petroleum geology - origin of petroleum
DESCRIPTION
Petroleum Geology, Petroleum Engineering, Origin of Petroleum (Formation, Migration, & Accumulation of Petroleum)TRANSCRIPT
JAMES A. CRAIG
Formation
Migration
Accumulation
ORIGIN OF PETROLEUM
To be considered are these 3 stages:
Formation of Petroleum Migration of Petroleum Accumulation of Petroleum
Formation of Petroleum
There are 2 theories concerning the formation of petroleum:
The Inorganic theory The Organic theory
Inorganic Theory
Berthelot (1860) & Dmitri Mendeleev (1902): Iron carbide in the earth’s mantle would react with
percolating water to form methane. FeC2 + 2H2O → CH4 + FeO2
This theory is called Deep-Seated Terrestrial Hypothesis.
Sokoloff (1890): Hydrocarbons precipitated as rain from the
original nebular matter from which solar system was formed.
The hydrocarbons were the ejected from earth’s interior onto surface rocks.
This theory is called Extraterrestrial Hypothesis
Problems with Inorganic Theories : No field evidence that inorganic processes have
occurred in nature. Commercial accumulations are restricted to
mainly sedimentary basins. Accumulations are absent from igneous and
metamorphic rocks.
Organic Theory Early marine life forms living on earth were
primarily plankton (rich in hydrogen & carbon) Over 95% of living matter in the ocean is
plankton.
As these plankton died, their remains were captured by the process of erosion and sedimentation.
Successive layers of organic-rich mud & silt covered preceding layers of organic-rich sediments & overtime created layers on the sea floor rich in the fossil remains of previous life.
Thermal maturation processes (decay, heat, pressure) slowly converted the organic matter into oil & gas over periods of millions of geologic years.
Conversion of the organic material is called Catagenesis.
It usually occurs under anaerobic conditions.
Clay & silt are carried together with the dead organic remains & deposited under deltaic, lacustrine & marine conditions to form Source rocks.
Black-coloured, organically-rich shales deposited in a non-oxidizing, quiet marine environment are considered the best source rocks.
Shales
Shale rock = 99% clay mineral + 1% organic material.
Kerogen Insoluble High molecular
weight Polymeric
compound
Thermal alteration of kerogen forms crude oil by increasing the carbon contents.
At shallow depths (< 3,000 ft), bacteria actions on organic materials form Biogenic Gas (natural gas).
At great depths (high temperature & overburden), Thermogenic Gas is formed.
Later stages of thermogenesis will form wet gas and condensate.
Hydrocarbon maturation
Supports for organic hypothesis: Carbon & hydrogen are the primary constituents
of organic material, both plant & animal. Nitrogen & Porphyrins are found in organic
matter & in many petroleum. Porphyrins are chlorophyll derivatives in plants &
blood derivatives in animals.
Migration of Petroleum
Produced hydrocarbons migrates upward from the deeper, hotter parts of the basin through permeable strata into suitable structures.
There are 2 stages of migration: Primary Migration – Kerogen transformation
causes micro-fracturing of the impermeable & low porosity source rock, allowing hydrocarbons to move into more permeable strata.
Secondary Migration – The generated fluids move more freely along bedding planes and faults into a suitable reservoir structure.
Migration can occur over several tens of kilometers in lateral directions.
Accumulation of Petroleum
Accumulation & storage occur when the migrating fluids encounter an impermeable shale or dense layer of rock.
This is called a Trap. After accumulation, the fluids tend to stratify
according to their relative densities: Gas Oil Water
If the migrating fluids do not encounter a trap, they tend to flow to the surface or deposited on the ocean floor.
Examples are: Seepages Escaping natural gas Bituminous lakes
Reservoirs are composed of either: Clastic formation – sandstone reservoirs made
from silicates (quartz, SiO2). Carbonate formation – carbonate reservoirs
made from detritus (coral or shell fragments). Reservoirs must be:
Porous Permeable Trapped.
Types of Traps
Anticlinal Traps Result of ductile crustal deformations.
HCWC
Fault Traps Result of brittle crustal deformations.
HCWC
Stratigraphic Traps Impermeable strata seal the reservoir.
HCWC
Salt Dome Traps
Combination Traps Fault bound anticlinal structures, i.e. combination of anticlinal & fault traps. Many global reservoirs have this type.