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Basin analysis and modeling using petromod - ITCgroup

Tue, 26 Nov 2024 05:53:36 +04

1-ntroduction to sedimentary basins
2-Basin Formation and Basin Types
3- Basin Formation (Structure-Lithology- Stratigraphy)
4- Source Rock Geochemistry
5- Reservoir Geochemistry (Oil-Gas-Water)
6- Reservoir Continuity in Basins
7- Reconstruction Burial History, backstrip module
8- Introduction in Petromod and functions
9- Lopatin Method in Petromod
10- reconstruction 1d Basin modeling
11- case studies, examples, and exam

Cost: 1950 USD

Duration: 5 Days

Drilling Operations Awareness - ITCgroup

Tue, 26 Nov 2024 05:40:34 +04

Course Objectives
The Course provides personnel with a basic overview and understanding of oil and gas drilling operations. The course focuses on drilling technology, drilling rig components, basic drilling fluids, and hydraulics, cementing operations, downhole pressures, drilling problems, and solutions.
Upon Completion of this course, participants will have a good understanding of:
Basic drilling operations both onshore and offshore
Basic drilling rig components and functions, drilling economics, formation and fracture pressures, drilling problems, well control, cementing, directional drilling and basic logging operations.

Course Outlines
1. Formation Geology
2. Rig components and drilling equipment
3. Drill string and BHA components
4. Directional drilling
5. Measurement& Logging While Drilling
6. Mud Circulation system
7. Casing and cementing
8. Surface and Subsea well control equipment
9. Common drilling problems (stuck pipe, lost circulation)
Prevention
Procedures
Kill Methods

Cost: 1950 USD

Duration: 5 Days

Open hole logging & Formation Evaluation - ITCgroup

Tue, 26 Nov 2024 05:28:36 +04

Course Overview
This course is designed to introduce types of Wireline logs and the simple analysis of the data they provide. The following sections cover the theory behind the operation of each tool, how each tool operates its advantages and limitations, and its main applications. There is a huge number of tools available in the industry, lots to be covered individually. As follows:
1. Principles, log presentation, environmental corrections and applications of SP and GR logs.
2. Classification and principles of resistivity logs (conventional resistivity, induction, and Laterologs).
3. Environmental corrections and general application of all resistivity logs.
4. Types, principles and environmental corrections of porosity logging tools; Density, Sonic and Neutron logs.
5. General applications of Neutron, Density and Sonic ;
6. Principles and applications of LDT and NGS logs.
7. Principles and applications of Caliper logs.
8. Principles and applications of Temperature logs.

Course Outlines
1- Introduction to Geology:
Petroleum System – Elements & Processes.
2- Basic Concepts.
3- Introduction to well logging:
Basic log interpretation concepts & Logging Evolution.
Basic Logging Setup.
Data types and Integration.
4- Mechanical Tools:
Caliper (CAL).
5- Lithology Tools:
Temperature Log.
Spontaneous potential.
Gamma Ray.
6- Porosity Tools:
Sonic tools.
Density tools & LDT.
Neutron tools.
Lithological Identification Using (Neutron-Density) Combination.
7- Resistivity Tools:
Induction logs.
Laterologs.
Micro logs.
High-Resolution Induction Tools.
Array Induction Tools.
Software Applications (Techlog)
Project setup and Loading well data
View well data in log plot.
Environmental Correction.
Depth Match.
Curve Splicing.
Lithology identification.
Reservoir zonation.
Create temperature curve & temperature gradient.
Determination of fundamental parameters.
Shale volume calculations.
Determination of clay minerals.
Porosity models & calculation methods.
Saturation models & calculation methods.
Cut-off and Summation.
Cross plots for Lithology, porosity and oil/water/gas saturation.
Reserve estimation & recoverable Sh calculations.
(Mineral solver analysis).
Geometric framework of the reservoir interpretation.
Qualitative and quantitative description of rock and fluid properties.
Flow surveillance – monitoring of reservoir saturation and pressure.
Seismic Reservoir characterization Data :- seismic interpretation , seismic inversion , AVO, multicomponent , 4-D seismic , seismic stratigraphy , seismic reservoir evaluation, shared earth modeling ( static & dynamic model ) , rock properties , reservoir fluid properties , oil and gas reserves .

Who Should Attend ?
Petrophysicists, Geoscientists, Geophysicists, Engineers, Managers and Supervisors.

Cost: 2250 USD

Duration: 5 Days

Structure Modelingand 3D Gridding(Static) - ITCgroup

Tue, 26 Nov 2024 05:18:31 +04

Course Outlines
•Data Coverage(Import & Export)
•Well data visualization (Import & Export)
•Seismic (load 2D, 3D, wells and Well tie)
•Seismic attributes
•Model interpretation
•Fault Model
•Fault Uncertainty Modelling
•Well Correlation
•Structure Modelling and 3D Gridding
•Input Controlled Horizon Modelling
•3D grid building
•IsochoreModelling
•3D grid layout
•zones and Facies
•Data analysis and Volume Calculation

Cost: 2250 USD

Duration: 5 Days

Wellsite Geologist - ITCgroup

Tue, 26 Nov 2024 04:42:19 +04

Aim of the course:

Compare drilling operations both onshore and offshore and understand the differences between the various types of rigs and platforms.
Distinguish the various components of the drill string: hoisting and rotating systems and pipe handling equipment; bit types and their design and application; the mud circulation process and system; the variety of drilling fluids and well hydraulics; casing and cementing procedures; directional drilling processes and techniques; borehole surveying.
Appraise mudlogging services, including the collection and analysis of ditch cuttings and lag time estimation; depth and bit parameter measurements; the collection, analysis, and integration of gas readings; and the wider role of mudlogging in safety monitoring and drilling engineering support.
Analyze how ditch cuttings are sampled, described, reported, logged, and evaluated for lithological evaluation and hydrocarbon potential.
Compare conventional coring and sidewall coring processes, procedures and evaluation techniques.
Distinguish the acquisition, processing, and basic interpretation of wireline from LWD logs and their integration with other wellsite-derived geological data.

