rock fragmentation short_delay_blasting
TRANSCRIPT
GOVERNMENT ENGINEERING COLLEGE, BHUJ.
NAME: JIGNESH SUKHLAL RUPERI ENRL NO. 120150122093
TOPIC: SHORT DELAY BLASTING
MINING 7TH SEMESTER
SHORT DELAY BLASTING
IN UNDERGROUND MINING
DELAY DETONATOR
FIG 1: SOURCE http://www.kayakujapan.co.jp/en/sale/denkiraikan.html
ARRANGEMENT OF DELAY DETONATORS
FIG 2:source http://gsi.ir/General/Lang_en/Page_25/DataId_2485/Action_BodyView/Drill,.blast.practices.to.improve.blasting.efficiency.at.Murgul.copper.mine.html
WHY WE ARE DOING THIS ? Reduced consumption of explosive as
blasting is more efficient due to availability of a free face for each row of round of shots . (i.e. blasting due to No.1 delay detonator gives a free face for the blasting effect of shots fired by No.2 detonator)
In short delay blasting, the initiation of each
subsequent charge or group of charges occurs in an area of the rock mass that is under stress as a
result of the preceding explosion, thus increasing
the useful blast effect
.The use of shortdelayblasting increases intensity o
f fragmentation of the medium by the blast
Reduces disruption of the rock mass outside the crushing zone,provides localized disintegration of the rock mass, and decreases the seismic effect of the blast.
In addition, short delay blasting makes possible control of the direction of movement of the crushed
rock providing collision and additional crushing of the fragments.
With out Delay detonator If the delay between the rows is too short, the rock from the
back rows tends to take an upward direction instead of a horizontal.
FIG 3: https://miningandblasting.files.wordpress.com/2009/09/discussion-on-firing-pattern-in-blasting.pdf
With Short delay detonator control of the direction of movement of the crushed rock is achieved.
FIG 4: https://miningandblasting.files.wordpress.com/2009/09/discussion-on-firing-pattern-in-blasting.pdf
CONDITIONS WHERE SHORT DELAY IS USED
In shafts withhazardous gas and dust conditions, shortdelay blasting makes possible the firing of an entire set of blast holes in one stage instead of several, with instantaneous blasting (charging and blasting of sumper holes and ventilation, charging, and blasting of auxiliary holes).
PERFORMANCE OF SHORT DELAY
Short-delay blasting is performed by means of shortdelay electric detonators or, when blasting with a detonator fuse, by means of
pyrotechnic delay mechanisms (relays).
Singlerow and multirow shortdelay blasting arrangements are use The principal singlerow shortdelay blasting arrangements are sequential
row blasting in which the charges are detonated one by one from one end to the other.
Single row and Multi row short delay
And consecutive-counter blasting in which the detonation proceeds from the centre
of a row toward its flanks.
Providing head-on collision of the fragments and formation of a pile against the
centre of the face.
In cases of a large face, the method can be repeate-d, forming several collision centres along the front
(wave arrangement)
DRILL PATTERNS WITH SHORT DELAY BLASTING
FIG5 : https://miningandblasting.wordpress.com/
MULTI ROW SHORT DELAY The principal types of Multi row short delay blasting are
sequential row blasting in which the charges are detonated consecutively
(for example, 20 milliseconds between charges and, so that the moments of detonation of adjacent charges do not
coincide, 30 milliseconds between rows).
Short Delay Series detonators are designed for opencast and underground mines, for driving tunnels, shaft sinking and in quarries where multi shot rounds are required.
Long Delay Series detonators are designed for underground mining for driving shafts and tunnels, blasting raises and shaft sinking. They are used for stopping in metal mines, trenching and other blasting applications.
The longer delay period allows sufficient rock movement before firing the consecutive shot.
Patterns used in open & underground mines for short delay blasting FIG 6: https://sites.google.com/site/copperminingphotofromindia/explosives-andblasting-in-mines/blasting-principles-for-open-pit-mining
FIG 7: BENCH BLAST
PATTERN In open cast mines we use this pattern for Short delay blasting
Under ground Blasting provides a good over view for a Varity of underground blast design
A typical arrangement for blasting in VCR methods of mining.
FIG 8: http://technology.infomine.com/reviews/Blasting/welcome.asp?view=full
Vertical crater retreat Vertical crater retreat (VCR), also known as Vertical retreat
mining, is an open stoping, bottom-up mining method that involves vertically drilling large-diameter holes into the ore body from the top, and then blasting horizontal slices of the ore body into an undercut
A system of primary and secondary stopes is often used in
VCR mining, where primary stopes are mined in the first stage and then backfilled with cemented fill to provide wall support for the blasting of successive stopes.
FIG9: https://queensminedesign.miningexcellence.ca/index.php/File:Pic4488.jpgHoles are drilled vertically from the top drift through to the bottom drift. Holes are charged such that blasting of horizontal slices of the ore body occurs, progressing from the bottom drift to the top drift.
Vertical crater retreat The most common drill hole diameter used in VCR mining is
165mm
Blasted ore is collected at the draw points using LHD vehicles, and then transported to ore passes, sometimes to be crushed, before it is transported to surface for processing
Upon completion of the ore extraction, the stope is often backfilled from the top drift, providing rock stability for upcoming blasts.
This process is repeated until the ore body is mined.
VCR is a suitable mining method for ore bodies that exhibit the following characteristics
Characteristics Requirements
' 'Orebody Dimensions
Steeply-dipping orebodies (>45º), with widths of no less than 12-15m, OR
Very large both vertically and horizontally
Grade VCR is not a selective mining method, therefore the
ore grade should be low to medium, and it should be relatively uniform throughout the entire orebody
Depth VCR mining can occur at any depth.