Oil and Gas Screen Note 2023-04-03 PDF

Summary

This document provides a high-level overview of the oil and gas industry, covering its different stages (upstream, midstream, and downstream) and processes. It discusses exploration, transportation, refining, and sustainable development considerations in the energy sector.

Full Transcript

PEB1012/PDB1012:
Introduction to Oil and Gas
Industry and Sustainable
Development
Compiled by Wayne
 TOPIC 1: PETROLEUM INDUSTRY o Well logging
LIFE CYCLE o Well test

Upstream: Exploration & Production Development: To build subsurface and
surface facilities to produce oil and gas safely
E&P consists of activities related to and efficiently
searching, recovering and producing
crude oil and natural gas On shore
Offshore
Midstream: Transportation & Storage
Production: To extract, process and export oil
The oil and gas midstream activities and gas as per contract agreement
involves the transportation and storage
of crude oil and natural gas from E&P On shore
fields to processing plants. Offshore

Downstream: Refining & Marketing Abandonment: To plug wells permanently,
remove surface facilities and restore the field
The oil and gas downstream activities as per initial state
involves refining crude oil and
processing raw natural gas into sale Wells must be permanently closed and
products and wholesale marketing. sealed, so no more hydrocarbon can
Downstream plants include oil escape to the surface.
refineries and petrochemical plants Site must be restored to as close as it
original condition
MIDSTREAM: TRANSPORTATION
Oil transportation: Onshore
Located far from civilization and
therefore need to be transported.
Initially, produced oil is stored inside
wooden barrel and transported using
horse carriage.
After invention of gasoline and diesel
engine, horse carriage is replaced by
truck and train.
Once the volume getting bigger and the
UPSTREAM: FIELD LIFE CYCLE distance getting further, barrel method
become uneconomic and pipeline was
Exploration: To search for oil and gas deposits introduced.
Pipeline is a long connected pipe used
Gravity and Magnetic Surveys
to transfer liquid or gas.
Seismic Survey
Wildcat : Exploration well drilling Oil transportation: Offshore
Appraisal: To define oil and gas volumes and Offshore pipeline is laid on the seabed
reservoir rock characteristics after discovery to convey oil from offshore platform to
onshore facility.
Appraisal wells are used to delineate
If the distance is too far or the volume is
the physical dimensions of the field and
too low, transporting liquid via pipeline
calculate its development potential
can be technically and economically
Most appraisal wells include:
challenging.
o Coring

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 In this case, oil will be stored offshore The LNG Process
(by using FPSO, FSO, or subsea
storage) and then transported by using
oil tanker.

Gas Production
Liquefaction
o Pre Treatment (Gas
Purification):
 Condensate removal
 Dehydration
 CO2 removal
 Mercury & H2S removal
o Refrigeration
 Gas is converted into
liquid by cooling it up to -
162°C
LNG Shipping
Regasification
End Customer
DOWNSTREAM: REFINERY
Refining: Process of converting the raw
Gas transportation
material (crude oil & natural gas) into higher
In early days, gas is considered as a by- value product. It can be final product (ready to
product which is disposed by burning or use product such as LPG for home cooking) or
flaring. Only after gas can be monetized intermediate product (raw material for other
(petrochemical plant, power plant) gas processes such as ammonia for fertilizer)
transportation is required.
Crude oils are mixtures of thousands of
Since natural gas cannot be stored
different compounds called
easily like liquid, produced gas has to
hydrocarbons.
be delivered soon after processed by
Each component of each compound
using pipeline, either onshore or
has its own size, weight and boiling
offshore. However, if the distance is too
temperature.
far and the volume is too big, pipeline
Crude oils have low value if not
become uneconomical.
processed/refined.
Therefore, gas has to be transformed
Petroleum refining is a physical and
into liquid phase by condensing it up to
chemical process to transform crude
-162°C in atmospheric temperature to
oils into useful products.
reduce its volume by 600 times which is
Malaysia has five (5) refineries with a
known as Liquefied Natural Gas (LNG).
total processing capacity of 540,000
LNG can be transported in a specially
bbl/day.
designed cryogenic (very cool) tank
attached to vessel (known as LNG DOWNSTREAM: OIL AND GAS
tanker) or truck PROCESSING AND TREATMENTS
MIDSTREAM: (LIQUIFIED NATURAL GAS Refinery Process
(LNG))

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 o Ethylene and propylene are raw
materials for plastic products
o Butadiene is used to make
synthetic rubber
Aromatics
o Includes benzene (C6H6),
toluene (C7H8), and xylene
(C8H10)
o Benzene is raw material for dyes
and detergent
o Toluene is used to make
polyurethane
o Xylenes is used to produce
plastics and synthetics fibres
Crude Oil Synthetic Gas
Wash in a Desalter o Synthetic gas is a mixtures of
Heated Carbon Monoxide (CO) and
Crude Oil Fractionee (Distillation Hydrogen (H2) used to make
Column) ammonia and methanol
High Value Product o Ammonia is used to make
fertilizer urea
Oil and Gas Refinery Products o Methanol is used as a solvent
Light distillates and chemical intermediate
o Liquid petroleum gas (LPG) OIL IMPACTS ON THE ECONOMY:
o Gasoline (Petrol) – used in cars IMPORTANCE OF ENERGY BY SOURCES
o Naphtha (flammable liquid
hydrocarbon mixture) – used in By 2040, oil and natural gas will be the
chemical production world’s top two energy sources,
Middle distillates accounting for 60% of global demand
o Kerosene - used as jet fuel From its peak in 2025, coal will decline
o Diesel fuel – fuel for diesel more than 10% by 2040
engines Latin America and China are the
o Heavy oil biggest users of hydro power, which
Heavy distillate makes up over 80% of total Hydro/Geo
o Asphalt supplies
o Bunker fuel oil OIL IMPACTS ON THE ECONOMY:
o Heavy fuel oil DEMAND AND SUPPLY
DOWNSTREAM: PETROCHEMICAL Oil Company: National Oil Company (NOC)
PRODUCTS
An oil company that fully or in the
Petrochemical: A chemical product that majority owned by a national
derived from petroleum government
Primary petrochemical can be divided into Example: Saudi Aramco, Petronas,
three (3) groups based on their chemical PetroChina, Pertamina, Petrobras,
structures Statoil

