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

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.

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.

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

IESL’s Sand Production Management System 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.

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

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.

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

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.

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

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