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Chapter 2 Chapter 2
Petroleum Geology and Petroleum Geology and ReservoirsReservoirs
(( 石油地質及儲油層石油地質及儲油層 ))20092009
ReferencesReferences石油地質及儲油層 石油地質及儲油層 (Petroleum Geology and (Petroleum Geology and
Reservoir)Reservoir)Textbook 1 Fundamentals of Petroleum, Petroleum Extension
Service, The University of Texas at Austin, Austin, Texas,1979.
– – chapter 1chapter 1
Textbook 2 Archer, J. S., and Wall, C.G., Petroleum Engineering
—principles and practice, Graham & Trotman, MD, 1986.
– – chapter 2chapter 2
TextBook 3 Donohue, D.A.T., and Lang K.R., A First Course in
Petroleum Technology, International Human Resources Development Corporation, Houston,1986
– – chapter 4.1; 4.2chapter 4.1; 4.222
33
Petroleum Geology Petroleum Geology
(( 石油地質石油地質 ))
Geology (Geology ( 地質地質 ))
------ 研究研究 (1)(1) 地球的歷史及構造地球的歷史及構造 (2)(2) 記錄在岩石的生物記錄在岩石的生物 (( 命命 )) 形式形式
Petroleum Geology(Petroleum Geology( 石油地質石油地質 ))
------ 研究地質以預測石油累積之處所研究地質以預測石油累積之處所
44
地球的形成及構造地球的形成及構造 地球的形成 地球的形成 —— 4040 ~~ 5050 億年前由宇宙塵億年前由宇宙塵
(Cosmic dust)(Cosmic dust) 的凝結而成的凝結而成
地球內部大構造 地球內部大構造 —— Core--- heavy (4,400 miles)Core--- heavy (4,400 miles) Mantle--- Lighter (1,800 miles)Mantle--- Lighter (1,800 miles) Crust--- 10~30 milesCrust--- 10~30 miles
55
地球內部大構造地球內部大構造
Core-- heavy (4,400 Core-- heavy (4,400 miles)miles)Mantle-- Lighter (1,800 Mantle-- Lighter (1,800 miles)miles)Crust--- 10~30 milesCrust--- 10~30 miles
在地球上,不管您走到哪裡,你都是在岩石( Rock)的上面。在加州的某些地方,你是站有岩石的上面 20哩處
20哩是多少 ?
6MILES = 9.6 KILOMETERS
20MILES = 32 KILOMETERS
喜馬拉雅山大約有 6 哩高
所以 20哩是喜馬拉雅山的 3 倍高,其間有很多的岩石。
77
地球表面的變化 地球表面的變化 -- Rock cycle-- Rock cycle
Magma( 岩漿 )
Igneous rocks( 火成岩 )
Sediments( 沉積物 )
Sedimentaryrocks
Metamorphicrocks
地球內部 Water vapor and gases
Primeval( 初期的 )Atmosphere( 大氣 )
地殼冷卻
地殼收縮變形而皺摺
噴出 形成
heat
heatpressure
erosion
erosion
pressurecementation
erosion
下雨
Cool
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沉積岩的分類沉積岩的分類
ClasticClastic ChemicalChemical OrganicOrganic OtherOther
ConglomerateConglomerateSandsonteSandsonteSiltstoneSiltstoneShaleShale
CarbonateCarbonate EvaporiteEvaporite PeatPeatCoalCoalDiatomiteDiatomiteLimestoneLimestone
ChertChert
LimestoneLimestoneDolomiteDolomite
GypsumGypsumAnhydriteAnhydriteSaltSaltPotashPotash
碎屑岩碎屑岩 化學岩化學岩 有機岩有機岩 其他其他
礫岩礫岩砂岩砂岩粉砂岩粉砂岩頁岩頁岩
碳酸鹽碳酸鹽 蒸發岩蒸發岩 泥炭泥炭煤煤矽藻土矽藻土石灰岩石灰岩
角岩角岩
石灰岩石灰岩白雲石白雲石
石膏石膏硬石膏硬石膏鹽岩鹽岩碳酸鉀碳酸鉀 ((鉀化鉀化合物合物 ))
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Reservoir Rock (Sedimentary Rock)
Reservoir RockProrsity
Permeability
Sandstones (SiO2)
Carbonates Limestones (CaCO3)
Dolomites (CaCO3, MgCO3)
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地球的歷史地球的歷史
寒武紀寒武紀 (Cambrian)(Cambrian) 【【約約 5.55.5 億年前億年前】】開始在海開始在海洋裡有大量的生物洋裡有大量的生物 (( 生命生命 ))
在寒武紀之前為前寒武紀在寒武紀之前為前寒武紀 (Precambrian)(Precambrian)