Olefins Oil Company: International Oil Company (IOC)
o Includes ethylene (C2H4), Largest publicly owned oil and gas
propylene (C3H6) and butadiene companies
(C4H6)

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 Example: BP, Royal Dutch Shell, Spare production capacity
Chevron, Total, Exxon Mobil OPEC production decisions
Non-OPEC supply growth
Organization of the Petroleum Exporting
Countries (OPEC) Weather
Inventories
to coordinate and unify the petroleum Global economic growth
policies of its Member Countries and Speculation, hedging, investment
ensure the stabilization of oil markets in Exchange rates and inflation
order to secure an efficient, economic
and regular supply of petroleum to OIL IMPACTS ON THE ECONOMY: THE
consumers, a steady income to SIGNIFICANCE OF OIL TO MALAYSIA
producers and a fair return on capital for COMPANY
those investing in the petroleum The Malaysian Oil and Gas Industry is
industry. contributing significantly to
Members: Algeria, Angola, Ecuador, Employment, Labour Income, and
Equatorial Guinea, Gabon, Iran, Iraq, Value Added.
Kuwait, Libya, Nigeria, Qatar, Saudi o Employment is defined as the
Arabia, United Arab Emirates, number of employees and self-
Venezuela employed jobs, including part-
Impact of Oil Prices Drop time jobs.
o Labour income is defined as
The positive impact would come from wages and salaries and benefits.
two (2) main channels: o Value added consists of:
o On the DEMAND side, the lower employees’ compensation,
oil prices will increase the real property owners’ income, and
income of households, indirect business taxes.
prompting them to increase Malaysia is overly dependent on oil
consumption. revenue (57%); its transportation and
o On the SUPPLY side, the lower industrial sectors are still heavily
oil prices will reduce production dependent on oil products.
costs and may induce firms to With the depleting hydrocarbon
increase output resources, other form of revenue
Oil imports bill would be reduced, generating alternatives need to be
resulting in lower cost of doing business developed and quickly.
and higher production amid the positive Among the 10 countries of the
demand effect. Association of South East Asian
On the other hand, the lower oil price Nations (ASEAN) there are two major
will lower the government’s oil revenue oil exporters: Indonesia and Malaysia.
stream. Over the last decade, Indonesia’s oil
There are two major components of production has been declining, which
government oil revenue which is eventually led to the country becoming
Petroleum income tax (roughly 44% of a net oil importer and it withdrew from
oil related revenues) and PETRONAS the Organization of the Petroleum
dividends (45% of oil revenues) Exporting Countries (OPEC) in 2008.
OIL IMPACTS ON THE ECONOMY: OIL Four Scenarios for Malaysia to be A Net
PRICES TRENDS AND KEY DRIVES Oil Exporter
o Increase oil production –
Factors Affecting Oil Prices enhanced oil recovery (EOR) to
Geopolitical risks increase production level
(example Dulang oil field).

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 o Increase oil production –
Increase investment in
exploration and production.
o To reduce oil consumption –
Subsidy elimination (to suppress
energy consumption).
o To reduce oil consumption –
Technology advances to
improve overall energy
efficiency in the industrial
sectors.
12 National Key Economic Areas
(NKEAs)
o Great Kuala Lumpur/ Klang
Valley
o Oil, Gas and Energy
o Palm Oil and Rubber
o Wholesale And Retail
o Financial Services
o Tourism
o Electronics and Electrical
o Business Services
o Communication Content &
Infrastructure
o Education
o Agriculture
o Healthcare

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TOPIC 2: INTRODUCTION TO OIL & Because this rock changes, it is called
GAS EXPLORATION metamorphic. Metamorphosis can
occur in rock when they are heated to
ORIGIN OF PETROLEUM: ROCK CYCLE 300 to 700 degrees Celsius.
When Earth's tectonic plates move
around, they produce heat. When they
collide, they build mountains and
metamorphose the rock.
The rock cycle continues. Mountains
made of metamorphic rocks can be
broken up and washed away by
streams. New sediments from these
mountains can make new sedimentary
rock.
The rock cycle never stops
ORIGIN OF PETROLEUM: SEDIMENTARY
Igneous rock forms when magma cools BASINS
and makes crystals. Magma is a hot
The official definition of a sedimentary
liquid made of melted minerals. The
basin is: a low area in the Earth’s crust,
minerals can form crystals when they
of tectonic origin, in which sediments
cool. Igneous rock can form
accumulate. Sedimentary basins range
underground, where the magma cools
in size from as small as hundreds of
slowly. Or, igneous rock can form
meters to large parts of ocean basins.
above ground, where the magma cools
The essential element of the concept is
quickly.
tectonic creation of relief, to provide
When it pours out on Earth's surface, both a source of sediment and a
magma is called lava. Yes, the same relatively low place for the deposition of
liquid rock matter that you see coming that sediment.
out of volcanoes.
A depression in the crust of the Earth
On Earth's surface, wind and water can formed by plate tectonic activity in
break rock into pieces. They can also which sediments accumulate.
carry rock pieces to another place. Continued deposition can cause further
Usually, the rock pieces, called depression or subsidence.
sediments, drop from the wind or water Sedimentary basins, or simply basins,
to make a layer. The layer can be vary from bowl-shaped to elongated
buried under other layers of sediments. troughs. If rich hydrocarbon source
After a long time the sediments can be rocks occur in combination with
cemented together to make appropriate depth and duration of
sedimentary rock. In this way, igneous burial, hydrocarbon generation can
rock can become sedimentary rock. occur within the basin.
All rock can be heated. Inside Earth
there is heat from pressure and friction. ORIGIN OF PETROLEUM: CONVENTIONAL
There is also heat from radioactive AND UNCONVENTIONAL RESERVOIRS
decay (the process that gives us Conventional: traditional way to drill for raw
nuclear power plants that make natural gas, crude oil, and petroleum
electricity).
Baked rock does not melt, but it does After a well is drilled, oil and gas is
change. It forms crystals. If it has extracted by the natural pressure from
crystals already, it forms larger crystals. the wells and pumping operations.

