basic hydrocarbon reservoir system - … and gas are formed by the thermal cracking of organic...
TRANSCRIPT
![Page 1: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/1.jpg)
Hydrocarbon Reservoir SystemHydrocarbon Reservoir System(Basic Approach for Non Petroleum People)(Basic Approach for Non Petroleum People)
P R E P A R E D B Y D . M U L Y O N O ( P E T R O L E U M E N G I N E E R )S E R I E S O F C O N T I N U O U S L E S S O N & L E A R N F O R I F F
D U K H A N C O M M U N I T YJ U N E 2 3 R D 2 0 1 2
![Page 2: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/2.jpg)
Basic elements of Petroleum Systems Describe plate tectonics and sedimentary basins Recognize names of major sedimentary rock types Describe importance of sedimentary environments to petroleum
industry Describe the origin of petroleum Identify hydrocarbon trap types Define and describe the important geologic controls on reservoir
properties, porosity and permeability
Objectives for the participants (at least…..)knowing & if possible having interestTo know further the topics of :
Basic elements of Petroleum Systems Describe plate tectonics and sedimentary basins Recognize names of major sedimentary rock types Describe importance of sedimentary environments to petroleum
industry Describe the origin of petroleum Identify hydrocarbon trap types Define and describe the important geologic controls on reservoir
properties, porosity and permeability
![Page 3: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/3.jpg)
• Petroleum Systems approach• Geologic Principles and geologic time• Rock and minerals, rock cycle, reservoir properties• Hydrocarbon origin, migration and accumulation• Sedimentary environments and facies; stratigraphic
traps• Plate tectonics, basin development, structural geology• Structural traps
• Petroleum Systems approach• Geologic Principles and geologic time• Rock and minerals, rock cycle, reservoir properties• Hydrocarbon origin, migration and accumulation• Sedimentary environments and facies; stratigraphic
traps• Plate tectonics, basin development, structural geology• Structural traps
![Page 4: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/4.jpg)
READY……..
S T A R T……….DOR…DOR…..
![Page 5: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/5.jpg)
1. Hydrocarbon in General & Specific
2. Petroleum Geology System
3. Rock Properties
4. Hydrocarbon Generation, Migration & Accumulation
5. Hydrocarbon Traps & Heterogeneity
6. Reservoir Classification
7. Reservoir Driving Mechanism
8. Reservoir Calculation in General
9. Petroleum System Summary
What need to be learned……??
1. Hydrocarbon in General & Specific
2. Petroleum Geology System
3. Rock Properties
4. Hydrocarbon Generation, Migration & Accumulation
5. Hydrocarbon Traps & Heterogeneity
6. Reservoir Classification
7. Reservoir Driving Mechanism
8. Reservoir Calculation in General
9. Petroleum System Summary
![Page 6: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/6.jpg)
Hydrocarbon in General & Specific
What is Hydrocarbon…?
What is Hydrocarbon Reservoir
What Kinds of Reservoir
Why need study Petroleum Reservoir….?
How it is found by the Petroleum Expertise…?
What is Hydrocarbon…?
What is Hydrocarbon Reservoir
What Kinds of Reservoir
Why need study Petroleum Reservoir….?
How it is found by the Petroleum Expertise…?
![Page 7: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/7.jpg)
Main natural source:
natural gase(up to 97% of methane; ethane,propane, CO2, N2)
petroleum(mixture of aliphatic, alicyclic, andpolycyclichydrocarbons C1-C50; thecomposition varies with its
location).
What is Hydrocarbon……?
fractions of petroleum: gas (C1-C4) ~ cooking gas
petroleum ether (C5-C6) ~solvent for org. chemicals
gasoline (C6-C12) ~ automobilefuel
kerosene (C11-C16) ~ rocketand jet fuel
fuel oil (C14-C18) ~ domesticheating
lubricating oil (C15-C24) ~lubricants for automobiles andmachines
Main natural source:
natural gase(up to 97% of methane; ethane,propane, CO2, N2)
petroleum(mixture of aliphatic, alicyclic, andpolycyclichydrocarbons C1-C50; thecomposition varies with its
location).
fractions of petroleum: gas (C1-C4) ~ cooking gas
petroleum ether (C5-C6) ~solvent for org. chemicals
gasoline (C6-C12) ~ automobilefuel
kerosene (C11-C16) ~ rocketand jet fuel
fuel oil (C14-C18) ~ domesticheating
lubricating oil (C15-C24) ~lubricants for automobiles andmachines
![Page 8: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/8.jpg)
Alkanes – saturated hydrocarbons(CnH2n+2)
methane ethane hexane
3-methylpenthane
! Alkanes are not planar !
![Page 9: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/9.jpg)
A reservoir is that volume of rock that occurs down dip of a sealand up dip of the 100% Sw oil-free level. The HCs in the pore arein pressure and Sw equilibrium with the free water level
A petroleum reservoir is an accumulation of hydrocarbon(oil-gas-water) in porous rock
What is a Hydrocarbon reservoir..?
A reservoir is that volume of rock that occurs down dip of a sealand up dip of the 100% Sw oil-free level. The HCs in the pore arein pressure and Sw equilibrium with the free water level
![Page 10: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/10.jpg)
What Kinds of Hydrocarbon Reservoir….?
