ppta354-6c kriteria _ kinerja penggalian tbm
DESCRIPTION
penggalian TBMTRANSCRIPT
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6.3. KINERJA PENGGALIAN Tunnel Boring Machines
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Tunnel Boring Machines (TBMs)
The use of tunnel boring machines for underground construction has been increasing steadily for the last 30 years. However the efficient and economic use of these high capital cost machines, necessitates an intensive side and laboratory studies. The proper and correct machine performance prediction basically depends on the quality and quantity of the geological and geotechnical data collected before making the final decision.
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Cutters Used for Mechanical Excavators
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Performance prediction using Full scale linear cutting tests
Hypothetical relationship between specific energy and spacing/depth ratio
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A typical example Tuzla-Dragos Tunnel in Istanbul
The profiles of constant cross
section (CCS) disc cutters
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Machine performance prediction for Tuzla-Dragos Tunnel
Optimum specific energy value from Figure, is SE=2.1 kWh/m3 and s/d = 8-10 As a result of cutting tests it was found that FT = 8.4 kN/mm, FR = 0.64 kN/mm From machine specification cutter spacing is s=7.5cm For s/d= 8; d=7.5/8=1cm For s/d=10; d=7.5/10=0.8cm For d=8mm, total machine thrust is 36.8.8.34=2400 kN For d=10mm, total machine thrust is 36.10.8.34=3000 kN Total machine thrust must change between 2400 kN and 3000kN
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PERFORMANCE PREDICITION USING THE METHOD DEVELOPED IN THE CSM USA
The CSM model for TBM performance prediction was developed by the Earth Mechanics Institute (EMI) over a time period extending over 25 years. The development efforts on the CSM model began with a theoretical analysis of cutter penetration into the rock without any adjacent cuts or free-faces. CSM model, rock compressive and tensile strengths were used as input to characterize the rock boreability by disc roller cutters. The compressive strength was used to describe the rock crushing beneath the cutter tip while the tensile strength accounted for the chip formation between adjacent cuts. Hence, using these two rock properties, a correlation was developed between cutters thrust force and the depth of penetration achieved as a function of cutter edge geometry and the cutter diameter.
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Performance predicition using the method developed in the csm usa
The CSM model predicts the penetration rate without any consideration given to the influence of existing joints/fissures in the rock. To account for these effects, the model makes use of the correlation factors developed for joint effects by the Norwegian Geotechnical Institute (NTNU). Depending on joint/fissure spacing and angle that these weakness planes make with the tunnel axis (i.e. the alpha angle), NTNU has derived a set of relationships between TBM penetration rate and the fracturing factor. The CSM model results are then adjusted accordingly to account for the joint/fissure effects using the relationships similar to those developed by NTNU.
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Performance Predicition Using The Method Developed In The Norwegian Univesity Of Science
& Technology (Ntnu Model)
The prediction model is based on job site studies and statistics from 33
job sites with 230 km of tunnels. Data have been carefully mapped systematized and normalized. The methodology is well explained in ITA recommendations and guidelines for tunnel boring machines working group no 4. Specific tests such as drilling rate index, Siever J-value SJ, angle between tunnel axis and plane of
weakness, fracturing factor and several correction indexes are need for performance estimation. Mckelvey and co-workers in their comparative studies included that generally predicted penetration rates from NTNU model were significantly more comparative than the achieved penetration values.
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A Typical Overall performance of TBMs
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PrediksiPrediksi KinerjaKinerja TBMTBMM. Sapignia et all - International Journal of Rock Mechanics & Mining Sciences 39 (2002) 771–788
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ITBPrediksiPrediksi KinerjaKinerja TBMTBM
M. Sapignia et all - International Journal of Rock Mechanics & Mining Sciences 39 (2002) 771–788
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ITBPrediksiPrediksi KinerjaKinerja TBMTBM
M. Sapignia et all - International Journal of Rock Mechanics & Mining Sciences 39 (2002) 771–788
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TBM TBM -- Farmer & Farmer & GlossopGlossop, 1980, 1980
V = Volume of rock excavated in unit time, m3/h RPM = Rotary speed, rev/min D = Diameter of tunnel boring machine, m t = Tensile strength. kN/m2
Fc = Average cutter force, kN
t
c DRPMFV
2..4.29
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TBM TBM -- CassinelliCassinelli et al., 1982et al., 1982
V = TBM penetration rate (m/h) RSR = Rock support rating
59.10059.0 RSRV
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TBM TBM -- LislerudLislerud et al., 1983et al., 1983
I = Net advance rate, m/h RPM = Rotary speed, rev/min i = Equal to ib.Ks.Kd, mm/rev ib : basic penetration rate Ks : Correction factor for joint class and angle Kd : Correction factor for cutter diameter
100060.. RPMiI
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ITBTBM TBM -- BamfordBamford, 1984, 1984
P = Penetration rate, m/h S = Schmidt hammer hardness T = Machine propel thrust force, tonne N = NCB cone indenter index, N/mm p = Angle of shearing resistance, degrees
pNTSP 0137.0000823.000344.049.8535.0
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TBM TBM -- SanioSanio, 1985, 1985
Po = Penetration thrust perpendicular to bedding or schistosity P90 = Penetration thrust parallel to bedding or schistosity Is50a = Point load index perpendicular to bedding or schistosity Is50b = Point load index parallel to bedding or schistosity
b
ao
IsIs
PP
50
50
90
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TBM TBM -- Hughes, 1986Hughes, 1986
V = rate of advance, m/h P = Thrust per disk periphery, kN N = Speed of cutting head, rev/s n = Average number of disk per kerf c = UCS, MPa r = Average radius of disks, m
6.02.1
2.1
r.6
c
nNPV
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TBM TBM -- Hughes, 1986Hughes, 1986
PW = Power, kW D = TBM diameter, m
207.945.28 DDPW
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TBM TBM -- Farmer & Farmer & GlossopGlossop, 1980, 1980
P = Penetration per revolution, mm/rev Fc = Average cutter force, kN c = UCS, kN/m2
c
FcP
3940
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TBM TBM -- Farmer & Farmer & GlossopGlossop, 1980, 1980
PR = Penetration per revolution, mm/rev FL = Average cutter force, kN t = Tensile strength, kN/m2
t
LFPR
624