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The Hydraulic Fracturing Design and Execution Training Course gives petroleum engineers, completion engineers, and field professionals a comprehensive, technically grounded understanding of hydraulic fracturing from fracture mechanics and design fundamentals through to fluid and proppant selection, real-time execution monitoring, post-fracture evaluation, and restimulation strategies.
Hydraulic fracturing is one of the most technically demanding and commercially significant operations in the oil and gas industry. In conventional, tight, shale, and unconventional reservoirs alike, fracture design quality directly determines well productivity, cost efficiency, and long-term production performance. A poorly designed or poorly executed fracturing operation can result in screenouts, suboptimal fracture geometry, production shortfalls, and costly remediation.
This course addresses every dimension of fracturing competence from geomechanical inputs, stress profiling, and fracture modelling, through fluid chemistry, proppant selection, and equipment management, to DFIT analysis, real-time pressure monitoring, and post-fracture diagnostics. Case studies from shale, tight gas, and unconventional oil plays are integrated throughout.
The Hydraulic Fracturing Design and Execution Training is built for field professionals and engineers who want the technical depth and practical confidence to design, execute, monitor, and optimise hydraulic fracturing operations at the highest professional standard.
The Hydraulic Fracturing Design and Execution Training Course is designed to develop end-to-end hydraulic fracturing capability — from reservoir evaluation and fracture design through to fluid and proppant selection, real-time execution, post-fracture analysis, and optimisation.
By the end of this course, participants will be able to:
The Hydraulic Fracturing Design and Execution Training is designed for petroleum engineers, completion engineers, production engineers, and field professionals who are directly involved in the planning, execution, or evaluation of hydraulic fracturing operations — and who need the technical depth to contribute to better fracturing outcomes.
This course is suitable for:
The Hydraulic Fracturing Design and Execution Training Course is delivered through a technically structured, progressively building learning approach that moves from fracturing fundamentals and geomechanical design inputs through fluid and proppant selection, execution management, and post-fracture evaluation. Each day addresses a distinct phase of the hydraulic fracturing workflow building a complete, integrated technical understanding of the full fracturing lifecycle.
Real-world case studies from shale, tight gas, and unconventional oil plays, diagnostic analysis exercises, and real-time monitoring scenario discussions are integrated throughout ensuring delegates connect technical frameworks to the field realities of hydraulic fracturing operations.
Delivery methods include:
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Common questions about our training courses
This course is designed for completion engineers, petroleum engineers, production engineers, wellsite supervisors, and technical field professionals who are involved in the planning, execution, or evaluation of hydraulic fracturing operations. It is suitable for both experienced engineers deepening their fracturing design and execution capability and those newer to fracturing who want a comprehensive, technically rigorous foundation across the full fracturing workflow.
Day 2 focuses on the geomechanical and design foundations of hydraulic fracturing — covering rock mechanics, stress profiling, fracture gradient determination, and how these inputs inform treatment design decisions including pad volume, pump rate, and stage planning. Delegates develop the ability to interpret geomechanical data and apply it to fracture design decisions that optimise fracture geometry and stimulation effectiveness.
Day 5 focuses on post-fracture evaluation — covering production data analysis, decline curve interpretation, and fracture performance diagnostics that allow engineers to assess how well the fracture treatment achieved its design objectives. Delegates develop the ability to evaluate post-frac well performance systematically, identify where stimulation fell short of expectations, and use those insights to improve the design of subsequent treatments.
A working background in petroleum or completion engineering is helpful. The course begins with fracturing history, objectives, and fracture geometry fundamentals before advancing to geomechanical design, fluid and proppant selection, execution management, and post-fracture analysis making it accessible to delegates with a solid petroleum engineering foundation who are ready to develop their hydraulic fracturing capability in a structured, technically rigorous environment.
Pre-frac diagnostics — including DFIT analysis and mini-frac interpretation — are covered directly within Day 4 as essential tools for calibrating fracture design parameters before the main treatment. Delegates learn how DFIT data reveals closure stress, fluid leakoff, and reservoir pressure — and how mini-frac pressure responses inform pump rate and fluid volume decisions. Applying these diagnostics correctly is one of the most impactful ways to improve fracture treatment outcomes and avoid costly execution problems.
Refracturing and restimulation are addressed within Day 5 — examining when refracturing is technically and economically justified, what diagnostic indicators suggest a well is a candidate for restimulation, and what design considerations apply to refracturing treatments in shale, tight gas, and unconventional oil wells. Delegates leave with the knowledge to evaluate restimulation opportunities within their own asset portfolios.