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 Over time, the well may decrease in
production. At this time, a conventional
well will use an artificial lift or water and
gas injections to help increase
production.
After production gets to a point where
the profits of oil are not enough to cover
expenses, the well will usually stop
production.
If methods beyond an artificial lift or
classic methods are used to increase
production, then it would be classified at PETROLEUM SYSTEM: RESERVOIR ROCK
unconventional oil
A reservoir rock is a place that oil
Unconventional: method that allows to drill migrates to and is held underground.
down, drill horizontally, and fracking occurs. A sandstone has plenty of room inside
itself to trap oil, just like a sponge has
Sometimes unconventional drilling room inside of itself to soak up spills in
methods are used due to increasing your kitchen.
scarcity of retrieving oil and gas using It is for this reason that sandstones are
conventional methods. the most common reservoir rocks.
Not always, is the oil and gas available Limestones and dolostones, some of
to be retrieved by drilling and pressure which are the skeletal remains of
naturally allowing the flow of gas. ancient coral reefs, are other examples
Unconventional drilling comes in of reservoir rocks.
handy. Here we see what a reservoir rock
This allows oil and gas to be flowing would look like through a magnifying
from tight sands that we normally could lens. The yellow objects represent sand
not retrieve with conventional methods grains that are packed together.
of drilling Notice, however, the purple areas
PETROLEUM SYSTEM: SOURCE ROCK between the sand grains. These areas
(also known as "pore spaces") are
A rock rich in organic matter which, if where the oil fits into the rock. In a very
heated sufficiently, will generate oil or "porous" rock (one with many pore
gas. spaces), oil can move freely through
Typical source rocks, usually shales or these spaces.
limestones, contain about 1% organic Example: Sandstone
matter and at least 0.5% total organic
carbon (TOC), although a rich source
rock might have as much as 10%
organic matter.
Rocks of marine origin tend to be oil-
prone, whereas terrestrial source rocks
(such as coal) tend to be gas-prone.
Preservation of organic matter without
degradation is critical to creating a good
source rock, and necessary for a
complete petroleum system.
PETROLEUM SYSTEM: SEAL ROCK
Under the right conditions, source rocks
may also be reservoir rocks, as in the Also known as cap rock
case of shale gas reservoirs.

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 A relatively impermeable rock, Magnetic measurements in
commonly shale, anhydrite or salt that geophysical exploration record
forms a barrier or cap above and variations in the magnetic field due to
around reservoir rock such that fluids lateral variability in the magnetization of
cannot migrate beyond the reservoir. the crust.
A seal is a critical component of a The lateral variation may produce
complete petroleum system. The anomalous regions which are indicative
permeability of a seal capable of of structural or lithological contrasts in
retaining fluids through geologic time is the subsurface.
~ 10-6 to 10-8 Darcie’s. These data can be collected at the
earth's surface, from the air, the sea or
PETROLEUM SYSTEM: OVERBURDEN
in a borehole environment
ROCK
EXPLORATION TECHNIQUES:
Overburden rock is the total
GRAVIMETRIC SURVEY
stratigraphic section above the source
rock. Gravimetric was one of the first
The thickness and age of overburden geophysical methods to be used in
rock provides a history of the rate of exploring for oil and gas.
burial of a source rock toward and As the name suggest, this method uses
through the increasing temperature accurate measurements of the Earth's
domains of the basin. gravitational field to locate horizontal
This includes the range of temperatures and vertical variations in the density of
necessary for cracking kerogens into subsurface rocks.
hydrocarbons. The precondition is that the geological
structures have to be distinguishable
through clear differences in density.
Gravimetric surveys are carried out
using extremely sensitive instruments
capable of measuring tiny variations in
the gravitational field.
Geophysical surveys are performed
with gravimeters and are always
accompanied by a high-precision
topographic survey
Gravimetric applications include:
o Regional geological mapping;
EXPLORATION TECHNIQUES: MAGNETIC o Detection of karsts and voids;
TECHNIQUES o The determination or
improvement of terrestrial geoid;
The magnetic method is the study of the o The oil and gas exploration
distribution of magnetic minerals in the o Mineral exploration;
upper 20-30km of the earth's crust. o Measurements of sediment
The magnetic method may also be thickness;
used to estimate the thickness of the o The archaeological surveys.
crust or to constrain temperatures in the
crust using the Curie isotherm (the EXPLORATION TECHNIQUES: SEISMIC
temperatures at which minerals lose METHOD
their strong magnetic properties), Seismic ground geophysical methods
whichever is shallower. are techniques based on the study of
the propagation of seismic waves.

