èŠ‚ç‚¹æ–‡çŒ®

å¹²æ—±çŸ¿åŒºé‡‡åŠ¨é¡¶æ¿å¯¼æ°´è£‚éš™çš„æ¼”åŒ–è§„å¾‹åŠä¿æ°´é‡‡ç…¤æ„ä¹‰

Law of mining induced water conduction fissure in arid mining area and its significance in water-preserved coal mining

æŽ¨è CAJä¸‹è½½
PDFä¸‹è½½
ä¸æ”¯æŒè¿…é›·ç‰ä¸‹è½½å·¥å…·ï¼Œè¯·å–æ¶ˆåŠ é€Ÿå·¥å…·åŽä¸‹è½½ã€‚

ã€ä½œè€…ã€‘ å¾æ™ºæ•ï¼› å™äºšå†›ï¼› é«˜å°šï¼› å¼ æˆè¡Œï¼› æ¯•ç…œï¼› é™ˆå¿ èƒœï¼› å´æ±Ÿå³°ï¼›

ã€Authorã€‘ XU Zhimin;SUN Yajun;GAO Shang;ZHANG Chenghang;BI Yu;CHEN Zhongsheng;WU Jiangfeng;School of Resources and Geosciences,China University of Mining and Technology;Xuzhou Coal Mining Group;

ã€æœºæž„ã€‘ ä¸å›½çŸ¿ä¸šå¤§å¦èµ„æºä¸Žåœ°çƒç§‘å¦å¦é™¢ï¼› å¾å·žçŸ¿åŠ¡é›†å›¢å…¬å¸ï¼›

ã€æ‘˜è¦ã€‘ éšç€æˆ‘å›½ç…¤ç‚èµ„æºå¼€å‘é‡å¿ƒçš„é€æ¥è¥¿ç§»,è¥¿éƒ¨åœ°åŒºç›®å‰å·²æˆä¸ºæˆ‘å›½ç…¤ç‚çš„ä¸»äº§åŒºã€‚æ€»ä½“ä¸Š,æˆ‘å›½è¥¿éƒ¨çŸ¿åŒºé™é›¨ç¨€å°‘ã€è’¸å‘å¼ºçƒˆ,å½¢æˆäº†è¯¥åŒºæžåº¦å¹²æ—±ç¼ºæ°´ã€ç”Ÿæ€çŽ¯å¢ƒè„†å¼±çš„åŸºæœ¬ç‰¹å¾ã€‚ä»¥æ–°ç–†å“ˆå¯†ç…¤ç”°å¤§å—æ¹–çŸ¿åŒºä¸ºä¾‹,é’ˆå¯¹è¯¥åŒºä¾ç½—ç³»å«ç…¤åœ°å±‚å…·æœ‰æˆå²©æ—¶é—´æ™šã€ç‰©ç†åŠ›å¦å¼ºåº¦ä½Žã€é‡æ°´æ˜“æ³¥åŒ–å´©è§£ç‰ç‰¹å¾,é‡‡ç”¨ç›¸ä¼¼ææ–™æ¨¡æ‹Ÿã€æ•°å€¼æ¨¡æ‹Ÿç‰æ‰‹æ®µ,ç»“åˆé‚»çŸ¿çŽ°åœºå®žæµ‹å¯¹æ¯”,å…¨é¢ç ”ç©¶äº†è¯¥åŒºé¡¶æ¿é‡‡åŠ¨å¯¼æ°´è£‚éš™çš„å‘è‚²ä¸Žæ¼”åŒ–è¿‡ç¨‹ã€å‘è‚²é«˜åº¦ä¸Žå½¢æ€ç‰¹å¾ã€æ¸—é€æ€§æ¼”åŒ–è§„å¾‹ä»¥åŠåœ¨è¯¥åŒºè¿›è¡Œæ°´èµ„æºä¿æŠ¤æ€§å¼€é‡‡(ä¿æ°´é‡‡ç…¤)çš„å¯è¡Œæ€§ã€‚ç ”ç©¶ç»“æžœè¡¨æ˜Ž:ç ”ç©¶åŒºä¾ç½—ç³»å«ç…¤åœ°å±‚é‡‡åŠ¨å¯¼æ°´è£‚éš™çš„å‘è‚²è£‚é‡‡æ¯”ä¸€èˆ¬åœ¨13.09ï½ž15.67,æ•´ä½“å½¢æ€å‘ˆ"æ¢¯å°åž‹"ç‰¹å¾;é‡‡åŠ¨å½±å“èŒƒå›´å†…è£‚éš™å‘è‚²ã€æ¼”åŒ–ä»¥åŠæ¸—é€ç³»æ•°çš„æ¼”åŒ–å‡å‘ˆçŽ°"ç¨³å®šå¢žåŠ -æ³¢åŠ¨å˜åŒ–-æ¢å¤ç¨³å®š"å˜åŒ–ç‰¹å¾,å¯¼é«˜å½±å“èŒƒå›´å†…å«æ°´å±‚çš„æ¸—é€ç³»æ•°æ˜Žæ˜¾å¢žå¤§,ä¸€èˆ¬è¾¾åˆ°3ï½ž5å€;ç ”ç©¶åŒºä¸»é‡‡ç…¤å±‚é¡¶æ¿å…·æœ‰"å¤šå«æ°´ç»“æž„ä¸‹çš„é«˜ä½éš”æ°´å±‚"ç»“æž„ç‰¹å¾,å…·å¤‡äº†ä¿æ°´çš„åŸºæœ¬æ°´æ–‡åœ°è´¨å‰ææ¡ä»¶;ç»“åˆä¿æŠ¤å±‚çš„ç¨³å®šæ€§ã€III-1ä¸Šæ®µå«æ°´å±‚çš„é™å‚¨é‡ã€å¼€å‘æ½œåŠ›ä»¥åŠåœ¨ç ”ç©¶åŒºè¿›è¡Œä¿æ°´é‡‡ç…¤å¯è¡Œæ€§çš„ç»¼åˆè¯„ä»·,æŽ¢è®¨äº†åœ¨å¹²æ—±çŸ¿åŒºæ°´èµ„æºä¿æŠ¤æ€§å¼€é‡‡çš„é‡è¦æ„ä¹‰ã€‚æ›´å¤š è¿˜åŽŸ

