味着代表本网站观点或证实其内容的真实性;如其他媒体、网站或个人从本网站转载使用,须保留本网站注明的“来源”,并自负版权等法律责任;作者如果不希望被转载或者联系转载稿费等事宜,请与我们接洽。
更多精彩内容,关注“传煤”微信公众号,或点击“期刊群”免费获取科研论文
用微信扫描左侧二维码,关注“传煤”公众号,第一时间获取煤炭行业新鲜资讯,享全方位煤炭科技知识信息服务。
