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Green Low-Carbon Technology for Metalliferous Minerals
Abstract
Metalliferous minerals play a central role in the global economy. They will continue to provide the raw materials we need for industrial processes. Significant challenges will likely emerge if the climate-driven green and low-carbon development transition of metalliferous mineral exploitation is not managed responsibly and sustainably. Green low-carbon technology is vital to promote the development of metalliferous mineral resources shifting from extensive and destructive mining to clean and energy-saving mining in future decades. Global mining scientists and engineers have conducted a lot of research in related fields, such as green mining, ecological mining, energy-saving mining, and mining solid waste recycling, and have achieved a great deal of innovative progress and achievements. This Special Issue intends to collect the latest developments in the green low-carbon mining field, written by well-known researchers who have contributed to the innovation of new technologies, process optimization methods, or energy-saving techniques in metalliferous minerals development- metallurgical slag-based binders
- solidification/stabilisation
- As(III)
- As(V)
- calcium hydroxide
- sublevel caving
- numerical simulation
- physical model
- structural parameter
- green mining
- limestone
- high temperature
- confining pressure
- SHPB
- constitutive model
- open-pit mine
- PLAXIS 3D
- dynamic load
- safety factor
- acceleration
- particle sedimentation
- filling mining
- degree of influence
- pipeline transportation
- solid waste utilization
- tailings
- reclamation risk
- hazard identification
- complex network
- hazard management
- digital mine
- mine short-term production planning
- haulage equipment dispatch plan
- ABCA
- NSGA
- settlement velocity measurement
- K-means
- tailings backfill
- unsupervised learning
- cemented paste backfill
- ESEM
- picture processing
- floc networks
- pumping agent
- fractal dimension
- backfill slurry
- strength of cemented backfill
- inhomogeneity of cemented backfill
- cemented tailings backfill
- copper
- zinc
- recovery
- sulfide concentrate
- artificial microbial community
- granular backfill
- bearing characteristics
- numerical model
- particle size
- surface subsidence
- blasting dust movement
- dust concentration
- particle size distribution
- blasting dust reduction
- backfill
- metal mine
- log-sigmoid
- tailings pond
- regional distribution
- dam break
- accident statistics
- causation analysis
- backfilling
- increasing resistance and reducing pressure
- computational fluid dynamics
- spiral pipe
- stowing gradient
- coal-based solid waste
- orthogonal experiment
- strength development
- regression analysis
- engineering performance
- n/a
- bic Book Industry Communication::T Technology, engineering, agriculture::TB Technology: general issues
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- bic Book Industry Communication::T Technology, engineering, agriculture::TT Other technologies & applied sciences::TTU Mining technology & engineering