Lecture 1: Introduction to Geophysics PDF

Summary

This lecture introduces geophysics. It covers topics such as the different methods used in studying the Earth's structure, physical properties of rocks, and data from well logs and geophysical tools.

Full Transcript

Geophysics
Department of Oil and Gas
University of Thi Qar/ College of Engineering
2022-2023 Ahmed Jalal Fakher Al- Bahar
Book 1 Book 2
Geology & Geophysics
 Geology: it is an observational science. It involves the
study of the earth by direct measurements of rock
properties, either from surface exposures (outcrops) or
from boreholes, tunnels, and mines.

 Geophysics: applies the principles of physics to the study
of the earth, for deducing physical features of the earth’s
surface and its internal structure. Geophysics involves the
study of those parts of the earth hidden from direct view,
by measuring their physical properties, with appropriate
instruments on or above the surface of the earth, remotely
from the measurement targets.
 Methods Physical property Suitable for
Geological structure, spatial variation in
Gravitational attraction,
Gravity Density contrast
rock types: for example, salt domes,
shale diapers, reefs and cavities
Magnetic ores, Geometry of basement
Magnetic field variation, below the sediments, sedimentary cover
Magnetic & Electromagnetic Magnetic susceptibility thickness,
contrast geological structures and
archeological studies
Changes in electric
Shallow near- surface lithology changes,
Electric & Electromagnetic conductivity and or Ground water, cavities
permittivity

Refraction (Shallow) Travel time to acoustic Engineering problems
boundaries, amplitude
Seismic (elastic moduli and Geological structure, depositional
density contrast), history, faults, rock layers, reservoir size,
Reflection (Deep)
absorption, velocity shape porosity, pressure, saturation
distribution

Radiometric Radiation intensity Radioactive ores

Geological structures, Shallow salt
Geothermal Temperature domes, Anticlines and Fissures

Ground Penetration Electromagnetic waves Channels, Cables, Caves, Pipes,
Radar - GPR intensity River floor
Reservoir, drilling and production engineers
 They must be able to understand the information provided by geophysicists,

geologists, and petrophysicists so as to be able to properly utilize it. This is
particularly important because of the multidisciplinary nature of the
challenges faced in oil and gas exploration and production. The need to
integrate the data and the disciplines is important.

 As engineers become more familiar with geophysical techniques, there will

be expansion in applications of geophysical techniques in reservoir
engineering practices.

During a reservoir’s life cycle from discovery and development to production
and field maturation, the needs for reservoir description change continuously.
❑ Date from geophysical tools provide coverage with a spatially
continuous high sampling density of 10-25 m and a vertical
resolution of the order of 10-20 m.

❑ well data such as cores and well logs provide a vertically high
resolution of the order of 0.5 m or better at the well location; however, the
distribution of wells is sparse and discontinuous. The detailed spatial
coverage from geophysical data is calibrated with analysis of well logs,
pressure tests, cores, geologic depositional knowledge, and other
information from appraisal wells.
 Core

R-xxxx
R-x R-xx R-xxx
Vsh EEI30 EEI40 EEI50 Vsh EEI30 EEI40 EEI50 Vsh EEI30 EEI40 EEI50 Vsh EEI30 EEI40 EEI50
South Rumaila Rock Property Wells

Package 1
Top AB – Base F

Package 2
Top L2 – Base N

Package 3
MSM10

Well logging
Seismic reflection & well log
Lithology Volume: inline 1703 through Ru-xx well location

AB - F

LMN

MSM10
Geophysical tools and techniques
Geophysical methods use high-precision sensors (e.g., geophone,
hydrophone, magnetometer, gravity-meter) that measure the
physical properties onshore and offshore, in wells and from air,
there are also measurements from satellites.

 Surface: seismic reflection 2D, 3D, 4D magnetics, gravity,

electromagnetics.

 Borehole: vertical seismic profiling (VSP), cross well seismic,

cross well electromagnetics, microseismic, borehole gravimeter
(BHGM), nuclear
Geophysics in drilling
The process of drilling an oil or gas well
requires knowledge of all geologic Static model
features expected to be encountered along
the way- from the surface of the ground to Seismic & model
structures don’t
the target reservoir. Thus, in addition to match

steering the well so as to intersect
hydrocarbon- bearing reservoirs, the
reservoir engineer must ensure that the Mishrif seismic surface
well drills successfully and safely to the
target formations. Update static model with structure interpreted
on 3D seismic

By providing a picture of the subsurface from the surface to the target, geophysical
measurements help ensure a successful drilling program. This geophysical picture helps to:

1. Identify drilling hazards that may lead to an uncontrollable well;
2. Describe construction hazards; predict what lies ahead of and around the drill bit; and
3. Illuminate what exists above and below the well bore in a horizontal or highly
deviated well.
 Seismic section with Interpreted Horizons
W E
Dammam

Top Rus

Top Tayarat

Sadi

Top Mish

Top Ahmadi

Top Uppershale
N

Top YRB

peak
trough
W E

S
Video