We present the articles of the third issue of scientific journal "Mining Science and Technologyβ (Russia) for 2024:
The paper presents the results of the dependence of wastewater treatment efficiency on the size of filtering material fractions.
For more information, see the article:
π Ivanova L.A., Prosekov A.Yu., Ivanov P.P. et al. Assessment of the efficiency of wastewater treatment from coal enterprises for suspended solids using various filtering materials. Mining Science and Technology (Russia). 2024;9(3):263-270. https://doi.org/10.17073/2500-0632-2024-03-227
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#inenglish #MST #wastewater #coal #suspension #filtration #quartzite #treatment #gravity #sedimentation #fraction #coagulation #sump #regeneration #washing #backwashing #dynamic #quarry #sand #crushedstone #zeolite #sorbent #pump #dam #dust #clay #method #technology #hydraulics
The paper presents the results of the dependence of wastewater treatment efficiency on the size of filtering material fractions.
For more information, see the article:
π Ivanova L.A., Prosekov A.Yu., Ivanov P.P. et al. Assessment of the efficiency of wastewater treatment from coal enterprises for suspended solids using various filtering materials. Mining Science and Technology (Russia). 2024;9(3):263-270. https://doi.org/10.17073/2500-0632-2024-03-227
Subscribe to the journal's Telegram channel:
πt.iss.one/MinSciTechπ
#inenglish #MST #wastewater #coal #suspension #filtration #quartzite #treatment #gravity #sedimentation #fraction #coagulation #sump #regeneration #washing #backwashing #dynamic #quarry #sand #crushedstone #zeolite #sorbent #pump #dam #dust #clay #method #technology #hydraulics
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Assessment of the efficiency of wastewater treatment from coal enterprises for suspended solids using various filtering materialsβ¦
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π₯ How does the detonation velocity of explosives affect rock fracturing?
In quarries for building stone extraction, up to 30% of the rock turns into fines after blasting and crushing, reducing economic efficiency. One of the key factors is the prefracture zones formed during explosive detonation.
π¬ What was studied?
1οΈβ£ Explosive detonation velocity (ranging from 2 to 5.2 km/s).
2οΈβ£ Stresses in the rock mass during blasting.
3οΈβ£ Microfracturing using X-ray microtomography.
π Results:
βοΈ The size of the prefracture zone increases from 33R to 77R (where R is the charge radius) as detonation velocity rises.
βοΈ Microfracture density (N) depends on the distance from the charge:
β’ Near zone (10R): from 5,000 to 13,800 pcs/cmΒ³ (exponential growth).
β’ Far zone (70R): from 0 to 200 pcs/cmΒ³ (linear growth).
π‘ Practical conclusions:
β‘οΈ Using explosives with reduced detonation velocity minimizes prefracture zones and decreases fines yield.
β‘οΈ Optimizing blasting parameters allows controlled rock fragmentation and increases the output of marketable fractions.
For more information, see the article:
π Khokhlov S.V., Vinogradov Yu.I., Makkoev V.A., Abiyev Z.A. Effect of explosive detonation velocity on the degree of rock pre-fracturing during blasting. Mining Science and Technology (Russia). 2024;9(2):85-96. https://doi.org/10.17073/2500-0632-2023-11-177
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#InEnglish #MST #Prefracture #CrushingToRubble #BlastStresses #Microfracture #FractureDensity #DetonationVelocity #FinesYields #Rock #Blast #Explosives #Quarry #Stone #Fines #Stress #Wave #Charge #Radius #Density #Cracks #Fragmentation #Impact #Velocity #Energy #Zones #Array #Control #Efficiency #Laboratory #Tomography #Results #Optimization #Parameters #Marketable #Output
In quarries for building stone extraction, up to 30% of the rock turns into fines after blasting and crushing, reducing economic efficiency. One of the key factors is the prefracture zones formed during explosive detonation.
π¬ What was studied?
1οΈβ£ Explosive detonation velocity (ranging from 2 to 5.2 km/s).
2οΈβ£ Stresses in the rock mass during blasting.
3οΈβ£ Microfracturing using X-ray microtomography.
π Results:
βοΈ The size of the prefracture zone increases from 33R to 77R (where R is the charge radius) as detonation velocity rises.
βοΈ Microfracture density (N) depends on the distance from the charge:
β’ Near zone (10R): from 5,000 to 13,800 pcs/cmΒ³ (exponential growth).
β’ Far zone (70R): from 0 to 200 pcs/cmΒ³ (linear growth).
π‘ Practical conclusions:
β‘οΈ Using explosives with reduced detonation velocity minimizes prefracture zones and decreases fines yield.
β‘οΈ Optimizing blasting parameters allows controlled rock fragmentation and increases the output of marketable fractions.
For more information, see the article:
π Khokhlov S.V., Vinogradov Yu.I., Makkoev V.A., Abiyev Z.A. Effect of explosive detonation velocity on the degree of rock pre-fracturing during blasting. Mining Science and Technology (Russia). 2024;9(2):85-96. https://doi.org/10.17073/2500-0632-2023-11-177
Subscribe to our Telegram channel:
π t.iss.one/MinSciTech π
#InEnglish #MST #Prefracture #CrushingToRubble #BlastStresses #Microfracture #FractureDensity #DetonationVelocity #FinesYields #Rock #Blast #Explosives #Quarry #Stone #Fines #Stress #Wave #Charge #Radius #Density #Cracks #Fragmentation #Impact #Velocity #Energy #Zones #Array #Control #Efficiency #Laboratory #Tomography #Results #Optimization #Parameters #Marketable #Output
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