ã€Abstractã€‘ With the focus on the gradual westward shifting of coal resources development in China,the western region has become the main production areas.In general,the ecological environment is relatively weak due to the low precipitation and high evaporation.Taking the Dananhumining area in Hami coalfield,Xinjiang,as an example,in view of the late diagenesis time,low physical intensity and easily muddy disintegration of Jurassic coal-rich strata in this area,similar material simulation and numerical simulation are used.Based on the field observation and comparison of the neighboring coalmines,several significant rules are studied including the development and evolution process,the development height and morphological characteristics,the permeability evolution law in roof water flowing fractured zone and the water protection during coal mining( water-preserved mining).The results shows that in the Jurassic coal-rich strata,the development ratio of water flowing fractured fissure is generally between 13.09 and 15.67,and the overall morphology is characterized by "terrace-type".Fracture and permeability coefficient evolution in the range of mining impacts reflect the characteristics of "stable increase-fluctuation-recovery stability",and the permeability coefficient of aquifer increases obviously reaching 3-5 times within the influence range of the height of water flowing fractured zone.The main coal seam roof in the study area has the"high aquifuge under multi-aquifer structure"structural characteristics,which possess the basic hydro-geological preconditions for water retention.Combined with the protection seamâ€™stability,the upper aquifer of iii-1 static reserves,the development potential and the comprehensive evaluation of the water-preserved mining feasibility in the research area,and the significance of water protection during coal mining in arid mining area are discussed.æ›´å¤š è¿˜åŽŸ

ã€å…³é”®è¯ã€‘ å¹²æ—±çŸ¿åŒºï¼› ä¾ç½—ç³»ï¼› æ°´æ–‡åœ°è´¨ç»“æž„ï¼› å¯¼æ°´è£‚éš™ï¼› æ°´æ–‡åœ°è´¨æ•ˆåº”ï¼› ä¿æ°´é‡‡ç…¤ï¼›
ã€Key wordsã€‘ arid mining areaï¼› Jurassic Strataï¼› hydro-geological structureï¼› water conduction fissureï¼› hy-dro-geological effectï¼› water-preserved coal miningï¼›

ã€åŸºé‡‘ã€‘ å›½å®¶é‡ç‚¹ç ”å‘è®¡åˆ’èµ„åŠ©é¡¹ç›®(2017YFC0804101);å›½å®¶è‡ªç„¶ç§‘å¦åŸºé‡‘èµ„åŠ©é¡¹ç›®(U1710253);å›½å®¶é‡ç‚¹åŸºç¡€ç ”ç©¶å‘å±•è®¡åˆ’(973)èµ„åŠ©é¡¹ç›®(2013CB227901)

ã€æ–‡çŒ®å‡ºå¤„ã€‘ ç…¤ç‚å¦æŠ¥ ,Journal of China Coal Society , ç¼–è¾‘éƒ¨é‚®ç®± ,2019å¹´03æœŸ

ã€åˆ†ç±»å·ã€‘TD82
ã€è¢«å¼•é¢‘æ¬¡ã€‘29
ã€ä¸‹è½½é¢‘æ¬¡ã€‘474

çŸ¥ç½‘èŠ‚ä¸‹è½½

èŠ‚ç‚¹æ–‡çŒ®ä¸ï¼š

æœ¬æ–‡é“¾æŽ¥çš„æ–‡çŒ®ç½‘ç»œå›¾ç¤º:

æœ¬æ–‡çš„å¼•æ–‡ç½‘ç»œ

èŠ‚ç‚¹æ–‡çŒ®

èŠ‚ç‚¹æ–‡çŒ®

å¹²æ—±çŸ¿åŒºé‡‡åŠ¨é¡¶æ¿å¯¼æ°´è£‚éš™çš„æ¼”åŒ–è§„å¾‹åŠä¿æ°´é‡‡ç…¤æ„ä¹‰

Law of mining induced water conduction fissure in arid mining area and its significance in water-preserved coal mining

æœ¬æ–‡é“¾æŽ¥çš„æ–‡çŒ®ç½‘ç»œå›¾ç¤º:

å¹²æ—±çŸ¿åŒºé‡‡åŠ¨é¡¶æ¿å¯¼æ°´è£‚éš™çš„æ¼”åŒ–è§„å¾‹åŠä¿æ°´é‡‡ç…¤æ„ä¹‰