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 The techniques outlined below involve The data are collected on the surface
variations in data acquisition and without the need of borehole. MASW
processing, the choice of which will data collection may be extended to 2D
depend on the project goal. or 3D profiling/imaging.
Each technique can yield new insights The MASW seismic method allows to
into the subsurface. obtain the shear wave velocity (Vs)
o Refraction distribution in the ground and bedrock.
o Reflection It can be applied as a 1D sounding or
o Multi-channel Analysis of as 2D profiles.
Surface Waves (MASW)
Seismic Method: Resonance
o Resonance
o Borehole The seismic resonance, or TISAR
(Testing & Imaging using Seismic
Seismic Method: Refraction
Acoustic Resonance) method is a new
The seismic refraction method involves technique based on the frequency
measuring the shortest time required analysis of seismic records for high
for an induced seismic pulse to travel resolution seismic investigation.
from the source location to a series of It considers the seismic resonance
receivers. within the signal.
From this travel time data, seismic The method was originally developed
velocities and layer depths can be for geological sub-surface profiling (1 to
calculated. 15 m deep); however it has been shown
Seismic refraction remains the to be effective or ranges smaller than
preferred method for accurately 0.1 m for testing of concrete/asphalt
mapping the depth to competent structures, as well as for 100 m deep
bedrock under most conditions. geological investigations.
Seismic Method: Reflection Seismic Method: Borehole
The seismic reflection method involves Borehole seismic surveys can be
inducing a seismic wave into the earth carried out in several different ways.
and recording the waves that are The Down-hole technique consists of
reflected from sub-surface layers. measuring the arrival of seismic waves
Seismic reflection is ideal for mapping emitted from the surface in increments
geology at depths exceeding 50 m. down the borehole.
Deep seismic reflection surveying is the The Cross-hole technique uses a
most advanced technique in seismic source located in an adjacent
geophysics today, thanks to its borehole.
application on a huge scale for oil and The receiver in both cases is a tri-axial
gas exploration geophone.
This enables profiles of seismic
Seismic Method: Multi-channel Analysis of
velocities from compressional (P)
Surface Waves (MASW)
waves as well as shear (S) waves to be
The Multi-channel Analysis of Surface obtained.
Waves (MASW) is a seismic method Accurate 2-D maps of seismic velocity
used to evaluate the shear-wave variations between boreholes can be
velocities of subsurface materials produced by processing the data using
through the analysis of the dispersion specialised software.
properties of Rayleigh surface waves Borehole seismic techniques include
("ground roll"). down-hole, cross- hole and seismic
tomography methodologies

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EXPLORATION AND APPRAISAL WELL
Exploration Well
An exploration well is a deep hole that
is drilled into the Earth’s surface with
the aim of locating a new source of
hydrocarbons such as oil and natural
gas.
Drilling of an exploration well poses a
risk to the company, as it is uncertain
how much the company will reap from
the new source. Every new oil well was
an exploration well at some point.
Exploration depends on the technology
that is used to detect and determine the
amount of these deposits using
exploration geophysics.
Appraisal Well
An appraisal well is a vertical or
deviated well that is drilled so as to
understand the potential of a
hydrocarbon reservoir before
commercial production of oil from a well
can commence.
The drilling of this well is an important
part of the exploration and production
activities of an organization. In the
chronology of asset development
program, appraisal drilling is performed
before starting the commercial
production.
During field appraisal programs,
appraisal wells are drilled in order to
ensure that the discoveries made
during exploration field have enough
hydrocarbons that can last long and
give an economic appreciation to the
organization findings.
Once the appraisal wells are drilled they
provide information such as physical
extent of hydrocarbons, likely
production rate from the field, flow of
fluids and volume of fluids, etc.

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TOPIC 3: OIL AND GAS RECOVERY In the absence of experimentally
TECHNIQUES measured properties, empirical
correlations are used.
RESERVOIR ROCK AND FLUID A hydrocarbon reservoir may be with
PROPERTIES both gas and oil or with one of them and
Understanding of the physical water.
properties of the rock and its interaction Below are the main reservoir fluid
with the hydrocarbon system is very properties:
important to be able to evaluate o Specific gravity
performance of a reservoir. o Density
Rock properties are determined by o Isothermal compressibility
𝛥𝛥𝑉𝑉
performing laboratory tests on cores coefficient -
𝛥𝛥𝑃𝑃
samples from the reservoir. o Formation volume factor - the
Important rock properties that can ratio of the volume of reservoir
determine the quality and distribution of fluid at the prevailing reservoir
hydrocarbon are: temperature and pressure to the
o Porosity - ratio of the pore volume at standard conditions.
volume to the total volume o Viscosity - the internal
o Permeability - the capacity and resistance of the fluid to flow
ability of the formation to
OIL RECOVERY TECHNIQUES
transmit fluids
o Saturation - fraction of the pore Flow in porous media is a very complex
volume occupied by a particular phenomenon and as such cannot be
fluid (oil, gas, or water) described as explicitly as flow through
o Overburden pressure – pressure pipes or conduits.
due to overlying formations. It is rather easy to measure the length
o Capillary pressure – pressure and diameter of a pipe and compute its
difference between two flow capacity as a function of pressure;
immiscible fluids. in porous media, however, flow is
o Relative permeability - the ratio different in that there are no clear-cut
of the effective permeability to a flow paths that lend themselves to
given fluid at a definite saturation measurement.
to the permeability at 100% The flow of fluid in porous media is
saturation. affected by rock properties (porosity
o Wettability - the tendency of one and permeability), fluid properties
fluid to spread on or adhere to a (compressibility and viscosity).
solid surface in the presence of Darcy equation
other immiscible fluids
o Surface (between gas and
liquid) and interfacial (between
two liquids)– tension the acting
force between two immiscible
fluids.
Knowledge of reservoir fluid types and
their properties is also very crucial as
Where the pressure gradient is the
they can determine the volumetric
energy that determines the flow of fluid
behaviour of hydrocarbon reservoirs.
to the wellbore and it is described for
The properties are determined from linear flow as:
laboratory experiments performed on
samples of actual reservoir fluids.

