Stimulation & Technical Pumping Operations Training Course
Comprehensive Stimulation & Technical Pumping Operations training aligned with API RP 19C and ISO 13503 standards.
Main Service Location
Course Title
Stimulation & Technical Pumping Operations
Course Duration
2 Days
Training Delivery Method
Classroom (Instructor-Led) or Online (Instructor-Led)
Assessment Criteria
Knowledge Assessment
Service Category
Training, Assessment, and Certification Services
Service Coverage
In Tamkene Training Center or On-Site: Covering Saudi Arabia (Dammam - Khobar - Dhahran - Jubail - Riyadh - Jeddah - Tabuk - Madinah - NEOM - Qassim - Makkah - Any City in Saudi Arabia) - MENA Region
Course Average Passing Rate
98%
Post Training Reporting
Post Training Report + Candidate(s) Training Evaluation Forms
Certificate of Successful Completion
Certification is provided upon successful completion. The certificate can be verified through a QR-Code system.
Certification Provider
Tamkene Saudi Training Center - Approved by TVTC (Technical and Vocational Training Corporation)
Certificate Validity
3 Years (Extendable)
Instructors Languages
English / Arabic
Interactive Learning Methods
3 Years (Extendable)
Training Services Design Methodology
ADDIE Training Design Methodology
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Course Outline
1. Introduction to Well Stimulation
1.1 Stimulation Fundamentals
Purpose and objectives of well stimulation including (productivity enhancement and damage removal)
Types of stimulation treatments including (matrix treatments, hydraulic fracturing, and acid fracturing)
Evolution of stimulation technology including (historical development, current practices, and future trends)
Introduction to API RP 19C and ISO 13503 standards for stimulation operations
1.2 Formation Damage Mechanisms
Permeability impairment mechanisms including (drilling damage, completion damage, and production-induced damage)
Damage evaluation techniques including (pressure transient analysis, production decline, and laboratory testing)
Mineralogical considerations including (clay sensitivity, mineral dissolution, and precipitation potential)
Damage prevention strategies including (drill-in fluid selection, completion techniques, and production practices)
2. Matrix Acidizing Treatments
2.1 Acidizing Chemistry
Acid types and properties including (hydrochloric acid, hydrofluoric acid, organic acids, and acid blends)
Acid-rock interactions including (dissolution mechanisms, reaction kinetics, and byproduct formation)
Acid additives including (corrosion inhibitors, friction reducers, iron control agents, and surfactants)
Chemical compatibility including (formation fluid compatibility, mixing order, and precipitation prevention)
2.2 Matrix Acidizing Design
Treatment fluid selection based on formation mineralogy
Volume determination strategies for effective damage removal
Injection rate optimization for various formation types
Diversion techniques for complete zone coverage
Design workflows including pre-treatment testing requirements
3. Hydraulic Fracturing
3.1 Fracturing Mechanics
Fracture initiation and propagation principles
Stress field effects on fracture geometry
Rock mechanical properties influence on treatment design
Pressure analysis for treatment evaluation
Containment mechanisms and height control
3.2 Fracturing Fluid Systems
Water-based systems for various applications
Crosslinked fluid chemistry and performance characteristics
Alternative fluid systems including energized and foam-based fluids
Proppant selection criteria and placement considerations
Environmental considerations in fluid selection
3.3 Fracture Design and Execution
Design parameters optimization for production enhancement
Pump schedule development methodologies
Real-time monitoring techniques and adjustment strategies
Post-treatment evaluation approaches
Lessons from Middle East fracturing operations
4. Specialized Stimulation Techniques
4.1 Acid Fracturing
Applications in carbonate reservoirs
Acid selection for optimal etching and conductivity
Execution challenges specific to Middle East formations
Conductivity retention strategies
Case studies from regional applications
4.2 Sand Control Stimulation
Frac pack operations in unconsolidated formations
Combined stimulation and sand control approaches
Screen selection and compatibility considerations
Execution challenges and solutions
Regional applications in the Middle East
5. Stimulation Equipment and Operations
5.1 Surface Equipment
High-pressure pumping equipment capabilities and limitations
Blending and mixing systems for various treatment types
Monitoring systems for quality control
Chemical handling equipment and safety systems
Recent technological advancements in stimulation equipment
5.2 Downhole Equipment