地質年代自寒武紀開始地質年代自寒武紀開始 > > 地質代年表地質代年表 (Geologic Time Scale)(Geologic Time Scale)
泥盆紀泥盆紀 (Devonian)(Devonian) 時期時期【【約約 3.33.3 億年前億年前】】陸上陸上有大量植物及動物有大量植物及動物
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Geological Time ScaleGeological Time Scale
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地層年代表地層年代表
1313
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Petroleum accumulationPetroleum accumulation(( 石油累積石油累積 ))
Petroleum reservoirPetroleum reservoir(( 石油油藏石油油藏 ;; 油藏油藏 ;; 油層油層 ))
Petroleum accumulationPetroleum accumulation 必須具備必須具備
(1)Oil (1)Oil & & gas gas 之來源之來源 (2)(2) 具有孔隙具有孔隙 (porosity)(porosity) 及滲透率及滲透率
(permeability)(permeability) 之之 Reservoir RockReservoir Rock
(3) (3) 要有要有 trap(trap( 封閉封閉 )) 以阻擋流體的流動以阻擋流體的流動
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石油的來源石油的來源
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石油的來源石油的來源
-石油來自沈積岩的有機物質-石油來自沈積岩的有機物質 -海洋裡大量的生物不停的,緩慢的掉落到海底。-海洋裡大量的生物不停的,緩慢的掉落到海底。 雖然在掉落的過程中,有部分被吃掉或被氧化掉,雖然在掉落的過程中,有部分被吃掉或被氧化掉, 但另部份但另部份 (( 動物或植物動物或植物 )) 掉落海底而埋在沼澤或泥濘之掉落海底而埋在沼澤或泥濘之 海底海底 -海底繼續被-海底繼續被 Sand(Sand( 砂砂 )) ,, Clay(Clay( 黏土黏土 )) 及及 debrisdebris 等沈積等沈積
物埋沒物埋沒 一直到幾千英呎一直到幾千英呎 -沈積物的壓力開始作用。-沈積物的壓力開始作用。 細菌由殘餘的有機物質中,用掉氧而分解物質,細菌由殘餘的有機物質中,用掉氧而分解物質, 使其僅存碳及氫使其僅存碳及氫 -在高度的壓力及重量的地層影響之下,-在高度的壓力及重量的地層影響之下, ClaysClays 變成變成 Shales → Shales → 石油產生石油產生
砂、淤泥及泥土的顆粒沉到水裡,蓋在死的矽藻類以及其他的動植物之上。而且,水被夾在這些砂、淤泥及泥土的顆粒之中。
不久,這些顆粒,又被其他的動植物殘骸覆蓋。這個過程,一再的重複,最後,泥、砂及水累積達幾千呎厚。
這些砂、泥在堆積過程中,底部的砂、泥受到上部砂、泥而擠壓
在河流、湖及海底的泥、砂、水及動植物殘骸所受的覆蓋壓力逐漸的變大
當覆蓋深度加大而變深,其溫度也增加。經過幾百萬年之後,在適當的壓力及溫度之下,這些泥砂顆粒就變硬而成為岩石,類似褐色或灰色的水泥。
當動植物的殘骸腐朽之後,形成石油及天然氣,大部分的石油及天然氣係由相當微小的動植物殘骸而來的
確實的石油及天然氣之形成原因仍不清楚。但是,溫度、壓力及細菌是很重要的因素。
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Petroleum formation requires Petroleum formation requires that organic source clays that organic source clays become mature by subjection to become mature by subjection to pressure and temperature.pressure and temperature.
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石油形成的重要條件石油形成的重要條件
225℉ < temperature < 350℉ 225℉ < temperature < 350℉ 有利條件有利條件
temperature < 150℉ temperature < 150℉ 不可能形成石油不可能形成石油
temperature > 500℉ temperature > 500℉ 有機物質碳化,有機物質碳化, 不能形成石油不能形成石油
2020
Generation of gas and oilGeneration of gas and oil
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In In geologygeology and and oceanographyoceanography, , diagenesisdiagenesis is any chemical, is any chemical, physical, or biological change physical, or biological change undergone by a undergone by a sedimentsediment after its after its initial deposition and during and after initial deposition and during and after its its lithificationlithification, exclusive of surface , exclusive of surface alteration (weathering) and alteration (weathering) and metamorphismmetamorphism. .
