To optimize field performance and maximize revenue, engineers must treat the reservoir, wells, and surface facilities as a single interconnected system. This course introduces the integrated workflows necessary to model these interactions, enabling professionals to identify production constraints and design effective optimization strategies. By understanding the physics of flow from the reservoir pore to the process facility, learners will gain the skills to forecast production profiles and plan field development stages effectively

Participants will learn to build and validate material balance models for oil reservoirs, evaluate inflow and outflow performance relationships (IPR/VLP) for various well geometries, and apply nodal analysis to predict well behavior and artificial lift effects . The course enables learners to perform history matching, design waterflooding strategies using Buckley-Leverett analysis, and optimize surface networks by identifying bottlenecks and assessing flow assurance risks such as hydrates, wax, and scale.

This is a self-paced e-learning program designed to provide a deep understanding of integrated production systems through theoretical lectures and analytical case studies. The methodology focuses on the fundamental principles and calculation workflows of reservoir and network modeling, allowing professionals to master optimization techniques and system analysis without the need for specific proprietary simulation tools.

Organizations will benefit from engineering teams equipped to view the field as an integrated system, leading to more accurate production forecasting and the identification of revenue-limiting bottlenecks. By applying rigorous nodal analysis and flow assurance studies, companies can optimize existing assets, reduce downtime due to hydrate or wax formation, and design more efficient field development plans that maximize overall recovery

You will gain advanced technical competence in full field modeling, mastering the ability to link reservoir performance with surface network constraints. This training enhances your analytical skills in key areas such as material balance, wellbore hydraulics, and flow assurance, empowering you to confidently solve complex production challenges and lead integrated field development projects

Reservoir Engineers

Petroleum Engineers

Production Engineers

Field Engineers

Processing Engineers

On successful completion of this training course, PEA Certificate will be awarded to the delegates.