Silica clastic
Carbonate
Fracture
Silica clastic
Carbonate
Fracture
![Page 11: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/11.jpg)
Not Deep – Water
Alluvial fanMeandering riverBraided riverStraight riverMix Aeolian/ fluvialLacustrine deltaEstuaryShelf/ShorelineCoastal plainTidal flatBarrier-island/lagoonDeltaMarine fan deltaWave dominated delta
Deep – Water
DebrisMud-rich slope basinSubmarine canyonSubmarine fan channelSubmarine fan lobeGravel-rich slope
Reservoir Classification base on water deep
Not Deep – Water
Alluvial fanMeandering riverBraided riverStraight riverMix Aeolian/ fluvialLacustrine deltaEstuaryShelf/ShorelineCoastal plainTidal flatBarrier-island/lagoonDeltaMarine fan deltaWave dominated delta
Deep – Water
DebrisMud-rich slope basinSubmarine canyonSubmarine fan channelSubmarine fan lobeGravel-rich slope
![Page 12: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/12.jpg)
Not Deep – Water
![Page 13: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/13.jpg)
Deep – Water
![Page 14: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/14.jpg)
Petroleum Geology System
![Page 15: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/15.jpg)
Basic elements of Petroleum Systems Describe plate tectonics and sedimentary basins Recognize names of major sedimentary rock types Describe importance of sedimentary environments to petroleum
industry Describe the origin of petroleum Identify hydrocarbon trap types Define and describe the important geologic controls on reservoir
properties, porosity and permeability
Objectives for the participantsat least…can understand the topics of :
Basic elements of Petroleum Systems Describe plate tectonics and sedimentary basins Recognize names of major sedimentary rock types Describe importance of sedimentary environments to petroleum
industry Describe the origin of petroleum Identify hydrocarbon trap types Define and describe the important geologic controls on reservoir
properties, porosity and permeability
![Page 16: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/16.jpg)
Cross Section Of A Petroleum System
Geographic Extent of Petroleum System
(Foreland Basin Example)
O OOStratigraphic
Extent ofPetroleum
Extent of Prospect/FieldExtent of Play
Overburden Rock
Seal Rock
Reservoir Rock
Source Rock
Underburden Rock
Basement Rock
Top Oil WindowTop Gas Window
Petroleum Reservoir (O)
Fold-and-Thrust Belt(arrows indicate relative fault motion)
EssentialElements
ofPetroleum
System
(modified from Magoon and Dow, 1994)
Sedi
men
tary
Bas
in F
ill
PetroleumSystem
Pod of ActiveSource Rock
![Page 17: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/17.jpg)
0
50
100
150
200
250
0
10
20
30
40
50Cry
ptoz
oic
(Pre
cam
bria
n)
Phanerozoic
Quaternary
Tertiary
Cretaceous
Jurassic
TriassicM
illio
ns o
f yea
rs a
go
Mill
ions
of y
ears
ago
Bill
ions
of y
ears
ago
0
1
2
3 Eocene
Oligocene
Miocene
PliocenePleistoceneRecent
Qua
tern
ary
perio
dTe
rtia
rype
riod
Eon Era Period Epoch
Geologic Time Chart
Mes
ozoi
c
Cen
ozoi
c E
ra
250
300
350
400
450
500
550
600
50
60
Cry
ptoz
oic
(Pre
cam
bria
n)
PermianPennsylvanian
Mississippian
Devonian
Silurian
Ordovician
Cambrian
Mill
ions
of y
ears
ago
Mill
ions
of y
ears
ago
Bill
ions
of y
ears
ago
3
4
4.6
PaleoceneP
aleo
zoic
Cen
ozoi
c E
ra
![Page 18: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/18.jpg)
D I V I S I O N S O F G E O L O G I C T I M EE o n E r a P e r i o d E p o c h
A g e ( a p p r o x . )in m il l io n s o f
y e a r s
Ceno
zoic
Meso
zoic
Paleo
zoic
Phan
erozo
ic
Carbo
nifero
us
P e n n s y l v a n i a n
M i s s i s s i p p i a n
T e r t i a r y
Q u a t e r n a r y
C r e t a c e o u s
J u r a s s i c
T r i a s s ic
P e r m i a n
D e v o n ia n
S i l u r ia n
O r d o v i c i a n
C a m b r i a n
H o lo c e n eP l e i s t o c e n e
P l i o c e n eM i o c e n e
O l i g o c e n eE o c e n e
P a l e o c e n eL a t e
E a r l yL a t e
M i d d l eE a r l yL a t e
M i d d l eE a r l yL a t e
E a r l yL a t e
M i d d l eE a r l yL a t e
E a r l yL a t e
M i d d l eE a r l yL a t e
E a r l yL a t e
M i d d l eE a r l yL a t e
M i d d l eE a r l y
0 . 0 1 01 . 6
52 33 55 76 59 7
1 4 61 5 71 7 82 0 82 3 52 4 12 4 52 5 62 9 03 0 33 1 13 2 33 4 53 6 33 7 73 8 64 0 94 2 44 3 94 6 44 7 65 1 05 1 75 3 65 7 0
Geologic Time ScaleModified From Harland (1990) and Hansen (1991).
D I V I S I O N S O F G E O L O G I C T I M EE o n E r a P e r i o d E p o c h
A g e ( a p p r o x . )in m il l io n s o f
y e a r s
Ceno
zoic
Meso
zoic
Paleo
zoic
Phan
erozo
ic
Carbo
nifero
us
P e n n s y l v a n i a n
M i s s i s s i p p i a n
T e r t i a r y
Q u a t e r n a r y
C r e t a c e o u s
J u r a s s i c
T r i a s s ic
P e r m i a n
D e v o n ia n
S i l u r ia n
O r d o v i c i a n
C a m b r i a n
H o lo c e n eP l e i s t o c e n e
P l i o c e n eM i o c e n e
O l i g o c e n eE o c e n e
P a l e o c e n eL a t e
E a r l yL a t e
M i d d l eE a r l yL a t e
M i d d l eE a r l yL a t e
E a r l yL a t e
M i d d l eE a r l yL a t e
E a r l yL a t e
M i d d l eE a r l yL a t e
E a r l yL a t e
M i d d l eE a r l yL a t e
M i d d l eE a r l y
0 . 0 1 01 . 6
52 33 55 76 59 7
1 4 61 5 71 7 82 0 82 3 52 4 12 4 52 5 62 9 03 0 33 1 13 2 33 4 53 6 33 7 73 8 64 0 94 2 44 3 94 6 44 7 65 1 05 1 75 3 65 7 0
![Page 19: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/19.jpg)
Basic Geologic Principles
Uniformitarian's Original Horizontality Superposition Cross-Cutting
Relationships
Uniformitarian's Original Horizontality Superposition Cross-Cutting
Relationships
![Page 20: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/20.jpg)
Cross-Cutting Relationships
GHIJK
Angular Unconformity
A
B
C
D
EF
G
IgneousDike
![Page 21: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/21.jpg)
1. Disconformities- An unconformity in
which the beds above andbelow are parallel
Types of Unconformities
![Page 22: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/22.jpg)
2. Angular Unconformity– An unconformity in
which the olderbed intersect theyounger beds at anangle
3. Nonconformity– An unconformity in
which youngersedimentary rocksoverlie oldermetamorphic orintrusive igneousrocks
Types of Unconformities (Continue….)
2. Angular Unconformity– An unconformity in
which the olderbed intersect theyounger beds at anangle
3. Nonconformity– An unconformity in
which youngersedimentary rocksoverlie oldermetamorphic orintrusive igneousrocks
![Page 23: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/23.jpg)
Types of Unconformities (Continue….)
