Penentuan Parameter Petrofisik berdasarkan Data Log
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Penentuan Parameter Petrofisik berdasarkan Data Log
TUJUAN
• Menentukan Zona Interpretasi Petrofisis berdasarkan formasi dan data log per sumur.
• Menentukan nilai Parameter Petrofisis untuk WATER, CALCITE, QUARTZ, SHALE per zona interpretasi
Metode
• Neutron Density Cross Plot
• Neutron Gamma Ray Cross Plot
• GR/Vcl Resistivity Cross Plot
• Density Sonic Cross Plot (If Sonic Use)
N-D Xplot
N-GR Xplot
GR-RT Xplot
SON-D Xplot
)1( wc
wcdc
GRGR
)1( dc
dcwcwc rhob
rhobrhob
)1( wc
wcwcdc
NphiNphi
Rhob DC core BRG-10 XRD
Diambil dari pembacaan crossplot Diambil dari cross plot ILD-Vclay dan ils/ilm/msfl-Vclay
ZONE PICKING
• Berdasarkan formasi
GUF
BSMNT
TAF
BRF
Phase 12.25”
Phase 8.5”
• Menentukan Porositas
• Menentukan Parameter Clay (WC)
Neutron Density Xplot
TAF
• WC: 0.309;2.62
• DC: 0.271;2.71
BRF
• WC: 0.164 ; 2.6
• DC: 0.107 ; 2.71
BSMNT
Water (1,1)
Wet Clay (0.35, 2.61)Quartz (0, 2.65 gr/c3) Dry Clay (0.326, 2.71 g/c3)
ALL INTERVAL
GUFGUF
• WC: 0.446 ; 2.468
• DC: 0.355 ; 2.71
Neutron Gamma Ray Xplot• Menentukan Parameter Clay (WC)
• Menentukan parameter Quartz/Calcite
GUF
• WC: 0.446;112
• DC: 0.355;130
• QTZ : 0 ; 54
BRF
• WC: 0.164 ; 146
• DC: 0.107 ; 156
• CALC : 0 ; 25TAF
• WC: 0.309 ; 194
• DC: 0. 271 ; 205
• QTZ : 0 ; 40
Quartz
Dry Clay
Water
Wet Clay
QuartzQuartzQuartz
Wet ClayWet Clay
Quartz (0,30)
Dry Clay (0.326;155)
Water (1,0)
Wet Clay (0.35;150)
ZONE PICKING
• Berdasarkan formasi dan log response
GUF
BSMNT
TAF
BRF
GUF1
GUF2
TAF1
TAF2
GUF1
• WC: 0.43 ; 112
• DC: 0.341 ; 129
• QTZ : 0 ; 54
GUF2
• WC: 0.43 ; 2.48
• DC: 0.341 ; 2.71
GUF2
• WC: 0.47 ; 106
• DC: 0.343 ; 131
• QTZ : 0 ; 54
GUF1
• WC: 0.47 ; 2.379
• DC: 0.343 ; 2.71
GUF1
Neutron Density Xplot GUF
Neutron Gamma Ray Xplot GUF
• Menentukan Resistivity Clay menjadikan nilai Sw/Sxo di Shale interval, rata-rata 100%
• Membantu menentukan zonasi interpretasi
Vclay Resistivity Xplot
ALL INTERVAL
RT - Vclay
ALL INTERVAL
Rxo - Vclay
BRF
Rt Shale: 5.95
TAF1 & TAF 2
TAF2 Rt Shale: 12.7
TAF1 Rt Shale: 4.8
Vclay RT Xplot (Zone by zone)
GUF1 & 2
Rt Shale: 1.3
MINERAL SOLVER
Default Density value of QUARTZDari data air formasi
Dari Log Header
Scale 1:1500
Ouput Layout BRG-33 GUF
Scale 1:350
Ouput Layout BRG-33 BRF
Scale 1:500
TAFOuput Layout BRG-33
RESSUM BRG-33
Ouput Layout RESSUM BRG-33
Tentative Time Frame
Actual :
• Struktur Beringin selesai 20 sumur (1 hari = 1 sumur)
• Struktur Pandan collecting data
Terima Kasih
Back Up Slides
1 1 22
Rt a Rw
Vcl
RclSw
m Vcln
Indonesia Equation
Matrix
(Quartz)Wet Clay Free Water HC
Rw
Vsh Swe
Rtsh
wcwcbw vv
bwet v
hcvfwvwcvqtzve
Rhob Illite = 2.78 g/c3
Rhob Kaolinite = 2.62 g/c3
RhobDC = (2.78*(6/10)) + (2.62 (4/10))
= 1.668 + 1.048
= 2.716 gr/c3
BRF MODEL
)1( wc
WcWaterwcdc
DTDTDT
• WC: 74 ; 2.6
• DC: 66 ; 2.71
• Calcite: 0 ; 47
BRG-16
Water (1,1)
Wet Clay (0.35, 2.61)Quartz (0, 2.65
gr/c3) Dry Clay (0.326, 2.71 g/c3)
ALL INTERVAL
ELAN VS “PICK” PARAMETER
Quartz
Dry Clay
Water
Wet Clay
QuartzQuartzQuartz
Wet ClayWet Clay
Quartz (0,30)
Dry Clay (0.326;155)
Water (1,0)
Wet Clay (0.35;150)
Komparasi dengan Parameter ELAN
ElanELAN VS “PICK” PARAMETER
ELAN VS “PICK” PARAMETER
ELAN VS “PICK” PARAMETER
• Penentuan Porositas Efektif :Øe = Phi input – Vcl × Øtclay
• Penentuan Porositas Total :Øt = Øe + Vcl GR × Øtclay
• Penentuan Porositas Total Clay :
Øtclay =
• Penentuan Saturasi Air dengan Metode Indonesian Equation :
=
• Penentuan Swirr :
Swirr =
• Penentuan k (Empirical Relation) :
k =
• Penentuan k (Tixier Relation)
k =
• Penentuan k (Timur Relation)
k =
• Penentuan k efektif :
keff =
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