|
Field
|
Country
|
Description of Production Modelling Work Performed
|
| Pacific Rim |
Australia |
IPM that optimally quantifies performance of reservoirs, wells, and facilities for asset's remaining life. Evaluate facilities debottlenecking, optimize depletion and schedule recompletion opportunities. |
| West Africa |
Nigeria |
IPM to generate production forecasts to assess feasibility of adding high pressure gas handling facilities and gas injection to six fields. Evaluate compression requirements and facility capacities. Evaluate uplift potential from infill drilling and gas lift installation. Open server for data validation and transfer. |
| |
Nigeria |
IPM to evaluate major upgrades to gathering system and production platforms for multi-field complex. Open Server for data validation and transfer. |
| |
|
Production optimization IPM using PROSPER and GAP |
| |
Eq. Guinea |
Justification of artificial lift and prediction or requirements. |
| North America |
Canada, East |
IPM for evaluation of future drilling activities and compression facilities and timing. Open Server step-wise predictions for staged completions with preferential depletion of tanks. |
| |
|
Conceptual IPM to investigate unexploited reserves and provide production forecasts for potential field development scenarios. |
| |
|
IPM for Short-Term Forecasting. Open Server link from simulation results to MBAL. Open Server link from morning reports to PROSPER and GAP. Open Server step-wise predictions to customize model to field operating practices. |
| |
|
IPM for 6 fields to evaluate compression timing and field development sequence. Reservoir models based on simulation results. Evaluate compression timing and field development sequence. |
| |
Canada, West |
IPM to investigate economics of gas storage system |
| |
|
IPM for low pressure gas brown Field Development planning & forecasting. Consists of 400 wells, 300 reservoirs & 7 gathering stations |
| |
|
IPM to investigate feasibility of gas storage |
| |
GOM |
Several IPM’s to define operator’s optimum development strategy to maximize competative gas recovery, and to define the budget items required to do so |
| |
|
IPM for production allocation. Open Server link from morning reports and field data-base to monitor and match well tests and to allocate production based on daily wellhead pressures. |
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|
IPM for green field development planning purposes. Deepwater, multi-stacked reservoirs, co-mingled production. Open Server step-wise predictions to automate timing of completion sequencing and optimization of production handling agreement. |
| |
|
IPM to evaluate brown field production uplift opportunities. |
| |
|
Two field studies to evaluate artificial lift requirements and uplift opportunities. |
| |
Alaska |
IPM for production allocation. Open Server link to production database using average daily wellhead pressures to allocate daily well production. |
| |
Permian Reef |
Gas gathering and waste water collection system pressure drop analysis and capacity study. |
| South America |
Venezuela |
IPM for development potential. OpenServer links IPM to economic program |
| |
|
Development study. Number of wells required, NPV for various types of completions/artificial lift, aquifer sizing, fault block and zone viability. Comparison of economics for various production facility capacities. |
| North Sea |
UK |
Production optimization for gas lift field. Compression uplift evaluation. |
| Middle East |
Qatar |
Field wide gas lift feasibility study. (8 gathering systems and 250 wells) |
| |
|
Gas lift optimization. Compression uplift |
| |
Yemen |
IPM for daily optimization (180 ESP wells). Open Server link from field morning reports to PROSPER and GAP. Automated rankings to show fit of IPM model and uplift potential. |