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 usually results in the recovery of only a
small percentage of the total oil in place
Driving Mechanism: Depletion drive

The terms primary recovery, secondary
recovery, and tertiary (enhanced) oil
recovery are traditionally used to
describe hydrocarbons recovered
according to the method of production
or the time at which they are obtained.
Reservoir engineers are required to
determine the best oil recovery
methods (primary, secondary, and
tertiary) that extend the life of reservoir
and recover higher percentage of Also known as solution gas drive,
original oil in place. dissolved gas drive, internal gas drive
Original oil in place is the total In this type drive mechanism, the main
estimated amount of oil in reservoir, source of energy is from gas liberation
which cannot be fully recovered. from the crude oil and subsequent
The ratio of producible oil to the original expansion of solution gas as the
oil in place is called recovery factor. reservoir pressure reduces.
The ultimate recovery vary as 5 to 30%.
Driving Mechanism: Gas cap drive

The average worldwide oil recovery is
35%, which leaves >60% of the oil in
the reservoir. Thus, the need to
implement other recovery methods to
increase the recovery factor
OIL RECOVERY TECHNIQUES: PRIMARY
RECOVERY METHODS
Primary oil recovery describes the production
of hydrocarbons under the natural driving
mechanisms present in the reservoir without The expansion the gas in the gas cap is
supplementary help from injected fluids such the source energy.
as gas or water. (Like a carbonated bottle The ultimate recovery is expected to
drink) range from 20% to 40%

Driving Mechanism: Rock and fluid expansion Driving Mechanism: Water drive
drive
As the expansion of the fluids and
reduction in the pore volume occur with
decreasing reservoir pressure, the
crude oil and water will be forced out of
the pore space to the wellbore.
This driving mechanism is considered
the least efficient driving force and

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 OIL RECOVERY TECHNIQUES: TERTIARY
RECOVERY METHODS
Tertiary (enhanced) oil recovery is that
additional recovery over and above what could
be recovered by primary and secondary
recovery methods
EOR (Enhanced Oil Recovery) – any
method that increases oil production by
using techniques or materials that are
not part of normal pressure
It is due to the movement of water into maintenance or water flooding
the pore space that was originally filled operations.
with oil, replacing and displacing it to It involves changing of the properties of
the producing wells. the oil so that it can flow more easily.
The ultimate recovery is expected to
Thermal Recovery
range from 35% to 75%
Thermal recovery such as Steam
Driving Mechanism: Gravity drainage drive
flooding is the most widely used and
profitable enhanced oil recovery
technique for heavy crude oils.
The process involves the injection of
steam generated at the surface or
downhole continuously or in cycles
Recoveries from steam flooding are
typically in the range of 50 to 60%
OOIP, while the ultimate recovery from
cycle steam is lower in the range of 10
to 25% OOIP.
Gravity drainage occurs as result of Steam costs are very high and can
differences in densities of the reservoir amount to up to 50% of the value of the
fluids. produced oil
The ultimate recovery can be >80% Miscible gas injection
OIL RECOVERY TECHNIQUES: Gas is injected above Minimum
SECONDARY RECOVERY METHODS Miscible Pressure such that gas
Secondary oil recovery refers to the additional becomes miscible in oil in the formation.
recovery that results from the conventional Viscosity of oil is reduced providing
methods of water injection and immiscible gas more efficient miscible displacement.
injection The process involves the injection of
steam generated at the surface or
Secondary recovery methods are downhole continuously or in cycles
processes in which oil is subject to Gas is injected below minimum miscible
immiscible displacement with injected pressure such that it sweeps the oil in
fluids such as water or gas. front of it towards the production wells.
Commonly water is injected into the This process can also be used to
reservoir to force additional petroleum mitigate permanently the CO2 produced
out of the pores in the reservoir rock from Power Plants
Can recover up to 50%
Chemical EOR

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 Chemical EOR involves a variety of Reservoir surveillance is a continuous
techniques used to mainly to reduce the process of generating opportunities for
interfacial tension and to modify the improving reservoir performance.
mobility of the aqueous phase during oil It is important to identify well patterns
displacement. and enhance injection processes.
Chemical EOR methods utilize: It is a process of acquiring and
o Surfactant analysing data to:
o Polymer o Monitor reservoir performance
o Alkaline o Provide information on
o Alkaline -Surfactant –Polymer performance parameters to
(ASP) improve ability for prediction
Purposes o Identify barriers to meeting or
o To reduce the interfacial tension exceeding forecast performance
o To improve the flooding and provide methodologies to
efficiency mitigate the impact
The function of the surfactant is to
RESERVOIR MANAGEMENT: RESERVOIR
produce an ultra-low interfacial tension
MODELLING AND SIMULATION
between the crude oil and the injection
solution Reservoir modelling is construction of a
The function of the alkaline: computer model of a petroleum
o To form in-situ surfactant. reservoir for the purpose of simulating
o To reduce the interfacial tension fluid flow in a porous media.
between crude oil and the The objectives of reservoir simulation
injection solution. are to improve estimation of reserves
o To reduce the amount of and making decisions regarding the
surfactant adsorption onto development of the field, predicting
formation. future production, placing additional
The function of the polymer: wells, and evaluating alternative
o To drive ASP slug. reservoir management scenarios.
o To increase the sweep
RESERVOIR MANAGEMENT: RESERVOIR
efficiency.
MANAGEMENT TEAM
RESERVOIR MANAGEMENT
The reservoir management team comprises of
It is a very crucial process that aims to multidiscipline:
maximize economic recovery of a
Reservoir engineers
reservoir using geology, geophysics
and petroleum engineering. Geophysicists
It helps engineers to understand and Geologists
model a reservoir to evaluate Petro physicists
operational changes and provide Drilling engineers
necessary data to determine the Facility engineers
economic viability of any potential Production engineers
changes.
It requires information such as reservoir
fluid and rock properties, flow rate,
temperature, pressure, and seismic
data.
RESERVOIR MANAGEMENT: RESERVOIR
SURVEILLANCE

