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Energy Equilibrium Inc provides consultancy services in integrated field studies, reservoir management and surveillance, geological and geophysical modeling, reservoir characterization, reservoir engineering, simulation, production engineering, economic evaluation, reserves estimation and sustainable host community development



Our integrated field studies have the following goals:

  • Generate seismic, geological and petrophysical models for the hydrocarbon bearing levels.

  • Generate Static models for the hydrocarbon bearing levels and evaluate the HCIIP.

  • Generate calibrated dynamic models as a reservoir management and planning tools.

  • Evaluate different re-development scenarios to optimize hydrocarbon recovery under both primary and secondary recovery (gas/water injection).


These goals are achieved with the execution of the following technical work program:




  • Project Definition

  • Data Collection

  • Data Review

  • Validation

Seismic Data Review
  • Review the quality of Seismic data available

  • Review the 3D seismic data/mapping of the field.

  • Obtain and validate the logs necessary to obtain synthetic seismograms.

  • Review any existing correlations  

  • Interpret the seismic data

  • Construct a velocity model and analyze the seismic attributes


Structural/Stratigraphic models


  • Compile and validate all the existing structural information : Maps, logs (including dipmeters, deviation information etc)

  • Review and incorporate regional markers

  • Construct a stratigraphic model




Log Data Preparation

  • Review well log quality (depth shift and carry out environmental corrections)

  • Organize the petrophysical database and perform preliminary quality control

  • Select control wells for the petrophysical analysis

  • Construct a petrophysical model.

  • Review past seidimentological studies or carry out a new one.

  • Construct a lithofacies model

  • Saturation height function and water saturation modeling











Static model
  • Generate grid

  • Define parameters for simulation

  • Define multiple realizations

  • Select possible outcomes

  • Determine scale and size for simulation

  • Construct Static Model

  • Calculate HCIIP and Reserves (P10, P50 and P90)


Reservoir Engineering Study
  • Collect and validate the static pressure data, production and injection data, dynamic pressure, PVT and RFT etc.

  • Review the mechanical state of the wells

  • Identify potential workover wells

Production Data Review
  • Review all available Production and injection  data

  • Validate Production test data

  • Review the mechanical state of the wells

  • Update of the well history and event, mechanical diagrams

  • Identification and resolve data base problems

  • Report on data availability and deficiencies

Pressure Test Analyses
  • Review all available CIBHP data

  • Review existing analysis of Well test data in key wells

  • Analyze outstanding well test data

  • Interpret existing RFT/MDT data


PVT Modeling
  • Validate PVT reports

  • Analyze PVT data (Black oil, EOS, etc)


  • Review SCAL data

  • Derive Pc curves


Material Balance
  • Carry out Material Balance analysis

  • Derive Pc curves

Reservoir Simulation Study
  • Review Static model

  • Review PVT and Relative Permeability data

  • Review Schedule file

  • Initialize Model

  • History match

  • Run prediction scenarios

  • Produce a Development plan

  • Final reports and deliverables shall be in the format specified by client.

Economic Evaluation
  • Economic Evaluation of prediction scenarios

  • Project Economics

  • Fiscal Agreement modeling

  • Cost Benefit analysis

  • Market supply/demand studies

  • Petroleum Product Pricing

  • SWOT Analysis

Sustainable Host Community Development Study
  • Environmental Impact Study

  • Social/Economic/Political Baseline and Impact study

  • Community development plan preparation and implementation

  • Community development plan assessment/review


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