IESLGlobal

The result of 4 years of R&D, GeoDRILL® is an analytical, statistical and computational methodology that optimises the drilling process by predicting wellbore stability, a major challenge whilst drilling wells in areas such as problem shales and depleted reservoirs.

GeoDRILL® is a computational methodology that optimises the drilling process by identifying and solving wellbore stability and cuttings transport problems.

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Field validated model– Successfully used in deep water, HP/HT, depleted and multilayer reservoirs - Reduced risk and cost.

Effective hole cleaning – Allows optimisation of drilling fluid rheology and rates for effective cuttings transport - Minimised operational time.

Enhanced operation planning- Effective drilling programmes can be carried out and contingency plans developed - Increased productivity.

Realistic Failure Criteria - avoids lost hole, reduce mud losses and keeps the hole in bore for optimum cementing of liners - Lower OPEX

Computational fluid dynamics - used to ensure optimum fluid rheology and rates - Optimised Drilling Program

Output Log - Easy to use, providing flexibility and clarity - Reduced risk

GeoCOMPLETION® is a new methodology from IESL that utilises our existing experience with geomechanics and combines it with drilling, completion and operational issues for a life of the well and life of the field solution.

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Coupled flow and geomechanics improves the understanding of well and reservoir performance resulting in better completions and higher production

Changes in reservoir mechanical properties can be beneficial to improve production and extend life of the field

Field re-development projects can be enhanced from timely identification of the rock mechanical performance affecting productivity therefore, allowing improved well design reduce risk

GeoDAMAGE® - details coming soon

 

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GeoPERFORATION® - details coming soon

 

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SPMS® (Sand Production Management System) limits sand production reducing associated problems. It is based on predicting sanding potential and produces recommendations on perforating and drawdown. When sand production is unavoidable, SPMS highlights the best sand control and remedial options.

 

IESL’s SPMS® enables effective well design and production planning in reservoirs with potential sanding problems. The system determines the optimum operating conditions and aids in the selection and design of the completion.

 

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Accurate & realistic modelling – Pseudo 3D model that accounts for stress regime and reservoir strength - Lower CAPEX

Superior technical support – The system is formed by a number of databases and analytical components on equipment specifications, reservoir properties and hardware track records - Increased reliability

Improved Field Management – Long term planning taking into account effects such as increase of WOR and reservoir depletion on the sanding predictions - Extended field life

Pseudo 3D Model - coupled with production induced stresses - Accurate Sanding Prediction

Sand Control Database - Incorporating track records and availability - Clear options

Strength Prediction - Foot by foot information shows potential sanding zones - Maximum drawdown

IESL's Laboratory Services are designed to give a rapid turnaround on input data needed for Geomechanical related studies. The Lab services have been designed such that many of the results can be done, for instance, with cores at the client's premises instead of having the delays and risk associated with transporting the cores to a far away lab.

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We have extended our capability in order to provide our customers with rapid, cost effective, first class results.

 

IESL can carry out, for instance, mechanical testing using our Rapid Low Impact Strength Test (RLIST™) methodology. Over 5000 feet of core material has been tested successfully for our customers all over the world. Typically turnaround time is greatly reduced and the number of data points greatly increased .

 

Based on our base expertise in well construction, completion and geomechanics, we are now able to provide:

 

  • grain size characterisation,
  • flow testing and
  • reservoir characterisation (porosity-permeability) test capabilities

 

New technology such as Visual Imaging and non-destructive impact are used and measurements can be taken either at IESL’s custom built testing premises or at the core storage facility.

Knowledge Transfer: IES is involved in bespoke training and Knowledge Transfer for many of its clients and would welcome the opportunity to work with your organisation. IES can combine the technical robustness with the practical experience to create a rich experience for participants with excellent support and reference material.

For more information on IES training contact: info@iesl-global.com

 

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SizeCUT® is a drill cuttings dispersion model that allows accurate and effective determination of the cutting’s position and profile on the seabed. Based on a unique algorithm, it is a vital part of the EIA requirement and can be used to identify risk to seabed assets.

 

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Reliable model – Experience of over 40 North Sea well - Accurate predictions

Improved planning – Abandonment, pipeline, anchor, template, etc work can be effectively protected - Reduced risks & lowered costs

Unique model - Using cuttings sizes, volumes and tidal input - Fact based

3D Graphics - Creates a visual picture of the cuttings around the rig - Reduced risk

Part of EIA - Ensure first time approval of drilling plan - Lower costs

Field proven– Consistently being used as an integral part of the EIA - Environmental compliance

IESL’s Rheologically Enhanced Production System - RhEPS® is a unique technology that allows accurate well performance modelling and downhole fluid conditioning. It takes into account factors that affect fluid behaviour such as temperature and mechanical energy.

 

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Realistic fluid properties– precise determination of fluid’s dynamic rheological properties such as viscosity - Accurate well performance prediction

Optimum equipment sizing– Understanding the fluid’s rheological behaviour, equipment such as pumps can be properly selected and sized - Lower CAPEX and OPEX

Fluid conditioning– RhEPS® allows downhole fluid conditioning ensuring that pressure losses are kept to a minimum - Higher productivity

DISCLAIMER

The materials contained on this web site are provided for general information only and do not constitute any form of advice without further verbal or written confirmation.

Innovative Engineering Systems Limited (IESL) assumes no responsibility for the accuracy of any particular statement and accepts no liability for any loss or damage which may arise from reliance on the information contained on this site.

Links to other websites from these pages are for information only and IESL accepts no responsibility or liability for access to or the material on any website which is linked from or to this website.

Links to this site can be made but we would like to be informed of any such links.

Copyright applies to all material contained within this website whether it is IES or third parties. If you would like to copy something please contact us.

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