WellSharp Drilling Workover
The Drilling/Workover course builds on the fundamental aspects of well control for drilling and workover operations with a focus on well kill operations for surface stacks only.
WORKOVER COURSE OUTLINE IADC WELLCAP
Interactive Tools
- Provide students with over 600 pages of pre-course study
materials at wildwell.com - Provide students with a study guide that covers up to 150 interactive well control questions and answers.
- Provide students with a 50 question test to determine their well control knowledge gaps.
Preliminary Items
- Safety: escape routes, muster points, etc.
- Discussion of special needs
- Introductions
- Class paperwork
DRILLING: Serious Well Control Problem From the Wild Well Library
- Students form teams
- Team discussion of the potential well control problem
- Simulator exercise demonstrating the well control challenge
- Return to class to discuss the challenge
Well Control Course Objectives
- Formations, pore pressure, fracture gradients
- Killsheet, kick detection, flow checks, well shut-in, and gas behavior
- Well control methods
- Well control equipment (barriers, BOPs, manifolds, accumulator, etc.)
- Completing the well and post-completion activity
- Final well control simulation: from a kick to kill, with complication
- Assessments: skills and written
Formations, Pore Pressure, and Fracture Gradient
- Formation structure
− Porosity
− Permeability - Fracture gradients, kick tolerance, pore pressures
− Related formulas/math (hydrostatic pressure, the U tube, force, MAASP, etc.)
− Equivalent mud weight
− Kick tolerance
− Pore pressure vs. fracture gradient (drilling margin/window) - Simulator exercise demonstrating a FIT; discussion of LOT (if needed, depending upon class knowledge level)
- Discuss casing and cementing program
- Discuss drilling fluids program
Barriers
- Philosophy and operation of barrier systems
- Number of barriers for safe operation
- Testing barriers
Shallow Gas, Water Flows, and Top-Hole Drilling
- Definitions and causes of pressure in top-hole formations
- Causes of underbalanced top-hole
- Diverting practices
- Top-hole drilling practices and causes of kicks
Abnormal Pressure Warning Signs
- Abnormal pressure
- Shaker evidence
- Changes in mud properties
- Changes in drilling data/parameters
Killsheet, Kick Detection, Flow Checks, Well Shut-In, and Gas Behavior
- Related formulas/math (capacities/volumes, strokes,
circulation times, etc.) - Causes of kicks
- Kick signs
− Overt kick signs
− Pre-kick signs - Flow-check procedures
- Shut-in procedures
− Hard shut-in
− Soft shut-in
− Shut-in challenges - Paper killsheet with preliminary well data
− Well data, volume calculations
− Discuss the importance of a killsheet - Simulator exercises demonstrating hard and soft shut-in
− Kick detection and shut-in
− Students complete killsheet with simulator well data
(or instructor-given data)
− Discussion of killsheet calculations:
− What do they mean? (if needed) Discussion of IADC WellSharp
rounding rules - Gas behavior
− While drilling
− In horizontal wells
− While shut-in
Well Control Methods
- Review of related formulas/math (capacities/volumes, strokes, circulation times, kill mud, MAASP, ICP, FCP, etc.)
- Wait and Weight Method
− Discussion of Wait and Weight
− Techniques
− Skills (pump startup, step-down chart, gauge use, lag time, etc.)
− Simulator exercise - Driller’s Method
− Discussion of Driller’s Method
− Techniques
− Skills (pump startup, capturing pressure after first circulation, lag time, etc.)
− Simulator exercise - Volumetric and Lube and Bleed
− Discussion of Volumetric Method
− Formulas
− Understanding the process and technique
− Skills (use of electronic killsheet or paper graph, managing gas migration)
− Simulator exercise
− Discussion of Lube and Bleed
Stripping Pipe Under Pressure
- Discussion of technique
- Skills (annular pressure, speed of strip, managing wellbore pressures via volumetric method)
- Simulator exercise
Bullhead Methods: Discussion & Simulator Exercise (if time allows)
Discussion of study guide questions
Well Control Drills
- Pit drills
- Trip drills
- Stripping drills
- Choke drills
- Early response and empowerment to act
Completing the Well and Post-Completion Activity: a short discussion
- Completions
- Differences between drilling and workover
Final Simulator Exercise (if time allows)
- Abnormal lateral well and kick detection
- Kill the well with Wait and Weight Method
Discussion
- Ballooning wells vs. kicking wells
- FingerprintingTension
Discussion of Study Guide & Questions
Skills Assessment
WORKOVER:
Learning objectives
- Operations
- Barriers
- Bullhead Method
- Complications
- Reverse Circulation Method
- Unconventional well control
- Lube and Bleed Method
Operations
- Completion design
− Reservoir considerations
− Production methods - Workover operations
− Drilling vs. workover well control considerations
− Equipment considerations
Barriers
Bullhead Method
- Calculations
− Kill fluid
− Volumes
− Pressure considerations - Graphing a bullhead method
- Bullhead simulation exercise
- Bullhead method killsheet
- Bullhead simulation exercise with a killsheet
Complications
- Surface
- Downhole
- Bullhead complications simulation
Reverse Circulation Method
- Effects of friction
- Complications
- Reverse Circulation simulation
Unconventional Well Control
- Pill and Kill
- Top kill
- Rolling the Hole
- Volumetric Method
Lube and Bleed Method
- Discussion of the process
- Lube and Bleed simulation
Computer-Based WellSharp Exam