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CatagenesisCatagenesis can refer to: can refer to: Catagenesis (geology)Catagenesis (geology) –– The The crackingcracking
process in which organic process in which organic kerogenskerogens are broken down into are broken down into hydrocarbonshydrocarbons; ;
Catagenesis (biology)Catagenesis (biology) –– Retrogressive evolution, as Retrogressive evolution, as contrasted with contrasted with anagenesisanagenesis. .
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MetamorphismMetamorphism can be defined as can be defined as the solid state recrystallisation of the solid state recrystallisation of pre-existing pre-existing rocksrocks due to changes in due to changes in heat and/or pressure and/or heat and/or pressure and/or introduction of fluids i.e without introduction of fluids i.e without melting. There will be melting. There will be mineralogicalmineralogical, , chemical and chemical and crystallographiccrystallographic changes changes
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Prolonged exposure to high temperatures, or Prolonged exposure to high temperatures, or shorter exposure to very high temperatures, may shorter exposure to very high temperatures, may lead progressively to the generation of lead progressively to the generation of hydrocarbon mixtures characterized as hydrocarbon mixtures characterized as condensates, wet gases and gas.condensates, wet gases and gas.
The average organic content of potential source The average organic content of potential source rocks is about 1% by weight.rocks is about 1% by weight.
The Kimmeridge clay, the principal source rock for The Kimmeridge clay, the principal source rock for North Sea oil average about 5% carbon (~7% North Sea oil average about 5% carbon (~7% organic mater) with local rich streaks greater organic mater) with local rich streaks greater than 40%.than 40%.
The hydrogen content of the organic matter The hydrogen content of the organic matter should be greater than 7% by weight for potential should be greater than 7% by weight for potential as an oil source.as an oil source.
2626
It is a rule of thumb that for each It is a rule of thumb that for each percentage point of organic carbon in percentage point of organic carbon in mature source rocks, some mature source rocks, some 1300~1500 cubic meters of oil per 1300~1500 cubic meters of oil per kmkm22-m (or 10~40 barrels of oil per -m (or 10~40 barrels of oil per acre-ft; or 56-225 ftacre-ft; or 56-225 ft3/ 43560 ft/ 43560 ft3) of ) of sediment could be generated.sediment could be generated.
(1.3~1.5 m3oil: 1,000 m3 rock) (1.3~1.5 m3oil: 1,000 m3 rock)
It is not, however, necessarily true It is not, however, necessarily true that all the oil generated will be that all the oil generated will be expelled or trapped in porous rock.expelled or trapped in porous rock.
2727
石油移棲石油移棲
石油形成( in source rock)
Traps & Reservoir RocksMigration
經過 porous bed 有 permeability
由於 Compaction of Source bed and ……….
The migration process involves two main stages, The migration process involves two main stages, namely from the source rock and then through a namely from the source rock and then through a permeable system.permeable system.
2828
Migration of petroleum Migration of petroleum -- -- from the source rockfrom the source rock
2929
Migration of petroleum Migration of petroleum
-- -- from the source rockfrom the source rock ** Capillary effect** Capillary effect
** Microfractures ** Microfractures Since the generation of petroleum is Since the generation of petroleum is
accompanied by volume changes which can lead accompanied by volume changes which can lead to high local pressures, there may well be an to high local pressures, there may well be an initiation of microfractures which provide an initiation of microfractures which provide an escape route into permeable systems such as escape route into permeable systems such as sedimentary rocks or fault planes.sedimentary rocks or fault planes.
The source rock microfractures are believed to The source rock microfractures are believed to heal as pressures are dissipated.heal as pressures are dissipated.
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Migration of petroleum Migration of petroleum ----through a permeable systemthrough a permeable system
** Fluid potential gradient or gravity effect** Fluid potential gradient or gravity effect
In the permeable system the transport In the permeable system the transport occurs under conditions of a fluid potential occurs under conditions of a fluid potential gradient which may take the hydrocarbon gradient which may take the hydrocarbon to surface or to some place where it to surface or to some place where it becomes trapped.becomes trapped.