![Page 24: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/24.jpg)
Correlation Establishes the age
equivalence of rock layers indifferent areas
Methods: Similar lithology Similar stratigraphic
section Index fossils Fossil assemblages Radioactive age dating
Establishes the ageequivalence of rock layers indifferent areas
Methods: Similar lithology Similar stratigraphic
section Index fossils Fossil assemblages Radioactive age dating
![Page 25: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/25.jpg)
Rocks & Properties
![Page 26: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/26.jpg)
Classification of Rocks
SEDIMENTARYIGNEOUS METAMORPHIC
Roc
k-fo
rmin
gpr
oces
sSo
urce
of
mat
eria
l
Molten materials indeep crust andupper mantle
Crystallization(Solidification of melt)
Weathering anderosion of rocks
exposed at surface
Sedimentation, burialand lithification
Rocks under hightemperatures
and pressures indeep crust
Recrystallization due toheat, pressure, or
chemically active fluids
![Page 27: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/27.jpg)
The Rock Cycle
Magma
MetamorphicRock
IgneousRock
Heat and Pressure
SedimentaryRock Sediment
Weathering,Transportationand Deposition
an
i
![Page 28: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/28.jpg)
Sedimentary Rock Types
• Relative abundance Sandstoneand conglomerate
~11%
Limestone anddolomite
~13%
Siltstone, mudand shale
~75%
Limestone anddolomite
~13%
![Page 29: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/29.jpg)
![Page 30: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/30.jpg)
Average Detritus Mineral Compositionof Shale and Sandstone
Mineral Composition Shale (%) Sandstone (%)Clay Minerals
Quartz
60
30
5
65
Feldspar
Rock Fragments
Carbonate
Organic Matter,Hematite, andOther Minerals
4
<5
3
<3
10-15
15
<1
<1
(modified from Blatt, 1982)
![Page 31: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/31.jpg)
Some Common Minerals
Silicates
Oxides Sulfides Carbonates Sulfates Halides
AnhydriteGypsum
HaliteSylvite
AragoniteCalciteDolomiteFe-DolomiteAnkerite
PyriteGalenaSphalerite
HematiteMagnetite
Non-Ferromagnesian(Common in Sedimentary Rocks)
Ferromagnesian(not common in sedimentary rocks)
QuartzMuscovite (mica)Feldspars
Potassium feldspar (K-spar)OrthoclaseMicrocline, etc.
PlagioclaseAlbite (Na-rich - common) throughAnorthite (Ca-rich - not common)
OlivinePyroxene
AugiteAmphibole
HornblendeBiotite (mica)
Red = Sedimentary Rock-Forming Minerals
![Page 32: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/32.jpg)
The Four Major Components
Framework Sand (and Silt) Size Detrital Grains
Matrix Clay Size Detrital Material
Cement Material precipitated post-depositionally, during
burial. Cements fill pores and replace frameworkgrains
Pores Voids between above components
Framework Sand (and Silt) Size Detrital Grains
Matrix Clay Size Detrital Material
Cement Material precipitated post-depositionally, during
burial. Cements fill pores and replace frameworkgrains
Pores Voids between above components
![Page 33: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/33.jpg)
Pores Provide theVolume to ContainHydrocarbon Fluids
Pore Throats RestrictFluid Flow
PoreThroat
Porosity in Sandstone
Scanning Electron MicrographNorphlet Formation, Offshore Alabama, USA
Pores Provide theVolume to ContainHydrocarbon Fluids
Pore Throats RestrictFluid Flow
![Page 34: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/34.jpg)
PRF
KF = PotassiumFeldspar
PRF = Plutonic RockFragment
Sandstone Composition Framework Grains
Norphlet Sandstone, Offshore Alabama, USAGrains are About =< 0.25 mm in Diameter/Length
PRF KF
P
Fragment
P = Pore
Potassium Feldspar isStained Yellow With aChemical Dye
Pores are ImpregnatedWith Blue-Dyed Epoxy
CEMENT
![Page 35: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/35.jpg)
100
10
1
10
100
1000
Perm
eabi
lity
(md)
Authigenic Illite Authigenic Chlorite
Effects of Clays on Reservoir Quality
1
0.1
0.01 0.01
0.1
1
2 6 10 14 2 6 10 14 18
Perm
eabi
lity
(md)
Porosity (%)(modified from Kugler and McHugh, 1990)
![Page 36: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/36.jpg)
Dispersed Claye
ClayMinerals
Detrital QuartzGrains
Influence of Clay-Mineral Distribution onEffective Porosity
Clay Lamination
Structural Clay(Rock Fragments,
Rip-Up Clasts,Clay-Replaced Grains)
e
e
![Page 37: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/37.jpg)
Fluids Affecting Digenesis
Precipitation
Meteoric
EvapotranspirationEvaporation
Infiltration
Water Table
Subsidence
CH4,CO2,H2S
PetroleumFluids
MeteoricWater
MeteoricWater
COMPACTIONALWATER
Zone of abnormal pressure
Isotherms
(modified from from Galloway and Hobday, 1983)
![Page 38: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/38.jpg)
Dissolution ofFramework Grains(Feldspar, forExample) andCement mayEnhance theInterconnectedPore System
This is CalledSecondary Porosity
Pore
PartiallyDissolvedFeldspar
Dissolution Porosity
Thin Section Micrograph - Plane Polarized LightAvile Sandstone, Neuquen Basin, Argentina
Dissolution ofFramework Grains(Feldspar, forExample) andCement mayEnhance theInterconnectedPore System
This is CalledSecondary Porosity
Pore
Quartz DetritalGrain
(Photomicrograph by R.L. Kugler)
![Page 39: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/39.jpg)
Hydrocarbon Gen, Migration, &Accumulation
![Page 40: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/40.jpg)
Source Material
•Non-Biogenic Origins
•Biogenic (Kerogen Types)Type I – Algal (oil prone) sapropelicType II – MixedType III – Woody (gas prone) humic
•Host rock (Shales and Coals)
•Non-Biogenic Origins
•Biogenic (Kerogen Types)Type I – Algal (oil prone) sapropelicType II – MixedType III – Woody (gas prone) humic
•Host rock (Shales and Coals)
![Page 41: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/41.jpg)
Types of Petroleum
Oil and gas are formed by the thermal cracking of organiccompounds buried in fine-grained rocks.
