ACAE -- ESTUDIO PILOTO DE DIAGNÓSTICO DE FÍSICA DE...

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ACAE -- ESTUDIO PILOTO DE DIAGNÓSTICO DE FÍSICA DE ROCAS DEL YACIMIENTO CABALLOSEN LOS CAMPOS PUERTO COLON - LORO Y HORMIGA AREA SUR PUTUMAYO

PROBLEM: Provide a rational rock-physics basis for determining the lateral heterogeneity and reservoirquality in 3D in Caballos formation.

Seismically discriminate massive blocky sands (e.g., Acae 10), from shaley sands (e.g., Acae 8A).

0 50 100 150

10.5

10.6

GR

Dep

th (kft

)

Acae 10

APPROACH: Rock physics analysis of ~ 30 well logs and 20 core plugs

0 0.1 0.2Porosity

Acae 8A

0 0.1 0.2Porosity

Acae 10

0.1 10 1000Permeability (mD)

Acae 8A

0.1 10 1000Permeability (mD)

Acae 10

0 50 100 150

10.5

10.6

GR

Acae 8A

Dep

th (kft

)

ACAE 10 ACAE 8A

GP170/2001 #12

20 0.05 0.1 0.15 0.2 0.25

3.5

4

4.5

5

5.5

20

40

60

80

100

120

140

160Acae 6Acae 9Hormiga 2ALoro 9DSan-Miguel 6

GR

Porosity

Vp (km

/s)

GP170/2001 #12

1

10

100

1000

0 0.1 0.2 0.3

Unit 1Unit 2Unit 3Unit 4

Per

mea

bilit

y (m

D)

Porosity

Acae 10

50 100 150

10.50

10.55

10.60

10.65

GR

Dep

th (kft

)

AC10Caballos

U1

U2

U3

U4ACAE Case Study.2

Reservoir Quality:Porosity and Permeability

Porosity and Velocity

50 100

10.5

10.6

10.7

GRD

epth

(kft

)

AC8Caballos

10 100 1000

Resistivity

AC8Caballos

2.2 2.4 2.6 2.8

RHOB

AC8Caballos

0 0.1 0.2 0.3

Porosity

AC8Caballos

NPHI

3.5 4 4.5 5.0Vp (km/s)

AC8Caballos

3.5

4.0

4.5

5.0

0 0.1 0.2 0.3

Vp (km

/s)

PhiRHO

Role of Clay (GR)

3

ACAE Case Study.3

POINTS OF REFERENCE: HAN'S DATASET

3

4

5

6

0 0.1 0.2 0.3

C = 0

C = 3-7%

C = 8-11%

C = 18-51%

Vp (km

/s)

Porosity

2

3

4

0 0.1 0.2 0.3

C = 0

C = 3-7%C = 8-11%

C = 18-51%

Vs

(km

/s)

Porosity0 0.1 0.2 0.3 0.4 0.5

0

0.1

0.2

0.3

0.4

Clay Content

Water-Saturated

Poi

sson

's R

atio

4

5

0.1 0.2

Vp (km

/s)

Density-Porosity

Acae 8Caliper < 8.5

HAN C = 0

HAN C = 3-7%

4

5

0.1 0.2

Vp (km

/s)

Density-Porosity

Acae 8ACaliper < 7

HAN C = 0

HAN C = 3-7%

4

5

0.1 0.2

Vp (km

/s)

Density-Porosity

Hormiga 2ACaliper < 6.5

HAN C = 0

HAN C = 3-7%

CROSS PLOTTING with POINTS OF REFERENCE

GP170/2001 #12

4

ACAE Case Study.4 -- Looking at Bigger Picture

4 5Vp (km/s)

Dep

th (kft

)

AC 5

50 100 150

9.5

10.0

10.5

GR

Dep

th (kft

)

AC 5

Dep

th (kft

)

0.1 0.2Porosity

Dep

th (kft

)

AC 5

Acae 5 Highlighted arezones with caliper < 9.5.

4

5

0.1 0.2

Vp (km

/s)

Density-Porosity

Acae_5Depth > 9 kftCaliper < 9.5

4

5

0.1 0.2

Vp (km

/s)

NPHI

Acae_5Depth > 9 kftCaliper < 9.5

50 100 150

9.5

10.0

10.5

GR

Dep

th (kft

)

AC 7

Dep

th (kft

)

4 5Vp (km/s)

Dep

th (kft

)

AC 7

0.1 0.2Porosity

Dep

th (kft

)

AC 7

4

5

0.1 0.2

Vp (km

/s)

NPHI

Acae_7Depth > 9.5 kftCaliper < 9.5

Han CleanHan 3-8% ClayHan >18% Clay

4

5

0.1 0.2

Vp (km

/s)

Density-Porosity




GP170/2001 #12

5

ACAE Case Study.5 -- Looking at Bigger Picture

50 100 150

9.5

10.0

10.5

GR

Dep

th (kft

)

AC 8

Dep

th (kft

)

4 5Vp (km/s)

Dep

th (kft

)

AC 8

0.1 0.2Porosity

Dep

th (kft

)

AC 8


4

5

0.1 0.2

Vp (km

/s)

Density-Porosity



4

5

0.1 0.2

Vp (km

/s)

NPHI



50 100 150

10.0

10.5

GR

Dep

th (kft

)

AC 11

Dep

th (kft

)

4 5Vp (km/s)

Dep

th (kft

)

AC 11

0.1 0.2Porosity

Dep

th (kft

)

AC 11

Acae 11 Highlighted are zones withcaliper < 9.5.On the right: Dark-blue symbols are forlog Vp plotted versus core porosity.