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 TOPIC 4: DRILLING OPERATION & Roles of Drilling Engineers: Drilling engineers
FACILITIES facilitate the efficient penetration of the earth
by wellbore and cementing operations from
DRILLING OVERVIEW the surface to an optimum target depth.
Specific duties include
Oil well drilling is the process of creating
holes in the earth’s surface in Plan the well before drilling
preparation of extracting oil. Monitor drilling operations
The earliest known oil well was drilled Review drilling results and recommend
in China in 347BC using bamboos as future improvement
modern drill pipe to extract oil. Prepare drilling reports
Canada was the first to produce oil in
commercial quantities in 1857 at 37 Drilling Crew: Personnel who operate the
barrels per day. drilling rig. Typical crew are
In 1859, the first well was drilled in USA Roustabout: Any unskilled manual
by Colonel Drake at about 69 feet deep labourer on the rig site.
Why do we drill a well? Roughneck: A floor hand who makes or
o Geothermal power: to generate breaks connections as drill pipe is
steam for electricity. tripped in or out of the hole.
o Hydrocarbon production: to Motorman: Looks after the engine and
produce oil and gas. other machinery
o Gas or water injection: for Derrickman: He climbs the derrick to
reservoir maintenance and gas 25m above the rig floor where he
conservation. guides the top of the drill pipe
o Fresh water production: to
Tool Pusher: Experienced individual
produce fresh drinkable water.
who ensures that there are sufficient
o Gather information: for
materials, spare parts and skilled
subsurface evaluation
personnel.
DRILLING WELL AND PERSONNEL Driller: A supervisor responsible for
efficient operation of the rig site. He
Oil Well Classifications: Oil wells are drilled to
also operates all the machinery in a
meet a defined purpose. The well control room.
classifications include the following.
DRILLING RIGS
Wildcat: A small exploratory well drilled
not known to be an oil field to get Drilling rigs are steel structures with
geological information, to determine the drilling equipment and other
potential for oil or gas deposits and to components used for drilling a well.
identify specific targets. They are most classified into: onshore
Appraisal: A well drilled after and offshore rigs.
hydrocarbon presence is identified from Onshore rigs are primarily used on land
the wildcat well, to establish the extent whereas offshore rigs are mainly used
and size of the hydrocarbon deposit in shallow and deep waters
and how to develop it most efficiently
Onshore Rigs:
Development: A well drilled in a proven
producing field for the production of oil They are capable of drilling more than
or gas. The intent of an oil company’s 30,000ft. deep
development well drilling phase is to Example: Portable Mast, Conventional
maximize the economic production and Land Rig, Coiled-tubing Rig
recovery of a reservoir’s known
reserves Fixed-Bottom Type:

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 Swamp Barge Hoisting System
o This rig type is capable of drilling
The hoisting system is used to lower or
in water depths from 2 to 7 m.
raise the drill string, casing, and other
o After being towed to location, the
equipment
rig’s hull is filled with water until
it rests on the bottom of the river
bed.
Jack-Up Rig
o Jack ups are used for most the
offshore exploration drillings
worldwide.
o They are mounted in relatively
shallow water of depth less than
120 m.
o They are towed to location and
few are self-propelled
Floating Type:
Semi-submersible
o This rig has a pontoon and
columns that help to flood and
caused the unit to submerge in
water to a predetermined depth.
o Capable of drilling in water depth
of up to 3000 m.
Drillship
o Drill ships are not as stable as
semi-submersible rigs.
o They position themselves with Power System
either anchors or dynamic
positioning systems (DPS). The power system is used to provide
o Capable of drilling in water depth raw power (prime mover) to carry out
more than 3500 m. the drilling operation.
Raw power includes: diesel engines,
Other offshore rigs:
steam engines, and spark ignition
Jack up engines.
Deep water jacket Raw power is transmitted through AC,
Gravity based structure DC and mechanical drives
Compliant tower
Tension leg platform
Classic spar
Truss spar
DRILLING COMPONENTS
Rotary System
The rotary system provides rotational
motion to the drill string
Example: Top drive, Rotary table and
Kelly

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 Well control system is used to contain
the pressure while drilling to ensure
safe drilling operation.
Example: Derrick
Well monitoring system use real time
devices to monitor the drilling operation
for safety and security.
Example: Driller’s control
Drill string Components
Drill pipe: A steel pipe available in three
length ranges:18 – 22ft, 27 – 30ft and
Circulating System 38 – 45ft.
Stabilizer: A short pipe with either
The circulating system is used to straight or spiral blades on the external
circulate drilling fluid (mud) from the surface. It reduces buckling and
surface to the hole and back to the bending stresses.
surface Drill collar: Thicker steel pipe than the
drill pipe that provides weight on the drill
bit.
Drill bit: A cutting tool used to create
cylindrical holes.