AlgaeAlgae == Hydrogen richHydrogen rich = Oil= Oil-- ProneProne
WoodWood == Hydrogen poor =Hydrogen poor = GasGas -- ProneProne
AlgaeAlgae == Hydrogen richHydrogen rich = Oil= Oil-- ProneProne
WoodWood == Hydrogen poor =Hydrogen poor = GasGas -- ProneProne
![Page 42: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/42.jpg)
Kerogen TypesType 1 Type 2 Type 3
![Page 43: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/43.jpg)
Source material, Transportation & Deposition
From the Paleontological Research Institute <http://www.priweb.org/ed/pgws/history/pennsylvania/pennsylvania.html>
![Page 44: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/44.jpg)
Mahakam Delta PlainEast Kalimantan, Indonesia
(A Rich Source of Kerogen)
![Page 45: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/45.jpg)
![Page 46: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/46.jpg)
Petroleum System Processes
24803
Petroleum System ElementsPetroleum System Elements
120° F120° F
350° F350° FGenerationGeneration
MigrationMigration
Seal RockSeal Rock
ReservoirRockReservoirRock
OilOil
WaterWater
GasCapGasCap
EntrapmentEntrapmentAccumulationAccumulation
24803
Petroleum System ElementsPetroleum System Elements
120° F120° F
350° F350° FGenerationGeneration
MigrationMigration
Seal RockSeal Rock
ReservoirRockReservoirRock
OilOil
WaterWater
GasCapGasCap
EntrapmentEntrapment
SourceSourceRockRock
![Page 47: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/47.jpg)
Cross Section Of A Petroleum System
Geographic Extent of Petroleum System
(Foreland Basin Example)
O OOStratigraphic
Extent ofPetroleum
Extent of Prospect/FieldExtent of Play
Overburden Rock
Seal Rock
Reservoir Rock
Source Rock
Underburden Rock
Basement Rock
Top Oil WindowTop Gas Window
Petroleum Reservoir (O)
Fold-and-Thrust Belt(arrows indicate relative fault motion)
EssentialElements
ofPetroleum
System
(modified from Magoon and Dow, 1994)
Sedi
men
tary
Bas
in F
ill
PetroleumSystem
Pod of ActiveSource Rock
![Page 48: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/48.jpg)
Oil/watercontact (OWC)
Fault(impermeable)
Generation, Migration, and Trapping ofHydrocarbons
Reservoirrock
SealMigration route
Oil/watercontact (OWC)
Hydrocarbonaccumulation
in thereservoir rock
Top of maturity
Source rock
Fault(impermeable)
![Page 49: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/49.jpg)
Interpretation of Total Organic Carbon (TOC)(based on early oil window maturity)
HydrocarbonGenerationPotential
TOC in Shale(wt. %)
TOC in Carbonates(wt. %)
Poor 0.0-0.5 0.0-0.2Poor
Fair
Good
Very Good
Excellent
0.0-0.5
0.5-1.0
1.0-2.0
2.0-5.0
>5.0
0.0-0.2
0.2-0.5
0.5-1.0
1.0-2.0
>2.0
![Page 50: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/50.jpg)
Schematic Representation of theMechanism
of Petroleum Generation and DestructionOrganic Debris
Oil Reservoir
Diagenesis
Prog
ress
ive
Bur
ial a
nd H
eatin
g
(modified from Tissot and Welte, 1984)
Kerogen
Carbon
Initial Bitumen
Oil and Gas
Methane
MigrationThermal Degradation
Cracking
Catagenesis
MetagenesisProg
ress
ive
Bur
ial a
nd H
eatin
g
![Page 51: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/51.jpg)
STOP………………………FOR LUNCH TIME……..
![Page 52: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/52.jpg)
Hydrocarbons Trap
![Page 53: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/53.jpg)
Structural traps
Stratigraphic traps
Combination traps
Structural traps
Stratigraphic traps
Combination traps
![Page 54: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/54.jpg)
Oil
Hydrocarbon Traps - Dome
Gas
SandstoneShale
![Page 55: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/55.jpg)
Structural Hydrocarbon Traps
Oil/WaterContact
GasOil/GasContact
Oil
ClosureOilShale Trap
Fracture Basement Fold Trap
SaltDiapir
(modified from Bjorlykke, 1989)
OilSalt
Dome
![Page 56: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/56.jpg)
Oil/GasOil/Gas
Stratigraphic Hydrocarbon Traps
Uncomformity
Unconformity Pinch out
Oil/Gas
Channel Pinch Out
(modified from Bjorlykke, 1989)
![Page 57: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/57.jpg)
Fault Trap
Oil / Gas
![Page 58: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/58.jpg)
Asphalt Trap
Water
MeteoricWater
BiodegradedOil/Asphalt
PartlyBiodegraded Oil
Other Traps
Hydrodynamic Trap
Shale
OilWater
HydrostaticHead
(modified from Bjorlykke, 1989)
![Page 59: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/59.jpg)
Heterogeneity
![Page 60: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/60.jpg)
Reservoir Heterogeneity in SandstoneHeterogeneity
Segments Reservoirs
Increases Tortuosity ofFluid Flow
Heterogeneity MayResult From:
Depositional Features
Diagenetic Features
(Whole Core Photograph, MisoaSandstone, Venezuela)
![Page 61: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/61.jpg)
Reservoir Heterogeneity in Sandstone
Heterogeneity Also MayResult From:Faults
Fractures
Faults
Fractures
Faults and Fractures maybe Open (Conduits) orClosed (Barriers) to FluidFlow
(Whole Core Photograph, MisoaSandstone, Venezuela)
![Page 62: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/62.jpg)
BoundingSurface
Geologic Reservoir Heterogeneity
BoundingSurface
Eolian Sandstone, Entrada Formation, Utah, USA
![Page 63: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/63.jpg)
Scales of Geological Reservoir Heterogeneity
Fiel
d W
ide
Inte
rwel
lDetermined
From Well Logs,Seismic Lines,
StatisticalModeling,
etc.
100'sm
10's
1-10 km
Well WellInterwell
Area
Reservoir
Inte
rwel
lW
ell-B
ore
(modified from Weber, 1986)
Hand Lens orBinocular Microscope
Unaided Eye
Petrographic orScanning Electron
Microscope
10-100'sm
10-100'smm
1-10'sm
10'sm
100's m
ReservoirSandstone
![Page 64: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/64.jpg)
Scales of Investigation Used inReservoir Characterization
Gigascopic Well Test
Reservoir Model
Relative Volume
1014
300 m
50 m
300 m
Megascopic
Macroscopic
Microscopic
Reservoir ModelGrid Cell
Wireline LogInterval
Core Plug
GeologicalThin Section
1
2 x 1012
3 x 107
5 x 102
300 m
5 m 150 m
2 m1 m
cm
mm - m
(modified from Hurst, 1993)
![Page 65: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/65.jpg)
Classification of Hydrocarbon Reservoir
![Page 66: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/66.jpg)
Petroleum reservoirs are broadly classified asoil or gas reservoirs.