4

5

0.1 0.2 0.3

Vp (km

/s)

NPHI



4

5

0.1 0.2

Vp (km

/s)

Density-Porosity



GP170/2001 #12

6

ACAE Case Study.6

φF = φt + C(1 − φc )

3

4

5

0 0.1 0.2 0.3

Vp (km

/s)

Porosity

DryClay < 35%

0 0.1 0.2 0.3Porosity

No Clay

3% < Clay < 18%

18% < Clay < 37%

0 0.1 0.2 0.3Load-Bearing Frame Porosity

All Samples

0 0.1 0.2 0.3

10.6

10.7

Porosity

Dep

th (kft

)

AC 11

Predicted

Dep

th (kft

)

0 0.1 0.2 0.3

10.5

10.6

Porosity

Dep

th (kft

)

AC 8A

Predicted

Dep

th (kft

)

0 0.1 0.2 0.3

10.6

10.7

10.8

10.9

11.0

11.1

11.2

Porosity

Dep

th (kft

)

HR4

Predicted

Dep

th (kft

)

Predicting Porosity in Wells

VERIFYING LOG DATA BY CORE MEASUREMENTS

0 0.1 0.2 0.3

10.50

10.55

10.60

ECP CoreOur Core

Porosity

Dep

th (kft

)

Acae 10

PhiRHO

3 4 5 6

10.50

10.55

10.60

35 MPa

40 MPa

Vp (km/s)

Dep

th (kft

)

Acae 10

Vp Log

4.5 5

10.45

10.50

10.55

10.60

35 MPa

40 MPa

Vp (km/s)

Dep

th (kft

)

Acae 8AVp Log

GP170/2001 #12

7

ACAE Case Study.7Comment on Log Data Quality

3.5

4.0

4.5

5.0

25 50 75 100

Vp (km

/s)

GR

AC6Caballos

3.5

4.0

4.5

5.0

0 0.1 0.2 0.3

U1U2U3U4

Vp (km

/s)

PhiRHO

Han Clean

Han 3-7% Clay

Understanding rock physics helpsin dealing with older data sets

50 100 150

10.50

10.55

10.60

10.65

10.70

GR

Dep

th (kft

)

AC9Caballos

U1

U2

U3

U4

1001000 104

Resistivity

AC9Caballos

2.4 2.6

RHOB

AC9Caballos

0 0.1 0.2 0.3

Porosity

AC9Caballos

NPHI

4 5

Vp (km/s)

AC9Caballos

3.5

4.0

4.5

5.0

0 0.1 0.2 0.3

U1U2U3U4

Vp (km

/s)

PhiRHO

Han Clean

Han 3-7% Clay

AC9Caballos

GP170/2001 #12

88 10 12 14 16 18 20

0.15

0.2

0.25

0.3

0.35

Acoustic Impedance

Po

isso

n's

Ra

tio

ACAE 8A and 10 PLUGS

-2

-1.5

-1

-0.5

0

0.5

1

1.5

2

2.5

3Log(Permeability)

GOOD QUALITY

POOR QUALITY

GLAUCONITES

0 0.02 0.04 0.06 0.08 0.1 0.12 0.14 0.16 0.18 0.28

9

10

11

12

13

14

15

16

17

Porosity

Aco

ustic

Impe

danc

e


-2

-1.5

-1

-0.5

0

0.5

1

1.5

2

2.5

3

OIL-SATURATED PLUGS

Log(Permeability)

0 0.02 0.04 0.06 0.08 0.1 0.12 0.14 0.16 0.18-2

-1

0

1

2

3

4

Porosity

Log(

Per

mea

bilit

y)


0.16

0.18

0.2

0.22

0.24

0.26

OIL-SATURATED ROCK

Poisson's Ratio

ACAE Case Study.8How to Predict Porosity from Seismic -- By Integrating Core Data

The petrophysical “signal” for AVO lithology analysis is the lithology dependence ofVp/Vs. Inspection of Vp versus Vs trend curves for sandstones, shales, limestones,and dolomites, reveals that lithology discrimination is most robust at highervelocities where sandstones have low Vp/Vs (1.5 - 1.6) and the other lithologieshave higher Vp/Vs (1. 7- 2.0).

Castagna and Backus, 1993

GP170/2001 #12

90 5 10 15 20 25

1.64

1.66

1.68

1.7

1.72

1.74

1.76

1.78

1.8

1.82

time

distance0 5 10 15

1.64

1.66

1.68

1.7

1.72

1.74

1.76

1.78

1.8

1.82

time

distance

Acae 10 Original Acae 10 + 25% Clay

30 Hz

dept

h

0 5 10 15

1.64

1.66

1.68

1.7

1.72

1.74

1.76

1.78

1.8

1.82

time

distance

dept

h

0 5 10 15

1.64

1.66

1.68

1.7

1.72

1.74

1.76

1.78

1.8

time

distance0 100 200

2900

3000

3100

3200

GR

Dep

th (m

)

0 100 200

2900

3000

3100

3200

GR

Dep

th (m

)

5 10 15Ip

5 10 15Ip

Acae 10 Acae Pseudo-8A

ACAE Case Study.9Knowing Model Helps Forward-Model Seismic Response

GP170/2001 #12

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