Day 1

Well site geologist job description.
Duties and responsibilities for well site geologist
Safety on rig site
Office preparation
Getting mobilizing
Mud logging unit supervision
Cuttings: sampling, cleaning, analysis, description, calcimetry, lag time, XRD, fluorescence.
Quality and representativeness of cuttings

Day 2

Quick review of mechanical parameters (WOB, RPM, and ROP) and hydraulic parameters (SPP, MFR, MWt in & out, etc.) monitored during drilling.
Detection and evaluation of gas shows while drilling, chromatography, and type of dissolved gases in the mud.
Importance of gas control on quality of measurements. Gas while drilling.
Role of well site geologist: analysis and decision.
Depth control: depth, deviation surveys (MD, TVD, TVDSS), and stratigraphic column.
Gathering geological and drilling information

Day 3

Geological log: header and track presentation; main software programs.
Drilling parameters for a geological log
Calcimetry, gas, gain, and losses
Composite log: interpretation of geological observations and descriptions for the lithology
Rig types
Drilling, casing, and cementing.
Core and casing points

Day 4

MDW, LWD, and Geosteering
Wireline logging operations
Preparation for wireline logging
Log quality control
Overview of Shally sand interpretation
Overview of log interpretation in thin sand/shal sequences
Overview of log applications in Shall-oil/gas formations

Day 5

Integration of other data: well tests results and logging information.
Supervision and quality control of logging operations.
Coring operations: core recovery, cleaning, splicing, description, fracture identification, sampling, photos.
Final report
Case studies

Cost: 1750 USD

Duration: 5 Days

Oil Analysis - Power Technical Training , Cairo

Sat, 30 Sep 2017 14:29:11 +04

Course Outline
World-class Maintenance Philosophies
Five prevailing features of world-class maintenance programs
The 80:20 rule for maintenance
Three successful elements of a CBM program
Introduction to Machinery Lubrication
Oil formulation and its importance in effective machinery lubrication
Six key functions of lubricating oils
Three primary lubrication regimes
Introduction to base oils and additives
Choosing the correct base-stock
Conditions that dictate use of synthetic oils
Antioxidant additives and their role in oil life
Dispersants and detergents - the key to controlling soot
Controlling wear with additive chemistry
Oil Analysis Fundamentals
Interpreting the language your oil is speaking
Prevailing myths about oil analysis
Common applications for sampling and analysis
Three categories of oil analysis
Oil Sampling - The Very Best Practices
11 elements of a successful oil analysis program
How clean should sample bottles be?
How to find the best sampling locations
Sampling valves and hardware recommendations
A quick method for optimizing sampling intervals
The importance of primary and secondary sampling points
How to properly sample circulating systems
Safe, effective high-pressure sampling from hydraulic systems
Best practices for sampling splash-, collar-, and ring-lubricated systems
Fluid Properties Analysis
Four common root causes of oil degradation
Recognizing and controlling oil oxidation
Monitoring lubricant degradation using acid number
Monitoring lubricant health using FTIR
Determining oil life using RPVOT
Recognizing and controlling thermal failure
How to recognize additive depletion or degradation
Using paper chromatography (blotter spot test) to detect additive and base oil degradation
Four ways to detect the addition of wrong oil
Contamination Control and Proactive Maintenance
Seven common contaminants
Oil cleanliness and oil life extension benefits
Using the ISO Solid Contamination Code
Proactive maintenance in three easy steps
Case studies for proactive maintenance
Oil filter and breather recommendations
Portable filtration carts - three ways to use them
Setting targets for oil cleanliness
Detecting and controlling moisture contamination
Selecting moisture removal/filtration methods
The effects of heat on lubricants
Controlling air entrainment and foam
Glycol contamination
Dealing with soot
Understanding fuel contamination
Fault Detection and Wear Particle Analysis
How wear metals are measured using RDE and ICP spectrometers
Measuring larger particles with Rotrode Filter spectroscopy
Using ferrous density to determine the severity of a wear problem
Using analytical ferrography for advanced fault detection
Using ferrography for root cause analysis
Four primary sources of friction in lubricated machinery
The 10 wear mechanisms that reduce machine life
The most common wear modes in plain, rolling element, and thrust bearings
Understanding gear wear
Understanding wear in hydraulic systems
Instrument Free On-site Tests
How to inspect vents and breathers
Tips for effective sight glass inspection
Getting valuable information from used filters
Inspecting reservoirs for clues about lube trouble
Scenting lubricants to find problems
Getting visual clues from the oil sample before mailing it out
Getting into particle analysis for under $100
Turn your kitchen blender into a test for demulsibility and foam tendency
Screening for water with a simple hot plate
How an unwanted business card can reveal oil degradation
Interactive Case Studies Workshop
Individual and group participation in problem-solving exercises
Exercises in how to read an oil analysis report

Cost: 1800 EGP

Duration: 5 Days