The composition of the reservoir hydrocarbonmixture
Initial reservoir pressure and temperature
Classification of Hydrocarbon Reservoir
Petroleum reservoirs are broadly classified asoil or gas reservoirs.
The composition of the reservoir hydrocarbonmixture
Initial reservoir pressure and temperature
![Page 67: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/67.jpg)
Pressure Temperature Diagram
![Page 68: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/68.jpg)
Figure 1-1• shows a typical pressure-temperature diagram of multi component
system with a specific overall composition. Although differenthydrocarbon system would have a different phase diagram, thegeneral configuration is similar.
These multi component pressure-temperature diagrams are essentiallyused to:
• Classify reservoirs• Classify the naturally occurring hydrocarbon systems• Describe the phase behavior of the reservoir fluid
Pressure Temperature Diagram
Figure 1-1• shows a typical pressure-temperature diagram of multi component
system with a specific overall composition. Although differenthydrocarbon system would have a different phase diagram, thegeneral configuration is similar.
These multi component pressure-temperature diagrams are essentiallyused to:
• Classify reservoirs• Classify the naturally occurring hydrocarbon systems• Describe the phase behavior of the reservoir fluid
![Page 69: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/69.jpg)
Critical point• The critical point for a multi component mixture is referred to as the
state of pressure and temperature at which all intensive properties ofthe gas and liquid phases are equal (point C). At the critical point, thecorresponding pressure and temperature are called the criticalpressure pc and critical temperature Tc of the mixture.
Pressure Temperature Diagram (Continue...)
Bubble-point curve• The bubble-point curve (line BC) is defined as the line separating the
liquid phase region from the two-phase region.
Bubble-point curve• The bubble-point curve (line BC) is defined as the line separating the
liquid phase region from the two-phase region.
Dew-point curve• The dew-point curve (line AC) is defined as the line separating the
vapor-phaseregion from the two-phase region.
![Page 70: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/70.jpg)
Oil Reservoirs• If the reservoir temperature
T is less than the criticaltemperature Tc of thereservoir fluid, the reservoiris classified as an oil reservoir.
Pressure Temperature Diagram (Continue...)
Gas reservoirs• If the reservoir temperature
is greater than the criticaltemperature of thehydrocarbon fluid, thereservoir is considered a gasreservoir.
Gas reservoirs• If the reservoir temperature
is greater than the criticaltemperature of thehydrocarbon fluid, thereservoir is considered a gasreservoir.
![Page 71: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/71.jpg)
Oil Reservoirs• If the reservoir temperature
T is less than the criticaltemperature Tc of thereservoir fluid, the reservoiris classified as an oil reservoir.
Oil Reservoir Base on P-T Diagram
Low-shrinkage oil• Oil formation volume factor less
than 1.2 bbl/STB• Gas-oil ratio less than 200 scf/STB• Oil gravity less than 35° API• Black or deeply colored
![Page 72: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/72.jpg)
• In general, if the reservoir temperature is above the criticaltemperature of the hydrocarbon system, the reservoir isclassified as a natural gas reservoir. On the basis of theirphase diagrams and the prevailing reservoir conditions, naturalgases can be classified into 3 categories:• Retrograde gas-condensate• Wet gas• Dry gas
Gas Reservoirs
• In general, if the reservoir temperature is above the criticaltemperature of the hydrocarbon system, the reservoir isclassified as a natural gas reservoir. On the basis of theirphase diagrams and the prevailing reservoir conditions, naturalgases can be classified into 3 categories:• Retrograde gas-condensate• Wet gas• Dry gas
![Page 73: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/73.jpg)
• If the reservoir temperature T liesbetween the critical temperature Tcand cricondentherm Tct of thereservoir fluid, the reservoir isclassified as a retrograde gas-condensate reservoir.
• The gas-oil ratio for a condensatesystem increases with time due to theliquid dropout and the loss of heavycomponents in the liquid.
• Condensate gravity above 50° API• Stock-tank liquid is usually water-white
or slightly colored.
Retrograde gas-condensate reservoir
• If the reservoir temperature T liesbetween the critical temperature Tcand cricondentherm Tct of thereservoir fluid, the reservoir isclassified as a retrograde gas-condensate reservoir.
• The gas-oil ratio for a condensatesystem increases with time due to theliquid dropout and the loss of heavycomponents in the liquid.
• Condensate gravity above 50° API• Stock-tank liquid is usually water-white
or slightly colored.
![Page 74: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/74.jpg)
• Temperature of wet-gas reservoiris above the cri-condentherm ofthe hydrocarbon mixture. Becausethe reservoir temperature exceedsthe cri-condentherm of thehydrocarbon system, the reservoirfluid will always remain in the vaporphase region as the reservoir isdepleted isothermally, along thevertical line A-B.
Wet Gas Reservoir
• Temperature of wet-gas reservoiris above the cri-condentherm ofthe hydrocarbon mixture. Becausethe reservoir temperature exceedsthe cri-condentherm of thehydrocarbon system, the reservoirfluid will always remain in the vaporphase region as the reservoir isdepleted isothermally, along thevertical line A-B.
![Page 75: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/75.jpg)
Wet-gas reservoirs are characterized by thefollowing properties:• Gas oil ratios between 60,000 to 100,000 scf/STB• Stock-tank oil gravity above 60° API• Liquid is water-white in color• Separator conditions, i.e., separator pressure and
temperature, lie within the two-phase region
Wet Gas Reservoir (Continue…)
Wet-gas reservoirs are characterized by thefollowing properties:• Gas oil ratios between 60,000 to 100,000 scf/STB• Stock-tank oil gravity above 60° API• Liquid is water-white in color• Separator conditions, i.e., separator pressure and
temperature, lie within the two-phase region
![Page 76: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/76.jpg)
The hydrocarbon mixture existsas a gas both in the reservoir andin the surface facilities.Usually a system having a gas-oilratio greater than 100,000scf/STB is considered to be a drygas.
Dry Gas Reservoir
The hydrocarbon mixture existsas a gas both in the reservoir andin the surface facilities.Usually a system having a gas-oilratio greater than 100,000scf/STB is considered to be a drygas.