Drill bits
Drill bits are special tools used to break
Functions of some parts the formation rock during drilling
o Mud pump : circulates drilling operation.
mud in the system Most bits work by scraping or crushing
o Shale shaker : removes drilled the rock, or both, usually as part of a
cuttings from the drilling mud rotational motion.
o Desander: removes granular The broken rocks usually referred to as
waste from the drilling mud “cuttings” are removed from by well
o Desilter: removes fine particles through the annulus during circulation.
from the drilling mud
o Degasser : removes entrained
gases from the drilling mud
Well Control & Monitoring System

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 Drill bits Classification: Diamond Cutter Bits
high performance is achieved when
used in abrasive and heterogeneous
formations

Drill bits Classification: PDC
Drill bits Classification: Coring Bits
PDC bits with matrix body has more
erosion and wear resistance Mostly used to cut out rock samples for
PDC bits with steel body has better hole data analysis
cleaning capacity for higher rate of
penetration (ROP)

Drill bits Classification: Hybrid Bits
A combination of two bit types

Drill bits Classification: Roller Cone
Roller cone bits have three cones that
roll as the bit turns.
Mill tooth bits have steel cutters
fabricated as part of the bit cone. PROCESS OF DRILLING
TCI bits have tungsten carbide pressed
Sequence of Drilling Operation
into the bit cone.
For soft formations, mill tooth bits are 1. Drilling program
best used to gouge the rock. 2. Rig setup
For hard formations, TCI bits are used 3. Make a hole by drilling
to crush the abrasive rock. 4. Casing setup
o Conductor casing: Prevents
washing out of surface soil.
o Surface casing: Protects
freshwater sources and for
installing BOP.
o Intermediate casing: Protects
abnormal zones.
o Production casing: Isolates
reservoir from damage.

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 o Running in the production tubing
and its associated down hole
tools.
o Perforating and stimulating the
well.
Well completion can be grouped into:
open hole and cased whole completion.
Open-Hole Completion
Also called barefoot completion.
The production casing is set and
cemented at a depth just above the pay
zone.
This completion type is preferred in
5. Cement the gap between casing and consolidated formations which can
hole (annulus) prevent caving and sloughing.
o This refers to the process of This completion type is liable to sand
introducing cement slurry to the production in the future life of the well.
annular space between the
wellbore and casing or between Slotted Liner Completion
two successive casing strings
The casing is set and cemented at a
o The function is to achieve zonal
depth just above the pay zone and
isolation and a good cement to
uncemented slotted liner installed
pipe bond
across the pay zone.
This completion type is used where
there is the risk of wellbore instability
such as wellbore collapse.
External Gravel Pack Completion
An open hole or cased hole gravel pack
is used when the sand particles are too
fine or abrasive for a plain screen
Mostly used in weak sandstones and
unconsolidated rocks
Perforated Liner Completion
A liner is casing that hangs from the
6. Repeat steps 3, 4, & 5, using smaller bottom of the intermediate casing.
drill bit and casing It is cemented and perforated
7. At reservoir zone (pay zone), complete selectively for production.
the well by perforation with tubing The production casing is cemented and
installation. perforated using a perforation gun for
WELL COMPLETION TYPES hydrocarbon production.

Well completion is the process of
making a well ready for production. This
principally involves:
o Preparing the bottom of the hole
to the required specifications.

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Multiple Zone Completion
A multiple zone completion is a type of
completion which allows operators to
selectively produce or commingle
reservoir fluids from different pay zones
in one well.
A multiple zone completion can be
divided into two parts, which are single
string completion and multiple string
completion.
Single String Completion
o This completion type consists of
a single tubing string in a well.
o Packers are set above each pay
zone in order to isolate fluid from
each zone.
o The packer isolate each pay
zone to prevent corrosion in the
production casing due to the
reservoir fluid.
Multiple String Completion
o This type of completion consists
of two or more tubing strings in a
well.
o This has the ability to produce
and inject into different pay
zones simultaneously.
o This is however very expensive
to install.

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 TOPIC 5: PRODUCTION Block valves are also required to
OPERATIONS AND FACILITIES perform regular maintenance on the
choke.
SUBSEA DEVELOPMENT PROCESS:
SUBSEA HARDWARE Xmas Tree

Introduction
The fluids produced from wells are
usually directed through flow lines and
manifolds (gathering system) to a
central location for processing and
treatment.
Manifold
When the production of two or more
wells is commingled in a central facility
it is necessary to install a manifold to
allow the production of the wells into the
common production line or the well test
line
Wet Tree

PROCESS DESIGN
Flow Diagram
Schemes of flow charts are commonly
used to present details of the process.
It is very important to understand the
symbol convention used in those charts
Design of Equipment depends on Physical
Properties, Phase Behavior and Flow of
Hydrocarbon Fluids.
Well Head
Physical Properties affecting
The gathering system begins at the
equipment design are: vapor pressure,
wellhead.
density, molecular weight, viscosity,
The wellhead should include at least
surface tension, composition and
one choke used to control the well
gas/liquid volumes.
production.
Phase Behavior is the change in
If the upstream pressure is too high it is
relationship between phases at various
recommended to use a positive choke
conditions.
in series with an adjustable choke. In
Fluid Flow properties affecting
case the adjustable choke fails, the
transmission system design are:
positive choke keep the production
viscosity and type of flow
limited.
An automatic shut-down valve can Physical Properties
quickly interrupt production in case of
Physical properties
an event.
o Density
o Viscosity