It might be assumed that less than 10% of It might be assumed that less than 10% of petroleum generated in source rocks is petroleum generated in source rocks is both expelled and trapped, as shown in both expelled and trapped, as shown in the example of Fig. 2.5. the example of Fig. 2.5.
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Petroleum traps(Petroleum traps( 石油封閉石油封閉 ))
The characteristic forms of petroleum The characteristic forms of petroleum trap are known as trap are known as
structural traps(structural traps( 構造封閉構造封閉 ) and ) and
stratigraphic traps(stratigraphic traps( 地層封閉地層封閉 ),),
with the great majority of known with the great majority of known accumulation being in the former accumulation being in the former style.style.
3333
地質構造(地質構造( Geological StructuresGeological Structures ))
Erosion - SedimentationUplift - wearing down
Upper crust movement
Upward
downward
Fault
Normal
Reverse
Thrust
Lateral
Strata or bed Unconformity- disconformity- Angular unconformity
FoldsArches (or upfold) → anticlines
Traughs (or downfold) → synclines
Important to petroleum accumulation
3434
Figure 1.12. Two general kinds of unconformities are disconformity (A) and angular unconformities (B) and (C).
造山運動之應力所造成
沉積過程所造成
Figure 1.13. Basic hydrocarbon reservoirs are structural and / or stratigraphic traps.
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封閉 (traps)
封閉 (traps)Structural traps - an arched upper surfaceStratigraphic traps---up-dip termination of porosity (permeability)
Structural traps
Anticline trapFault trapDome and plug trap
Stratigraphic traps
Unconformity trapsLenticular trap
Disconformity
Angular unconformity
Combination traps
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Cap rock and fluid Cap rock and fluid distributiondistribution
Impermeable rocks provide seal above Impermeable rocks provide seal above and below the permeable reservoir rocks.and below the permeable reservoir rocks.
At equilibrium conditions, the density At equilibrium conditions, the density differences between the oil, gas and differences between the oil, gas and water phases can result in boundary water phases can result in boundary regions between them known as fluid regions between them known as fluid contacts, i.e. gas-oil and oil-water contacts, i.e. gas-oil and oil-water contacts.contacts.
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Structural trap ( 構造封閉構造封閉 )) -- AnticlineAnticline
Longitudinal view of a typical anticline. The oil cannot escape upward because of the impervious shale bed above the oil sand; neither can it travel downward because of the water that is associated with an accumulation of this type.
Anticlines -Of the many types of structural features present in the upper layers of the earths crust that can trap oil, the most important is the anticlines - the type of structure from which the greater part of the word’s oil has been produced. Anticlines are upfolds of beds in the earth’s crust, and, when the proper conditions are present, oil accumulates within the closure of there folds.
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Structural trap-- Anticline Anticline
Lateral, or end view, of a typical anticline.
Plan view of a typical anticline, showing locations of longitudinal view A-B and lateral view C-D.
3939
Structural trapsFigure 1.7. Schematic cross section shows deformation of earth’s crust by bucking of layers into folds
Figure 1.8. Simple kinds of folds are symmetrical anticline (A), plunging asymmetrical anticline (B), plunging syncline (C), and dome with deep salt core (D).
Figure 1.9. Simplified diagram of the Milano, Texas, fault.
4040
Structural traps– dome & anticline
Figure 1.15. Oil accumulates in a dome-shaped structure (A) and an anticlinal type of fold structure (B). An anticline is generally long and narrow while the dome is circular in outline. (Courtesy of American Petroleum Institute)
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Structural traps -- faultsFigure 1.10. Simple kinds of faults are normal (A), reverse (B), thrust (C), and lateral (D).
Figure 1.11. Variations of normal and reverse faulting are rotational faults (A) and upthrust faults (B).
4343
Structural traps
Figure 1.14. Common types of structural traps
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Structural trap – fault & anticline
Figure 1.17. Shown in map view, fault traps may be simple (A) or compound (B).
Figure 1.16. Gas and oil are trapped in a fault trap-a reservoir resulting from normal faulting or offsetting of strata. The block on the right has moved up from the block on the left, moving impervious shawl opposite the hydrocarbon-bearing formation. (Courtesy of American Petroleum Institute)
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Stratigraphic trapsStratigraphic traps(( 地層封閉地層封閉 ))
4646
Figure 1.12. Two general kinds of unconformities are disconformity (A) and angular unconformities (B) and (C).