![Page 77: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/77.jpg)
Reservoir Driving Mechanism
![Page 78: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/78.jpg)
• Many reservoirs are boundedon a portion or all of theirperipheries by water bearingrocks called aquifers. Theaquifers may be so largecompared to the reservoirthey adjoin as to appearinfinite for all practicalpurposes, and they may rangedown to those so small as tobe negligible in their effectson the reservoir performance.Reservoir havea water drive
The Water-Drive Mechanism
• Many reservoirs are boundedon a portion or all of theirperipheries by water bearingrocks called aquifers. Theaquifers may be so largecompared to the reservoirthey adjoin as to appearinfinite for all practicalpurposes, and they may rangedown to those so small as tobe negligible in their effectson the reservoir performance.Reservoir havea water drive
![Page 79: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/79.jpg)
Characteristics Trend
Reservoir pressure Declines very slowly (remains veryhigh)
Gas oil ratio Little change during the life ofthe reservoir (remains low)
The Water-Drive Mechanism (Continue)
Little change during the life ofthe reservoir (remains low)
Water production Early excess water production
Well behavior Flow until water production getsexcessive.
Oil recovery 35 to 75 %
![Page 80: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/80.jpg)
Rock and Liquid Expansion
• When an oil reservoir initially exists at a pressure higher thanits bubble-point pressure, the reservoir is called an undersaturated oil reservoir.
• At pressures above the bubble-point pressure, crude oil,connate water, and rock are the only materials present. Asthe reservoir pressure declines, the rock and fluids expanddue to their individual compressibility's.
• At pressures above the bubble-point pressure, crude oil,connate water, and rock are the only materials present. Asthe reservoir pressure declines, the rock and fluids expanddue to their individual compressibility's.
• The reservoir rock compressibility is the result of two factors:• Expansion of the individual rock grains• Formation compaction
![Page 81: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/81.jpg)
Solution-gas Drive, Gas-Cap Drive, Gravity Drive
![Page 82: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/82.jpg)
This driving form may also bereferred to by the followingvarious terms:
• Solution gas drive• Dissolved gas drive• Internal gas drive
The Depletion Drive Mechanism
In this type of reservoir, theprincipal source of energy is a resultof gas liberation from the crude oiland the subsequent expansion of thesolution gas as the reservoirpressure is reduced. As pressurefalls below the bubble-pointpressure, gas bubbles are liberatedwithin the microscopic pore spaces
![Page 83: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/83.jpg)
Gas Cap Drive
Gas-cap-drive reservoirs can beidentified by the presence of a gascap with little or no water drive asshown in figure on the left. Due tothe ability of the gas cap to expand,these reservoirs arecharacterized by a slow decline inthe reservoir pressure. The naturalenergy available to produce thecrude oil comes from the followingtwo sources:• Expansion of the gas-cap gas• Expansion of the solution gas as it
is liberated
Gas-cap-drive reservoirs can beidentified by the presence of a gascap with little or no water drive asshown in figure on the left. Due tothe ability of the gas cap to expand,these reservoirs arecharacterized by a slow decline inthe reservoir pressure. The naturalenergy available to produce thecrude oil comes from the followingtwo sources:• Expansion of the gas-cap gas• Expansion of the solution gas as it
is liberated
![Page 84: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/84.jpg)
The mechanism of gravity drainageoccurs in petroleum reservoirs as aresult of differences in densities ofthe reservoir fluids. The effects ofgravitational forces can be simplyillustrated by placing a quantity ofcrude oil and a quantity of water in ajar and agitating the contents. Afteragitation, the jar is placed at rest,and the more denser fluid (normallywater) will settle to the bottom ofthe jar, while the less dense fluid(normally oil) will rest on top of thedenser fluid. The fluids haveseparated as a result of thegravitational forces acting on them.
The Gravity-Drainage-Drive Mechanism
The mechanism of gravity drainageoccurs in petroleum reservoirs as aresult of differences in densities ofthe reservoir fluids. The effects ofgravitational forces can be simplyillustrated by placing a quantity ofcrude oil and a quantity of water in ajar and agitating the contents. Afteragitation, the jar is placed at rest,and the more denser fluid (normallywater) will settle to the bottom ofthe jar, while the less dense fluid(normally oil) will rest on top of thedenser fluid. The fluids haveseparated as a result of thegravitational forces acting on them.
![Page 85: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/85.jpg)
Characteristics Trend
Reservoir pressure Variable rates of pressure decline,depending principally upon the amountof gas conservation.
Gas oil ratio Low gas-oil ratio
Water production Little or no water production.
Well behavior Hi Water Cut
Oil recovery Near to 80 %
![Page 86: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/86.jpg)
• Two combinations of driving forces can bepresent in combination drive reservoirs. Theseare (1) depletion drive and a weak water driveand; (2) depletion drive with a small gas cap anda weak water drive. Then, of course, gravitysegregation can play an important role in any ofthe aforementioned drives.
The Combination-Drive Mechanism
The driving mechanism most commonlyencountered is one in which both waterand free gas are available in some degreeto displace the oil toward the producingwells. The most common type of driveencountered, therefore, is acombination-drive mechanism asillustrated in Figure below.
• Two combinations of driving forces can bepresent in combination drive reservoirs. Theseare (1) depletion drive and a weak water driveand; (2) depletion drive with a small gas cap anda weak water drive. Then, of course, gravitysegregation can play an important role in any ofthe aforementioned drives.
