The oil and gas industry’s ability to meet current demand and future increase in energy needs is greatly dependent on its continued push for application of innovative technologies. We believe in the value of focusing on the end users and based on this, we deliver a current fit-for-purpose engineering solutions in seven major areas:

Design and implementation of field development and operations planning system
  • Integration of subsurface reservoir models with pipeline network and process equipment models
  • Coupling of integrated asset model with economic analysis and risk analysis for field operations planning
  • Advanced optimization workflows for accelerating history matching and field development optimization
  • Optimal well placement in oil and gas fields’ development and re-development
  • Optimizing water injection management for improved oil recovery and subsidence control
    • Enable small producers that operate in depleted mature fields to optimize their water injection and improve hydrocarbon recovery while minimizing the environmental risks of subsidence due to reservoir compaction
    • Provide real-time monitoring and control of reservoir compaction and subsidence
Design and implementation of performance monitoring and surveillance system
  • Optimal placement of permanent downhole gauges
  • Virtual well metering (producers and injectors) and production allocation
  • Zonal split calculation for multi-zone intelligent wells
  • Gas or water influx detection and management
  • Forecast performance of producers and tracking oil and gas reserves
  • Virtual well testing and formation properties estimation (skin, reservoir pressure, permeability, porosity)
  • Intelligent oilfield based workflow solutions for improved oil recovery
    • Optimizing integrated asset management (for clusters of wells with and without ALS)
    • Real-time production data assimilation into integrated asset models
    • Real-time improved well and reservoir management – reservoir characterization & history matching; production forecasting, production optimization and optimal control)
    • Optimizing intelligent oil and gas field/wells solution
    • Well integrity/reliability management and well life-cycle production performance optimization for production availability
    • Optimizing production loss management
Design and implementation of asset integrity surveillance and management system
  • Use of real-time data in well integrity management
  • Sustained casing (annular) pressure monitoring and management
  • Corrosion-erosion monitoring and management
  • H2S gas monitoring and management
  • Sand monitoring and management
  • Surface control subsurface valve health status monitoring
  • Well stability health status monitoring and service life prediction (cement & OCTG)
  • Flow assurance (asphaltene, wax and scale) monitoring
  • Rotating equipment and artificial lift (ESP and Gas lift allocation) system monitoring
  • Field wide asset reliability monitoring and surveillance
Design and implementation of automated workflows and big data predictive analytics system
  • Real-time data management to support digital oilfields
  • Advanced visualization and real-time analysis capabilities for real-time data
  • Data filtering, validation and reconciliation
  • Automated workflows and exception based surveillance using Visual Studio, Petex and OVS designer platforms
  • Data driven modeling for well production surveillance
  • Data mining and big data predictive analytics
  • Intelligent completion/production/reservoir advisory support systems
Design and implementation of intelligent oil and gas fields’ optimization system
  • Online reservoir characterization
  • Reservoir modeling and simulation
  • Automated history matching
  • Production optimization
  • Intelligent field wide optimization
Design and implementation of novel material in well abandonments
  • Evaluation of service life of plugging material options to identify best candidate plugging material using 3D non-linear finite element analysis and non-linear fatigue damage model
  • Modeling to predict the volume of plugging material that is likely to adhere to the casing-tubing while falling to bottom
  • Time-dependent plugging material failure probability analysis in abandoned wells under different operational conditions
Development of a web-based petroleum production data management system
  • Provide oil and gas production information from producers and injectors to meet national regulatory requirements
  • Monitor and control well systems
  • Improve oil and gas field development practices
  • Provide data and tools (computer software) to improve best practices