Face-to-Face Course

November 10th to 14th, 2025

Duration : 5 days

Course Objectives

• Understand the technical and operational fundamentals of geothermal well drilling.
• Recognize the key differences between geothermal and oil & gas wells.
• Apply engineering principles to design wells for high-temperature environments.
• Develop criteria for selecting equipment, fluids, materials, and well control methods.
• Identify common operational problems and implement effective mitigation strategies.

Program Outline

1. Introduction to Geothermal Drilling

• Key definitions and concepts
• Types of geothermal wells
• Comparison with oil & gas wells
• Geothermal heat sources and types of exploitation
• Performance gaps and how to evaluate a geothermal resource

2. Drilling Equipment and Principles

• Rotary drilling fundamentals and rig types
• Power, hoisting, rotation, circulation, and well control systems
• Equipment for high-temperature environments
• Solids control and fluid handling

3. Bottom Hole Assemblies (BHA) and Directional Drilling

• BHA components and configurations
• Mud motors, turbines, and MWD/LWD tools
• Bit types and temperature performance
• Directional drilling design and steering systems
• Temperature limitations in trajectory control

4. Wellbore Surveying and Collision Avoidance

• Survey methods and correction models
• Accuracy and uncertainty in directional wells
• Collision prevention and error models

5. Casing and Wellhead Design

• Tubular manufacturing and specifications
• Casing shoe selection and wellhead configuration
• Design considerations for HPHT wells

6. Metallurgy and Material Resistance

• Sweet and sour corrosion
• Selection of alloy materials and cost considerations
• Thermal weakening of tubulars
• Effects of H₂S on material integrity

7. Well Control and Operational Safety

• Hydrostatic pressure principles and kick detection
• Blowout preventers and double-barrier philosophy
• Well integrity and safety procedures

8. Bit Design and Performance

• Bit selection by propulsion method
• PDC cutter design and wear mechanisms
• Diagnosis of bit damage

9. Common Operational Problems

• Pipe sticking and poor hole cleaning
• Torque and drag management
• Axial, lateral, and torsional vibrations
• Fishing techniques and recovery operations

10. Drilling Fluids and Thermal Management

• Types and basic properties of geothermal fluids
• Measurement techniques and temperature effects
• Lost circulation control and safety considerations

11. Applied Geomechanics

• Rock stress analysis: thermal and hydraulic
• Natural and induced fracturing
• ELOT/XLOT test methods

12. Formation Damage and Productivity

• Permeability reduction during drilling
• Strategies to minimize damage and enhance reservoir productivity

13. Regulations, Public Perception, and Innovation

• Regulatory frameworks and licensing
• Risk management, KPIs, and team competencies
• Adoption of new technologies in geothermal drilling