FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2055321291> ?p ?o ?g. }

• W2055321291 endingPage "75" @default.
• W2055321291 startingPage "70" @default.
• W2055321291 abstract "Abstract Coal mining operations in China are often threatened by the invasion of the groundwater into the mining panels. The most likely water disaster affecting the safe operation of coal mines is water from Cenozoic porous aquifers in the alluvial plain areas flooding into the mine. The problem will become very serious when the mining-induced water-conducting fractured zone penetrates upwards into the aquifers, since it provides access for water inflow into the mine working panels. Therefore, it is of crucial importance to determine water-conducting fractured zones for predicting and preventing flooding in coal mines during mining. However, most Chinese coal mines have little technical equipment for monitoring such thing or professional staff to use such equipment. Such situations are even more serious in small coal companies. So a simple, manually operated instrument that has the advantage of being intrinsically safe and can be operated in gassy underground coal mines is popular in China. The instrument, named Double-End Blocking (DEB) device, measures the injected water loss rate along the borehole while the borehole is blocked on both ends and water is pumped in it. Comparing injected water loss rate between pre- and post-mining, the water-conducting fractured zone enhancement can be detected because the water loss rate will be larger in the stratum where the water-conducting fracture happened. In this paper we used the instrument to detect overlying strata water-conducting fractured zone height in one coal mine, which operated beneath a water-bearing alluvium. The overlying Cenozoic porous aquifer is a deadly threat. The results show that the instrument provides a simple and efficient method to determine the water-conducting fractured zone." @default.
• W2055321291 created "2016-06-24" @default.
• W2055321291 creator A5058152911 @default.
• W2055321291 creator A5074136616 @default.
• W2055321291 date "2012-01-01" @default.
• W2055321291 modified "2023-10-16" @default.
• W2055321291 title "A Simple and Efficient Way to Detect the Mining Induced Water-conducting Fractured Zone in Overlying Strata" @default.
• W2055321291 cites W1981549545 @default.
• W2055321291 cites W1996971979 @default.
• W2055321291 cites W2015200982 @default.
• W2055321291 cites W2024437214 @default.
• W2055321291 cites W2028644348 @default.
• W2055321291 cites W2065606873 @default.
• W2055321291 cites W2069956677 @default.
• W2055321291 cites W2075038261 @default.
• W2055321291 cites W2096169907 @default.
• W2055321291 doi "https://doi.org/10.1016/j.egypro.2012.01.013" @default.
• W2055321291 hasPublicationYear "2012" @default.
• W2055321291 type Work @default.
• W2055321291 sameAs 2055321291 @default.
• W2055321291 citedByCount "16" @default.
• W2055321291 countsByYear W20553212912014 @default.
• W2055321291 countsByYear W20553212912016 @default.
• W2055321291 countsByYear W20553212912017 @default.
• W2055321291 countsByYear W20553212912018 @default.
• W2055321291 countsByYear W20553212912019 @default.
• W2055321291 countsByYear W20553212912020 @default.
• W2055321291 countsByYear W20553212912021 @default.
• W2055321291 countsByYear W20553212912022 @default.
• W2055321291 crossrefType "journal-article" @default.
• W2055321291 hasAuthorship W2055321291A5058152911 @default.
• W2055321291 hasAuthorship W2055321291A5074136616 @default.
• W2055321291 hasBestOaLocation W20553212911 @default.
• W2055321291 hasConcept C111472728 @default.
• W2055321291 hasConcept C127313418 @default.
• W2055321291 hasConcept C138885662 @default.
• W2055321291 hasConcept C16674752 @default.
• W2055321291 hasConcept C187320778 @default.
• W2055321291 hasConcept C2780586882 @default.
• W2055321291 hasConcept C78762247 @default.
• W2055321291 hasConceptScore W2055321291C111472728 @default.
• W2055321291 hasConceptScore W2055321291C127313418 @default.
• W2055321291 hasConceptScore W2055321291C138885662 @default.
• W2055321291 hasConceptScore W2055321291C16674752 @default.
• W2055321291 hasConceptScore W2055321291C187320778 @default.
• W2055321291 hasConceptScore W2055321291C2780586882 @default.
• W2055321291 hasConceptScore W2055321291C78762247 @default.
• W2055321291 hasLocation W20553212911 @default.
• W2055321291 hasOpenAccess W2055321291 @default.
• W2055321291 hasPrimaryLocation W20553212911 @default.
• W2055321291 hasRelatedWork W1965098529 @default.
• W2055321291 hasRelatedWork W2167908608 @default.
• W2055321291 hasRelatedWork W2315322488 @default.
• W2055321291 hasRelatedWork W2352858483 @default.
• W2055321291 hasRelatedWork W2380669628 @default.
• W2055321291 hasRelatedWork W2508532851 @default.
• W2055321291 hasRelatedWork W2512198292 @default.
• W2055321291 hasRelatedWork W2513955658 @default.
• W2055321291 hasRelatedWork W4250024321 @default.
• W2055321291 hasRelatedWork W2466970129 @default.
• W2055321291 hasVolume "16" @default.
• W2055321291 isParatext "false" @default.
• W2055321291 isRetracted "false" @default.
• W2055321291 magId "2055321291" @default.
• W2055321291 workType "article" @default.