造山運動之應力所造成
沉積過程所造成
Figure 1.13. Basic hydrocarbon reservoirs are structural and / or stratigraphic traps.
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Stratigraphic trapsStratigraphic traps
Unconformity - Disconformity - Angnlar unconformity Pinctout
Sand lenses
Changes in sedimentation
4848
Figure 1.22. Oil is trapped under an unconformity. (Courtesy of API)
Figure 1.23. Lenticular traps confine oil in porous parts of the rock. (Courtesy of API)
4949
Stratigraphic trapStratigraphic trap
An example of a stratigraphic trap where the oil zone pinches out.
A stratigraphic trap where sand lenses are interspersed in a shale bed. The shale acts as a permeability barrier
5050
Stratigraphic TrapsStratigraphic Traps
A stratigraphic trap where changes in sedimentation act as a permeability barrier.
An angular unconformity as an oil trap. The flat-lying shale bed above the oil zones acts as a permeability barrier.
5151
Stratigraphic trapsStratigraphic traps
Stratigraphic Stratigraphic traps result traps result when a when a depositional depositional bed changes bed changes from permeable from permeable rock into fine-rock into fine-grain grain impermeable impermeable rock (Fig. 2.8).rock (Fig. 2.8).
5252
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Combination trapsCombination traps
Many reservoirs exist as the result of Many reservoirs exist as the result of a combination of structural and a combination of structural and stratigraphic features.stratigraphic features.
In the Viking Graben area of the In the Viking Graben area of the northern North Sea, the Brent Sand northern North Sea, the Brent Sand reservoirs are characteristically reservoirs are characteristically faulted deltaic sands truncated by faulted deltaic sands truncated by the Cretaceous unconformity.the Cretaceous unconformity.
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ReservoirsReservoirs
Reservoir(Reservoir( 儲油層儲油層 ))
We may define a reservoir as an accumulation of We may define a reservoir as an accumulation of hydrocarbon in porous permeable sedimentary rock.hydrocarbon in porous permeable sedimentary rock.
The accumulation, which will have reached a fluid The accumulation, which will have reached a fluid pressure equilibrium throughout its pore volume at pressure equilibrium throughout its pore volume at the time of discovery, is also sometimes known as a the time of discovery, is also sometimes known as a pool.pool.
A hydrocarbon field may comprise several A hydrocarbon field may comprise several reservoirs at different stratigraphic horizons or in reservoirs at different stratigraphic horizons or in different pressure regimes. different pressure regimes.
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FieldField
An area consisting of a single reservoir or multiple reservoirs all grouped on, or related to, the same individual geological structural feature and/or stratigraphic condition. There may be two or more reservoirs in a field that are separated vertically by intervening impermeable rock, laterally by local geologic barriers, or both. The term may be defined differently by individual regulatory authorities.
5858
Reservoir(Reservoir( 儲油層儲油層 ))
A subsurface rock formation containing an A subsurface rock formation containing an individual and separate natural individual and separate natural accumulation of moveable petroleum that accumulation of moveable petroleum that is confined by impermeable is confined by impermeable rocks/formations and is characterized by a rocks/formations and is characterized by a single-pressure system.single-pressure system.
