The following are taught software applications and use for
production optimization;
·
Integrated Production
Modelling (IPM) Suite
·
Digital Oilfield (DOF)
Suite
·
Hydrocarbon Accounting
·
Process Modelling:
This course is targeted to those engineers that have (i) attended the Standard IPM course previously, and (ii) have consolidated their familiarity of MBAL, PROSPER and GAP through consistent use over time. This course will assume a base level of familiarity of the tools, and is intended promote the analytical features available in creating physics based field realisations in the IPM tools.
This course is designed to improve the engineers’ understanding of the approach to building Integrated Production Models using PROSPER, MBAL and GAP , with a focus on the engineering, quality control and program navigation.
The overall objective is to allow the participants to develop an approach to characterising a variety of fluids using the package. There will be practical examples characterising fluids from real data.
This course is targeted to those engineers that have (i) attended the Standard IPM course previously, and (ii) have consolidated their familiarity of MBAL, PROSPER and GAP through consistent use over time.
This course is targeted to those engineers that have (i) attended the Standard IPM course previously, and (ii) have consolidated their familiarity of MBAL, PROSPER and GAP through consistent use over time.
This course is targeted to those engineers that have (i) attended the Standard IPM course previously, and (ii) have consolidated their familiarity of MBAL, PROSPER and GAP through consistent use over time. This course will assume a base level of familiarity of the tools, and is intended promote the analytical features available in creating physics based field realisations in the IPM tools.
This course is designed to improve the engineers’ understanding of the approach to building Integrated Production Models using PROSPER, MBAL and GAP , with a focus on the engineering, quality control and program navigation.
The overall objective is to allow the participants to develop an approach to characterising a variety of fluids using the package. There will be practical examples characterising fluids from real data.
This course is targeted to those engineers that have (i) attended the Standard IPM course previously, and (ii) have consolidated their familiarity of MBAL, PROSPER and GAP through consistent use over time. This course will assume a base level of familiarity of the tools, and is intended promote the analytical features available in creating physics based field realisations in the IPM tools.
The overall objective is to allow the participants to develop an approach to characterising a variety of fluids using the package. There will be practical examples characterising fluids from real data.
This course is targeted to those engineers that have (i) attended the Standard IPM course previously, and (ii) have consolidated their familiarity of MBAL, PROSPER and GAP through consistent use over time. This course will assume a base level of familiarity of the tools, and is intended promote the analytical features available in creating physics based field realisations in the IPM tools.