![Page 87: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/87.jpg)
Figure 4 Combination drive reservoir
![Page 88: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/88.jpg)
Reservoir Calculation in General
![Page 89: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/89.jpg)
Transition Zone Transition Zone
![Page 90: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/90.jpg)
![Page 91: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/91.jpg)
Volumetric Mechanics(Equations)
GAS:Area (Ac) x Thickness (Ft) x Avg Porosity (%) x Avg Sgi (%) x Bgi(SCF/RCF) x 43,560 sqft/ac = OGIP (SCF)
OIL:Area (Ac) x Thickness (Ft) x Avg Porosity (%) x Avg Soi (%) / Boi(RB/STB) x 7758.4 Bbls/AcFt = OOIP (STB)
Volumetric Mechanics(Equations)
GAS:Area (Ac) x Thickness (Ft) x Avg Porosity (%) x Avg Sgi (%) x Bgi(SCF/RCF) x 43,560 sqft/ac = OGIP (SCF)
OIL:Area (Ac) x Thickness (Ft) x Avg Porosity (%) x Avg Soi (%) / Boi(RB/STB) x 7758.4 Bbls/AcFt = OOIP (STB)
![Page 92: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/92.jpg)
Volumetric Mechanics(Gross Reservoir Volume)
AREA: Productive area (map view), in acresSubdivide overall area into components that are calculated individuallybased on similar average reservoir thickness
THICKNESS: From reservoir or fluid top to contact or saturation cutoff, in feet
SUMMED (AREA(S) X THICKNESS) =
GROSS RESERVOIR VOLUME in AcreFeet
Volumetric Mechanics(Gross Reservoir Volume)
AREA: Productive area (map view), in acresSubdivide overall area into components that are calculated individuallybased on similar average reservoir thickness
THICKNESS: From reservoir or fluid top to contact or saturation cutoff, in feet
SUMMED (AREA(S) X THICKNESS) =
GROSS RESERVOIR VOLUME in AcreFeet
![Page 93: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/93.jpg)
Volumetric Mechanics(Pore Volume)
GROSS RESERVOIR VOLUME (AcFt) x Average Porosity (%) withinproductive reservoir =
GROSS STORAGE (PORE) VOLUME (AcreFeet)
Volumetric Mechanics(Pore Volume)
GROSS RESERVOIR VOLUME (AcFt) x Average Porosity (%) withinproductive reservoir =
GROSS STORAGE (PORE) VOLUME (AcreFeet)
![Page 94: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/94.jpg)
Volumetric Mechanics(Gross Oil/Gas Volume)
GROSS STORAGE (PORE) VOLUME (AcreFeet) xAVERAGE OIL (Soi) or GAS (Sgi) SATURATION (%) =
GROSS OIL or GAS VOLUME (AcreFeet)
===========================
Conversion to standard units of RBbls or RCF
AcreFeet x 7,758 Bbls/AcreFoot = Oil in Reservoir Barrels
AcreFeet x 43,560 Cubic Feet/AcreFoot = Gas in Reservoir Cubic Feet
Volumetric Mechanics(Gross Oil/Gas Volume)
GROSS STORAGE (PORE) VOLUME (AcreFeet) xAVERAGE OIL (Soi) or GAS (Sgi) SATURATION (%) =
GROSS OIL or GAS VOLUME (AcreFeet)
===========================
Conversion to standard units of RBbls or RCF
AcreFeet x 7,758 Bbls/AcreFoot = Oil in Reservoir Barrels
AcreFeet x 43,560 Cubic Feet/AcreFoot = Gas in Reservoir Cubic Feet
![Page 95: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/95.jpg)
Volumetric Mechanics (Oil)(Conversion to Stock Tank Barrels)
FORMATION VOLUME FACTOR (Bo):
Rules of Thumb
‘Dead’ Oil (no dissolved gas): Bo ~ 1.0 (RB/STB)‘Gassy’ (deepish) Oil: Bo ~ 1.4 (RB/STB)‘Typical’ (shallower) Oil: Bo ~ 1.2 (RB/STB)
Oil Volume (RB) / Bo (RB/STB) = OOIP (STB)
Volumetric Mechanics (Oil)(Conversion to Stock Tank Barrels)
FORMATION VOLUME FACTOR (Bo):
Rules of Thumb
‘Dead’ Oil (no dissolved gas): Bo ~ 1.0 (RB/STB)‘Gassy’ (deepish) Oil: Bo ~ 1.4 (RB/STB)‘Typical’ (shallower) Oil: Bo ~ 1.2 (RB/STB)
Oil Volume (RB) / Bo (RB/STB) = OOIP (STB)
![Page 96: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/96.jpg)
Volumetric Mechanics (Gas)(Conversion to Standard Cubic Feet)
FORMATION VOLUME FACTOR (Bg):
Rules of Thumb
• Bg – If normally pressured (hydrostatic)Bg = Depth (in feet) / 36.9 Example: @ 5,000’ FVF = 136 SCF/RCF-----------------------------• Underpressured (Brooken Field example): .23 psi/ft (normal = .43 psi/ft)@ 1,400’ Bgi = 28 SCF/RCF (38 SCF/RCF if normally pressured)-----------------------• Overpressured
Gas Volume (RCF) X Bg (SCF/RCF) = OGIP (SCF)
Volumetric Mechanics (Gas)(Conversion to Standard Cubic Feet)
FORMATION VOLUME FACTOR (Bg):
Rules of Thumb
• Bg – If normally pressured (hydrostatic)Bg = Depth (in feet) / 36.9 Example: @ 5,000’ FVF = 136 SCF/RCF-----------------------------• Underpressured (Brooken Field example): .23 psi/ft (normal = .43 psi/ft)@ 1,400’ Bgi = 28 SCF/RCF (38 SCF/RCF if normally pressured)-----------------------• Overpressured
Gas Volume (RCF) X Bg (SCF/RCF) = OGIP (SCF)
![Page 97: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/97.jpg)
ReservesFrom OOIP / OGIP
(What can you take to the bank ?)
RECOVERY FACTOR (RF): As Function of• Reservoir Quality, Depth, Pressure, Temperature• Fluid Properties• Drive Mechanism(s)• Reservoir Management
Rules of Thumb
The better the reservoir, the better the recovery factor• Even fluid movement• Larger pore throats (better sweep, more moveable oil/gas)• Better water support (if any to be had)• Better effectiveness in secondary/ tertiary recovery projects
ReservesFrom OOIP / OGIP
(What can you take to the bank ?)
RECOVERY FACTOR (RF): As Function of• Reservoir Quality, Depth, Pressure, Temperature• Fluid Properties• Drive Mechanism(s)• Reservoir Management
Rules of Thumb
The better the reservoir, the better the recovery factor• Even fluid movement• Larger pore throats (better sweep, more moveable oil/gas)• Better water support (if any to be had)• Better effectiveness in secondary/ tertiary recovery projects
![Page 98: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/98.jpg)
Recovery Factors(Ballpark Rules of Thumb)
OIL:• Poor reservoir (low poro-perm): < 10%• Dual Porosity (low matrix reservoir quality): ~ 20%• Good Poro-Perm (Primary = Secondary): ~ 30%• Excellent reservoir (good water support): ~ 40-50%• Ideal (good reservoir quality, management): ~ 60-70%• Tar Sands (mined): ~ 100%
GAS:• CBM, Shale Gas: < 10% (generally)• Good Quality (depletion): ~ 70% (GOM average)• Excellent Reservoir (depletion, + compression): 90%+ (Lake Arthur Ex.)
