Target audience:the professional scope of learners who have completed the advanced training course includes:implementation and management of technological processes and production; methodology and methods of design and engineering; scientific research and development in the fuel energy sector, including: field development; hydrocarbon transportation and storage; exploration of the Earth’s subsurface and surface; rational use and protection of land and hydrocarbon resources.
Studying methods: lecture, problem‑solving exercises, calculations, graph construction / chart plotting, brainstorming, training session / workshop, exercises, master class / master‑class.
After of course, participants will be: to enhance professional competencies reflected in knowledge and skills.
- apply knowledge of multiphase flow regimes and assess the stability of the reservoir‑well system operation;
- use well performance modelling knowledge in practice;
- to define the objective and apply various methods for creating a reservoir fluid model;
- define the goal and apply various methods for reservoir modelling;
- determine the minimum and sufficient set of input data for well performance simulation;
- analyse the applicability of various artificial lift methods (gas lift or pump production);
- analyse potential well operation complications using model examples and evaluate the application of various technical and technological solutions;
- select an electric submersible pump (ESP) unit for specific wells;
- plan and design gas lift operations at various stages of field development;
- conduct qualitative and quantitative assessment of the impact of various complicating factors on well operation (hydrates, asphaltene/paraffin/scale/wax deposits (APSW), corrosion and erosion, self‑choking).
About course: professional development for engineers in production and operations, as well as specialists engaged in analysing the performance of flowing and mechanized wells with the use of stationary and non‑stationary simulation tools.