5959
Reservoir(Reservoir( 儲油層儲油層 ))
具有商業價值的石油具有商業價值的石油 (( 及天然氣及天然氣 )) 地層地層 ----reservoirreservoir ,所需具備之條件,所需具備之條件
(1)(1) 合適之地層形貌 合適之地層形貌 (Shape/Configuration- (Shape/Configuration- traps)traps)
(2)(2) 頂蓋層 頂蓋層 (cap rock, rock seal)(cap rock, rock seal) (3)(3) 儲油層之面積儲油層之面積 (area)(area) 大大 (4)(4) 儲油層之厚度儲油層之厚度 (thickness)(thickness) 大大 (5)(5) 儲油層之孔隙率儲油層之孔隙率 (porosity)(porosity) 大大 (6)(6) 儲油層之含水飽和度儲油層之含水飽和度 (water saturation)(water saturation) 小小 (7)(7) 儲油層之滲透率儲油層之滲透率 (permeability)(permeability) 大大
6060
原油現地藏量原油現地藏量Original oil in place (OOIP)Original oil in place (OOIP)
OOIP = A * h * OOIP = A * h * * (1-S * (1-Sww)* 1/B)* 1/Boo
wherewhere A=A= 儲油層之面積儲油層之面積 (area)(area) h=h= 儲油層之厚度儲油層之厚度 (thickness)(thickness) == 儲油層之孔隙率儲油層之孔隙率 (porosity)(porosity)
SSww = = 儲油層之含水飽和度儲油層之含水飽和度 (water (water saturation)saturation)
Bo = Bo = 石油地層體積因子石油地層體積因子 (oil formation(oil formation volume factor)volume factor)
6161
原油現地藏量原油現地藏量Original oil in place (OOIP)Original oil in place (OOIP)
OOIP = 7758* A * h * OOIP = 7758* A * h * * (1-S * (1-Sww)* 1/B)* 1/Boo
wherewhere OOIP = OOIP = 原油現地藏量原油現地藏量 , STB, STB
A=A= 儲油層之面積儲油層之面積 (area), acres(area), acres h=h= 儲油層之厚度儲油層之厚度 (thickness), ft(thickness), ft == 儲油層之孔隙率儲油層之孔隙率 (porosity), fraction(porosity), fraction SSww = = 儲油層之含水飽和度儲油層之含水飽和度 (water saturation), fraction(water saturation), fraction BBoo = = 石油地層體積因子石油地層體積因子 (oil formation volume factor) (oil formation volume factor) , bbl/STB, bbl/STB
1 acres = 43560 1 acres = 43560 ftft22
1 bbl = 5.61458 ft1 bbl = 5.61458 ft33
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資源量及蘊藏量定義資源量及蘊藏量定義
資源量資源量 (Petroleum Resources(Petroleum Resources , 或 , 或 ResourcesResources , 或 , 或 Total Total
Petroleum in place Petroleum in place , 或 , 或 Original oil in place Original oil in place ))
在一區域或礦區所存在的石油(含天然氣)之總在一區域或礦區所存在的石油(含天然氣)之總量,稱為資源量。量,稱為資源量。
蘊藏量蘊藏量 (Petroleum Reserves(Petroleum Reserves ,或 ,或 Reserves )Reserves )
在一已知區域或礦區中,自某一時間點開始,依在一已知區域或礦區中,自某一時間點開始,依據當時的經濟條件據當時的經濟條件 (E)(E) 、工程技術、工程技術 (F)(F) 、及地、及地質條件質條件 (G)(G) 下,在可預見的未來所能採收的石油下,在可預見的未來所能採收的石油(含天然氣)之量稱為蘊藏量,或最終採收量。(含天然氣)之量稱為蘊藏量,或最終採收量。
ResourcesResourcesThe term “resources” as used herein is intended The term “resources” as used herein is intended to encompass all quantities of petroleum to encompass all quantities of petroleum (recoverable and unrecoverable) naturally (recoverable and unrecoverable) naturally occurring on or within the Earth’s crust, occurring on or within the Earth’s crust, discovered and undiscovered, plus those discovered and undiscovered, plus those quantities already produced. quantities already produced.
Further, it includes all types of petroleum whether Further, it includes all types of petroleum whether currently considered “conventional” or currently considered “conventional” or “unconventional” (see Total Petroleum Initially-in-“unconventional” (see Total Petroleum Initially-in-Place). (In basin potential studies, it may be Place). (In basin potential studies, it may be referred to as Total Resource Base or Hydrocarbon referred to as Total Resource Base or Hydrocarbon Endowment.)Endowment.)
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Total Petroleum Initially-in-PlaceTotal Petroleum Initially-in-Place
• Petroleum Initially-in-Place is the total Petroleum Initially-in-Place is the total quantity of petroleum that is estimated to quantity of petroleum that is estimated to exist originally in naturally occurring exist originally in naturally occurring reservoirs. reservoirs.
• Crude Oil-in-place, Natural Gas-in-place Crude Oil-in-place, Natural Gas-in-place and Natural Bitumen-in-place are defined and Natural Bitumen-in-place are defined in the same manner (see Resources). (Also in the same manner (see Resources). (Also referred as Total Resource Base or referred as Total Resource Base or Hydrocarbon Endowment.)Hydrocarbon Endowment.)