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 o Formation volume factor Separation is required - gas and liquid
o Compressibility require different processing methods.
o Thermal expansion Separators are classified by physical
o Surface tension shape, function or number of phases
Need to predict pressure-volume- they separate.
temperature (PVT) behavior of gas to o Separator – separate a
estimate its properties combined liquid-gas flow
Techniques used to predict PVT  Two-phase – gas and
behavior are liquid separation
o Equation of State (EOS)  Three-phase – gas, liquid
o Corresponding States Principle and water separation
o Empirical Correlations
Fluid Flow
Transport properties of oil and gas are
significant in the design of equipment
and flowlines
o Viscosity - indicates fluids
resistance to flow
o Reynold's number - used to
identify flow regime

o Scrubber: Handles stream with
o Laminar Flow exist at Re < 2000 unusually high Gas-Liquid
o Turbulent Flow exist at Re > Ratios (GLR)
4000 o Water knockout: Separates free
water.
o Filter: Removes solids from
gas/liquid stream.
Vertical Separator
Advantages
o Liquid level and fluids control not
critical
o Easier and cheaper to design for
surge capacity
o Can handle solids with certain
SEPRATION SYSTEM design
o Easier to clean
Basic Separation
Disadvantages
o More expensive
o Does not adapt to skidmounted
assemblies well
o Requires larger diameter for
same gas capacity.

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 Gas Separation System
Gas and condensate flow from
wellheads to the 3- phase production
separator which separate water from
the condensate and gas
Gas is then sent to the glycol
dehydration system, condensate to
Horizontal Separator
condensate Flash Tank and produced
Advantages water to skimmer
o Less expensive Produced gas is dried by contacting it
o More adaptable to skid- with Triethylene – Glycol (TEG) liquid
mounting Condensate from Flask Tank is passed
o More available area for settling to Coalescer which allow nearly total
o More adaptable to removal of remaining produced water
accommodate heating coils or
WATER TREATMENT
sand jets
o Can more effectively handle Two primary needs for water processing:
foamy crude
Disadvantages Disposal
o Has less liquid surge capacity o Treatment of produced water
o Liquid level control is more separated from oil and gas prior
critical to disposal in an environmentally
acceptable manner
Multistage Separation Injection
o Cleaning of source water from
Oil and gas separation carried on in
rivers or sea before wellbore
several stages at successively lower
injection in EOR projects to
pressures.
minimize zone plugging and
The more stages of separation the
maintain high injection rates
fluids go through the more perfect the
The contents of an oil reservoir may be
overall separation will be.
considered as consisting of three major
Separation efficiency increases
components – gas, crude oil and water.
resulting in higher percentage of
Of these three, gas and oil are saleable
recoverable liquids.
products, whereas water unless used
for injection purposes, is a WASTE
PRODUCT.
The water, separated from the oil and
gas in the platform separation trains, is
known as PRODUCED WATER.

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 Before Produced Water can be either o Hydraulic Lift
disposed of into the sea or used for o Hydraulic Jet
injection purposes it requires treatment. o Electric Submersible Pump
CRUDE & GAS STORAGE
Major goals in providing clean product
storage:
o To furnish sufficient storage
volume to minimize production
operations down-time.
o To prevent volumetric loss or
quality degradation while
product is in storage
Water collected from processing o To avoid pollution.
facilities contains: Factors governing selection of storage
o Suspended oil droplets mode are:
o Dissolved gases o Economic considerations
o Entrained solids o Safety considerations
Selected treatment and disposal o Pollution Control.
method determines: Economic considerations:
o Water quality target at minimum o Unit cost of storage and
cost and associated facilities
o Satisfies applicable rules, o Operating and maintenance
regulations or laws. costs
o Capability of future expansion
PRODUCTION SUPPORT FACILTIES
o Cost of land
Artificial Lift System o Oil conservation and vapour
prevention
Completed producing wells will usually
Safety considerations:
produce fluids from Wellbore to the
o Proximity to property line.
surface by means of natural reservoir
o Spacing requirements.
energy.
o Prevention of hydrocarbon
Artificial lift is supplemented into well release to the atmosphere.
tubing pressure during their Economic o Vapour pressure and other
Life in order to obtain maximum physical properties of the
recovery of oil for maximum profit product to ensure safe storage.
before its Economic Limit of producing o Dike (or Dyke) wall
life is reached. requirements.
Notable exceptions are wells o Pressure vacuum relief valves.
completed in a prolific water drive
reservoir where wells may continue to Tank Types Storage
flow until as much as 100 % saltwater
production is obtained. The usual
experience is that a well will require
some means of artificial lift.
Example:
o Reciprocating Rod Lift
o Progressive Cavity Pump
o Gas Lift
o Plunger Lift
Non-Conventional Storage

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CRUDE & OIL EVACUATION
Rotating Equipment
Transfer mechanical energy to a
process fluid or convert the fuel energy
(chemical energy) to shaft work.
Two basic categories:
o Driven Equipment – pumps,
compressors, generator
o Prime Movers – reciprocating Metering
engines, gas turbine, electric
motor, steam turbine Fluid measurement commonly called
A rotating equipment installation metering
consists of driven equipment connected Purpose of metering
to a prime mover through a coupling or o Contractual requirement
a gear box. o Production planning
Pumps: o Product quality control
o A equipment device that applies o Process control
mechanical energy to fluid. o Safety
Accuracy
o Well testing – deviations less
than 5% acceptable
o Custody transfer – deviations of
0.5% is the maximum allowed.
o Dependent on two factors –
repeatability and accurate
determination of correction
factors
Compressors: Pipeline Pigging
o Used for compressing natural
gas from separators for fuel and Reason for pigging
sales, gas pipeline transmission,