Tubular considerations for high-pressure operations
Isolation tools for targeted treatment placement
Stimulation-specific tools and accessories
Equipment selection criteria based on well conditions
Compatibility considerations with completion equipment
6. Stimulation Fluid Testing and Quality Control
6.1 Laboratory Testing
Compatibility testing protocols
Rheological characterization methods
Performance testing under simulated conditions
Core flow studies for treatment optimization
6.2 Field Quality Control
Pre-job verification procedures
On-site testing requirements
Real-time monitoring parameters
Quality documentation standards
Troubleshooting common quality issues
7. Diagnostics and Evaluation
7.1 Pre-Treatment Diagnostics
Formation evaluation methods
Stress determination techniques
Damage assessment approaches
Test design and execution
Data interpretation for treatment design
7.2 Post-Treatment Evaluation
Production response analysis
Pressure transient interpretation
Treatment effectiveness metrics
Economic evaluation methodologies
Continuous improvement approaches
8. HSE in Stimulation Operations
Risk assessment methodologies for high-pressure operations
Pressure containment standards and testing requirements
Chemical handling procedures and personal protection requirements
Environmental considerations and waste management
Emergency response planning and execution
9. Quality Control in Stimulation Operations
Quality management system implementation
Material verification procedures
Equipment integrity assurance
Personnel competency requirements
Documentation and reporting standards
10. Case Studies & Group Discussions
Analysis of stimulation treatments from Middle East fields
Problem-solving sessions for operational challenges
Success stories and lessons learned
Optimization examples from regional applications
The importance of proper training in successful stimulation operations
Targeted Audience
Stimulation engineers designing and executing treatments
Production engineers involved in well productivity enhancement
Completion engineers integrating stimulation with completions
Reservoir engineers evaluating stimulation candidates
Field supervisors overseeing stimulation operations
Technical professionals supporting pumping operations
HSE personnel involved in high-pressure operations
Knowledge Assessment
Technical quizzes on stimulation principles and applications
Problem-solving exercises for treatment troubleshooting
Case-based assessments with actual field data interpretation
Standards application and compliance verification
Key Learning Objectives
Design appropriate stimulation treatments based on reservoir characteristics and well conditions
Select suitable stimulation fluids and additives for specific applications
Apply proper equipment operation procedures for high-pressure pumping operations
Implement effective quality control measures throughout stimulation processes
Analyze and interpret stimulation data for treatment optimization
Troubleshoot common operational challenges during stimulation treatments
Apply proper HSE practices during high-pressure operations
Course Overview
This comprehensive Stimulation & Technical Pumping Operations Training Course equips participants with essential knowledge and practical skills required for planning and executing effective well stimulation treatments. The course covers fundamental stimulation principles along with advanced techniques for treatment design, equipment operation, and quality control.
Participants will learn to apply industry best practices and international standards including API RP 19C and ISO 13503 to make informed decisions throughout stimulation operations. This course combines theoretical concepts with practical applications and Middle East case studies to ensure participants gain valuable skills applicable to their operational environment while emphasizing well productivity enhancement and operational safety.
Practical Assessment
Treatment design exercise based on actual well data
Quality control procedure demonstration
Pressure analysis and interpretation exercise
Post-treatment evaluation methodology application
Why Choose This Course?
Comprehensive coverage from fundamentals to advanced applications
Practical approach focusing on operational techniques and troubleshooting
Integration of laboratory testing with field execution
Emphasis on international standards including API RP 19C and ISO 13503
Focus on Middle East applications and regional challenges
Hands-on design exercises for various stimulation scenarios
Interactive learning methodology with case studies and problem-solving
Note: This course outline, including specific topics, modules, and duration, can be customized based on the specific needs and requirements of the client.