By: Dyno Nobel Views: 1427Downloads: 9
Author: Baron FidlerWhitepaper/Case Study
The primary benefit from the TITAN emulsion technology is being able to note on the post blast reports that no postblast NOx fumes were present. Additional benefits include increased water resistance, increased actual energy yield verses theoretical value, increased product sensitivity resulting in high order detonation, ability to control density, redistribution of energy, increased detonation pressure, same cost per loaded foot, greater fragmentation versus cast movement, and allowing emulsion to be loaded to a lower density in highwall row resulting in the same pounds stretched to a greater height. Success measurements in the overburden truck/shovel blasts included consistent productivity (bucket fill times and bucket volumes) even in harder material located below the sandy strata, reduced post blast NOx fumes based on fume classification chart, few shovel operator complaints, and equal or reduced drill and blast budget. Seventeen blasts were completed without NOx fumes. The pounds per loaded foot was reduced from 51.5 with 40/60 HANFO to 43.1-47.1 range loading TITAN XL 1000. The average difference lbs/ft = 12.36% when 7.6% was needed for cost neutral. Stemming height was reduced from 22 ft to 20 feet to improve surface material displacement. Success measurements in the coal blasts included no roll crusher plugs from slabs, improved shovel production through uniform fragmentation, and equal or reduced drill and blast budget. Ten blasts were completed over afive-week period with no post blast fumes. There was good material movement, uniform fragmentation and generally no complaints or negative comments from shovel operators. Average difference lbs/ft = 11.98% when 4.5% was needed for cost neutral. Pounds per loaded foot averaged 45.33 compared to 51.5 with HANFO.
productivity cost control nox water resistance energy yield product sensitivity


Related Resources

Blast Design Changes to Accomm ...
BY: Dyno Nobel

Project goal is to remove a small section of bench and creating a final wall catch bench without disturbing neighboring homes within 750 feet of ...Read more

Blast Modeling
BY: Dyno Nobel

An application to determine how various blast patterns proposed for a project would perform in the field.Read more

Fragmentation Modeling in Unde ...
BY: Dyno Nobel

A fragmentation model developed in-house by Dyno Nobel was employed to model the fragmentation that would result from changes in the various blas ...Read more

Improved Digability, Reduced V ...
BY: Dyno Nobel

The use of SHA (Signature Hole Analysis) and electronic detonators allowed the mine to dial in optimum timing sequences regardless of the number ...Read more

Improved Fragmentation for Roa ...
BY: Dyno Nobel

As a new mine starting up development, this gold mine in Northern Ontario used much of the blasted rock for infrastructure in building up roads a ...Read more

Fragmentation Modeling to Achi ...
BY: Dyno Nobel

This operation was undergoing a complete review of its blasting practices and blast designs in order to ensure the most optimized results were be ...Read more