05782nam 2201489z- 450 991055761630332120220321(CKB)5400000000045238(oapen)https://directory.doabooks.org/handle/20.500.12854/79595(oapen)doab79595(EXLCZ)99540000000004523820202203d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierMining Technologies Innovative DevelopmentBaselMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (362 p.)3-0365-3225-0 3-0365-3224-2 The present book covers the main challenges, important for future prospects of subsoils extraction as a public effective and profitable business, as well as technologically advanced industry. In the near future, the mining industry must overcome the problems of structural changes in raw materials demand and raise the productivity up to the level of high-tech industries to maintain the profits. This means the formation of a comprehensive and integral response to such challenges as the need for innovative modernization of mining equipment and an increase in its reliability, the widespread introduction of Industry 4.0 technologies in the activities of mining enterprises, the transition to "green mining" and the improvement of labor safety and avoidance of man-made accidents. The answer to these challenges is impossible without involving a wide range of scientific community in the publication of research results and exchange of views and ideas. To solve the problem, this book combines the works of researchers from the world's leading centers of mining science on the development of mining machines and mechanical systems, surface and underground geotechnology, mineral processing, digital systems in mining, mine ventilation and labor protection, and geo-ecology. A special place among them is given to post-mining technologies research.History of engineering and technologybicsscTechnology: general issuesbicsscWaddawalla / Well 40 (Great Sandy Desert WA SF51-08)aiatsispacoustic signal processingautomatic detectionball millball millsbelt conveyorcircular economycompletion of wellscomputational fluid dynamicsconvergence functionscopper ore comminutiondeep underground minDEM modeldiagnosticsdrill bitdrillingdrilling rigdrive systemelastic modulusELECTRE IIIelectric current acquisitionelectric motorelectro-hydraulic control systemenergetic efficiencyenergy efficiencyengine oil pressure dataenvelope spectrumEuclidean distanceexcavations stability assessmentfluid couplinggas hazardsgrindinghigh horizontal stresshigh-pressure water jethydro-jet millIndustry 4.0 in mininginnovative technologyintensification of productioninternal dynamicsIoT deviceslaboratory splice testslaser scanningLHDmachine diagnosticsmanufacturing errormaterialmathematical morphologymeasurementsmechanical failuremethane release hazardmining equipmentmobile laser scanningmodelmultiple criteria decision making (MCDM)multiply belt splicesmultiply conveyor beltsn/anew ways of mine reclamationnonlinear lawnumerical model geometrynumerical modelingoil pump wearopen pit mineoperational cyclespipepowered roof supportpreventative maintenanceprocess monitoringradar interferometryresonance oscillationsRiegl scanning systemrock masssafetysafety functionsearch and rescuesmartphonesound measurementspontaneous combustion hazardstatistical analysissubsidence troughsurface miningsustainabilitytextile conveyor beltsthermal imagingthreshold-based segmentationUAVunderground laboratoryunderground mineunderground miningVelodyne LiDARventilation systemswell reamerHistory of engineering and technologyTechnology: general issuesZhironkin Sergeyedt1279701Szurgacz DawidedtZhironkin SergeyothSzurgacz DawidothBOOK9910557616303321Mining Technologies Innovative Development3027452UNINA