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ReservesReserves
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Reserves are those quantities of petroleum anticipated to be commercially recoverable by application of development projects to known accumulations from a given date forward under defined conditions.
Reserves must further satisfy four criteria: They must be discovered, recoverable, commercial, and remaining (as of a given date) based on the development project(s) applied.
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Reserves (Reserves ( 蘊藏量蘊藏量 ))
Reserves = OOIP * recovery factorReserves = OOIP * recovery factor
where OOIP = A * h * where OOIP = A * h * * (1-S * (1-Sww) * 1/B) * 1/Boo
recovery factor (recovery factor ( 採收因子採收因子 ) )
= f( k, E, P, T = f( k, E, P, T ……))
k = permeability (k = permeability ( 滲透率滲透率 ))
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The setting for hydrocarbon accumulation The setting for hydrocarbon accumulation
is a sedimentary basin that has provided is a sedimentary basin that has provided the essential components for petroleum the essential components for petroleum reservoir occurrence, namelyreservoir occurrence, namely (a) a source for hydrocarbons, (a) a source for hydrocarbons, (b) the formation and migration of petroleum,(b) the formation and migration of petroleum, (c) a trapping mechanism, i.e., the existence of (c) a trapping mechanism, i.e., the existence of
traps in porous sedimentary rock at the time of traps in porous sedimentary rock at the time of migration and in the migration path.migration and in the migration path.
The discovery of oil by exploration well The discovery of oil by exploration well drilling in some of the worlddrilling in some of the world’’s sedimentary s sedimentary basin is shown in Figs. 2.1 and 2.2basin is shown in Figs. 2.1 and 2.2
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Exploration Showing a Good Success Rate
23 March 2006 - A strong reflection of New Zealand's prospectivity for oil and gas has been shown by the substantial lift in exploration wells drilled since 2000, and particularly in the past two years. A strong reflection of New Zealand's prospectivity for oil and gas has been shown by the substantial lift in exploration wells drilled since 2000, and particularly in the past two years.
In his keynote presentation to the New Zealand Petroleum Conference, which had a record attendance of more than 520 of which many were from overseas, Associate Energy Minister Harry Duynhoven said a total of 149 wells were drilled in the past six years, of which 74 were wildcats.
In the past 24 months 69 wells were drilled. The Minister said that of the total 74 wildcats there were 12 discoveries, indicating a success rate of about 16%.
Exploration Success Rate
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現今的石油鑽井很安全;很多國家都有制定法令以保護地表及地下之自然環境。
在七個探勘井中會有一口具有生產利潤的生產井
對於不具生產價值的井,必須用水泥及泥土將井口封閉起來
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104 m3 oil / wildcat
108 m3 oil / wildcat 106 m3 oil / wildcat
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Lower right line (0.1 103 m3 oil / km2 ) / (100 willcat wells/104 km2 ) = 104 m3 oil / willcat well = 6.289*104 bbl3 oil / willcat well
Upper left line (10 103 m3 oil / km2 ) / (1 wildcat well/104 km2 ) = 108 m3 oil / wildcat well = 6.289*108 bbl oil / wildcat well
104 m3 oil / wildcat
108 m3 oil / wildcat 106 m3 oil / wildcat
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100% successful wildcat / wildcat
1% successful wildcat / wildcat
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Lower right line (0.01 106 m3 oil discovered / willcat ) / (1 106 m3 oil discovered/ successful wildcat ) = 1% successful wildcat / wildcat
Upper left line (0.1 106 m3 oil discovered / wildcat ) / (0.1 106 m3 oil discovered/ successful wildcat ) = 100% successful wildcat / wildcat
100% successful wildcat / wildcat
1% successful wildcat / wildcat
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Reservoir fluids and pressureReservoir fluids and pressure
From a petroleum engineering From a petroleum engineering perspective it is convenient to think perspective it is convenient to think of sedimentary basins as of sedimentary basins as accumulations water in areas slow accumulations water in areas slow subsidence into which sediments subsidence into which sediments have been transported.have been transported.