Recovery Factors(Ballpark Rules of Thumb)
OIL:• Poor reservoir (low poro-perm): < 10%• Dual Porosity (low matrix reservoir quality): ~ 20%• Good Poro-Perm (Primary = Secondary): ~ 30%• Excellent reservoir (good water support): ~ 40-50%• Ideal (good reservoir quality, management): ~ 60-70%• Tar Sands (mined): ~ 100%
GAS:• CBM, Shale Gas: < 10% (generally)• Good Quality (depletion): ~ 70% (GOM average)• Excellent Reservoir (depletion, + compression): 90%+ (Lake Arthur Ex.)
![Page 99: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/99.jpg)
Probabilistic Volumetrics(Because there is no single answer)
• Calculate a range of values based on confidence in variables.P = Probability Factor
P 100 – dead certaintyP 70 to 90 – high confidenceP 10 to 30 – low confidence
• For each variable with significant uncertaintyAssign P 90 , P 50, and P 10 values to create distributionExample: Productive area – P 90 = smallest reasonable area, P 50 = mostlikely area, and P 10 = maximum area (but not unreasonable)
• Qualitative (‘fudgability’ - what do you want it to be ?)Usefulness a function of experience in areaRequires objective assessmentMost beneficial when comparing large projects in which data is sparse
Probabilistic Volumetrics(Because there is no single answer)
• Calculate a range of values based on confidence in variables.P = Probability Factor
P 100 – dead certaintyP 70 to 90 – high confidenceP 10 to 30 – low confidence
• For each variable with significant uncertaintyAssign P 90 , P 50, and P 10 values to create distributionExample: Productive area – P 90 = smallest reasonable area, P 50 = mostlikely area, and P 10 = maximum area (but not unreasonable)
• Qualitative (‘fudgability’ - what do you want it to be ?)Usefulness a function of experience in areaRequires objective assessmentMost beneficial when comparing large projects in which data is sparse
![Page 100: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/100.jpg)
Source (Material and Rocks)
Generation (Maturation)
Migration
Trap
Reservoir
Petroleum System Summary
Source (Material and Rocks)
Generation (Maturation)
Migration
Trap
Reservoir
![Page 101: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/101.jpg)
ANY QUESTIONS..??
Confuse..? Or Sleepy…..???
![Page 102: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/102.jpg)
End Of Presentation
![Page 103: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/103.jpg)
THANKS FOR YOURATTENTION
TERIMA KASIHHATUR SUWUNMATUR SUWUN
WASSALAMU’ALIKUMAdios – C U Soon….In next Module
THANKS FOR YOURATTENTION
TERIMA KASIHHATUR SUWUNMATUR SUWUN
WASSALAMU’ALIKUMAdios – C U Soon….In next Module
THANKS FOR YOURATTENTION
TERIMA KASIHHATUR SUWUNMATUR SUWUN
WASSALAMU’ALIKUMAdios – C U Soon….In next Module
THANKS FOR YOURATTENTION
TERIMA KASIHHATUR SUWUNMATUR SUWUN
WASSALAMU’ALIKUMAdios – C U Soon….In next Module
![Page 104: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/104.jpg)
References
![Page 105: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/105.jpg)
Definitions / Conversions (I)
14.7 psi = Atmospheric (@ S.L.)5,280 feet per mile43,560 sq ft per acre640 acres per sq mile – Section (160 ac per quarter section) 247 ac/sqkm3.281 ft per meter (39.37 inches per meter)1.609 kilometers per mile2.54 centimeters per inch35.32 cubic feet per cubic meter7,758 STBarrels per acre-footSpecific Gravity (crude); .80-.97Btu value for gas: avg ~1Btu / cubic foot (1000Btu/MCF), rich - higher, a lot ofnon-hydrocarbons - lowerAPI gravity: 25=specific gravity .904, 42=specific gravity .816BOE: 6,000 cubic feet per barrel (average)
Definitions / Conversions (I)
14.7 psi = Atmospheric (@ S.L.)5,280 feet per mile43,560 sq ft per acre640 acres per sq mile – Section (160 ac per quarter section) 247 ac/sqkm3.281 ft per meter (39.37 inches per meter)1.609 kilometers per mile2.54 centimeters per inch35.32 cubic feet per cubic meter7,758 STBarrels per acre-footSpecific Gravity (crude); .80-.97Btu value for gas: avg ~1Btu / cubic foot (1000Btu/MCF), rich - higher, a lot ofnon-hydrocarbons - lowerAPI gravity: 25=specific gravity .904, 42=specific gravity .816BOE: 6,000 cubic feet per barrel (average)
![Page 106: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/106.jpg)
VolumetricsDefinitions / Conversions
OOIPOGIPRFFVF: (Bo, Bg)Saturations / Residual Saturations (So, Sg, Sw – Soirr, Sgirr, Swirr)EUR
Resources (In-Place) vs.Reserves (Economically Producible)
VolumetricsDefinitions / Conversions
OOIPOGIPRFFVF: (Bo, Bg)Saturations / Residual Saturations (So, Sg, Sw – Soirr, Sgirr, Swirr)EUR
Resources (In-Place) vs.Reserves (Economically Producible)
![Page 107: Basic Hydrocarbon Reservoir System - … and gas are formed by the thermal cracking of organic compounds buried in fine-grained rocks. ... hydrocarbon system, the reservoir](https://reader030.vdocument.in/reader030/viewer/2022020412/5accc9b47f8b9a27628ce08b/html5/thumbnails/107.jpg)
Volumetric ParametersDefinitions / Conversions (III)
FVFs: Bo - Oil (dead) ~ 1.0 (RSB/STB), oil moderately gassy ~1.2RSB/STB, verygassy ~ 1.4 RSB/STB
Bg – Normally pressured (hydrostatic) FVF = Depth (in ft)/36.9
Example @ 5,000’ FVF = 136 RCF/SCF
Underpressured (Brooken Field example): .23 psi/ft (normal = .43 psi/ft)@ 1,400’ Bgi = 28 RCF/SCF (38 RCF/SCF if normally pressured)
Overpressured
Volumetric ParametersDefinitions / Conversions (III)
FVFs: Bo - Oil (dead) ~ 1.0 (RSB/STB), oil moderately gassy ~1.2RSB/STB, verygassy ~ 1.4 RSB/STB
Bg – Normally pressured (hydrostatic) FVF = Depth (in ft)/36.9
Example @ 5,000’ FVF = 136 RCF/SCF
Underpressured (Brooken Field example): .23 psi/ft (normal = .43 psi/ft)@ 1,400’ Bgi = 28 RCF/SCF (38 RCF/SCF if normally pressured)
Overpressured