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Reservoir fluids and pressureReservoir fluids and pressure
Reservoir fluidsGasOilwater
Water ─ connate water(connate interstitial water)
Free water~Aquifer
Bottom water
Edge water
Gas Solution gas
Free gas
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Fluid pressures in a hydrocarbon Fluid pressures in a hydrocarbon zonezone
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Pressure gradient equationPressure gradient equation In a water column representing vertical pore fluid In a water column representing vertical pore fluid
continuity, the pressure at any point (Pcontinuity, the pressure at any point (Pxx) is ) is approximated by the relationshipapproximated by the relationship
PPxx = X = X .. GGww
or Por Pxx = X = X .. GGw w + C+ C
where X = the depth below a reference datum where X = the depth below a reference datum (such (such
as sea level)as sea level)
GGww = the pressure exerted by unit height of = the pressure exerted by unit height of water, or pressure gradientwater, or pressure gradient
GGww = f (T, salinity) = f (T, salinity)
GGww = 0.433 psi/ft (or 9.79 kpa/m) for fresh water = 0.433 psi/ft (or 9.79 kpa/m) for fresh water
GGww = 0.44 psi/ft (10 kpa/m) ~ 0.53 psi/ft (12 kpa/m) = 0.44 psi/ft (10 kpa/m) ~ 0.53 psi/ft (12 kpa/m) for reservoir water system for reservoir water system
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Hydrocarbon pressure regimesHydrocarbon pressure regimes
In hydrocarbon pressure regimesIn hydrocarbon pressure regimes
psi/ftpsi/ft
psi/ftpsi/ft
psi/ft psi/ft
45.0)( waterdD
dP
35.0)( oildD
dP
08.0)( gasdD
dP
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Pressure gradient rangesPressure gradient ranges
In reservoir found at depth between 2000 In reservoir found at depth between 2000 m SS and 4000 m SS, we might use a m SS and 4000 m SS, we might use a gradient of 11 kpa/m to predict pore fluid gradient of 11 kpa/m to predict pore fluid pressures around 220 bars to 440 bars. pressures around 220 bars to 440 bars.
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Fluid pressures in a hydrocarbon Fluid pressures in a hydrocarbon zonezone
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Reservoir pressure
Reservoir pressureNormal pressure
Abnormal pressure - Artesian effect
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Abnormal hydrostatic pressure Abnormal hydrostatic pressure ( No continuity of water to the surface)( No continuity of water to the surface)
[=] psia[=] psia
Normal hydrostatic pressureNormal hydrostatic pressure
c = 0 c = 0
Abnormal (hydrostatic) pressureAbnormal (hydrostatic) pressure c >> 0 → Overpressure (Abnormal high c >> 0 → Overpressure (Abnormal high
pressure)pressure) c << 0 → Underpressure (Abnormal low c << 0 → Underpressure (Abnormal low
pressure)pressure)
CDdD
dPP water 7.14)(
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Conditions causing abnormal fluid Conditions causing abnormal fluid pressurespressures
Conditions causing abnormal fluid pressures in Conditions causing abnormal fluid pressures in enclosed water bearing sands includeenclosed water bearing sands include
Temperature change ΔT = +1℉ → ΔP = +125 Temperature change ΔT = +1℉ → ΔP = +125 psi in a sealed fresh water systempsi in a sealed fresh water system
Geological changes Geological changes –– uplifting; surface erosion uplifting; surface erosion Osmosis between waters having different Osmosis between waters having different
salinity, the sealing shale acting as the semi salinity, the sealing shale acting as the semi permeable membrane in this ionic exchange; permeable membrane in this ionic exchange; if the water within the seal is more saline than if the water within the seal is more saline than the surrounding water the osmosis will cause the surrounding water the osmosis will cause the abnormal high pressure and vice versa.the abnormal high pressure and vice versa.
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問題問題 1. 1. 石油如何形成?石油如何形成? 2. 2. 儲石油及天然氣層儲石油及天然氣層 (Oil and gas reservoir)(Oil and gas reservoir) 是是
什麼?什麼? 3. 3. 石油如何形成後,如何移動?移至何處?如何形石油如何形成後,如何移動?移至何處?如何形
成儲油氣層成儲油氣層 (Reservoir)?(Reservoir)? 4. 4. 儲氣層中,含有那些流體?儲氣層中,含有那些流體? 5. 5. 地質師如何尋找石油?地質師如何尋找石油? 6. 6. 鑽井時,所使用的泥槳,其行經路徑如何?鑽井時,所使用的泥槳,其行經路徑如何? 7. 7. 泥槳的功能是什麼?泥槳的功能是什麼? 8. 8. 一般探勘井的成功率是多少?一般探勘井的成功率是多少?
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