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Simulation Software Training Schedule Dubai, UAE February 27, 2012 to December 31, 2012 Middle East FZ- LLC
Simulation Software
Training Schedule Dubai, UAE
February 27, 2012 to December 31, 2012
Middle East FZ- LLC
2-days: Introduction to IMEX/Builder/Results
S M T W T F S February 27 - 28, 2012
1 2 3 4 June 04 - 05, 2012
5 6 7 8 9 10 11 October 01 - 02, 201212 13 14 15 16 17 1819 20 21 22 23 24 25 2-days: Advanced Features in Builder/Results
26 27 28 29 March 04 - 05, 2012April 30 - May 01, 2012
S M T W T F S July 15 - 16, 2012
1 2 3 August 01 - 02, 2012
4 5 6 7 8 9 1011 12 13 14 15 16 17 2-days: CMOST
18 19 20 21 22 23 24 March 06 - 07, 2012
25 26 27 28 29 30 31 May 02 - 03, 2012
July 30 - 31, 2012S M T W T F S October 10 - 11, 2012
1 2 3 4 5 6 7 December 03 - 04, 2012
8 9 10 11 12 13 1415 16 17 18 19 20 21 2-days: Introduction to STARS
22 23 24 25 26 27 28 February 29 - March 01, 2012
29 30 June 06 - 07, 2012September 09 - 10, 2012
S M T W T F S
1 2 3 4 56 7 8 9 10 11 12 1-day: Numerical Tuning of STARS
13 14 15 16 17 18 19 March 8, 2012
20 21 22 23 24 25 26 July 17, 2012
27 28 29 30 31 September 11, 2012
S M T W T F S 1-day: Wellbore Modelling in STARS
1 2 March 15, 2012
3 4 5 6 7 8 9 May 10, 2012
10 11 12 13 14 15 16 July 18, 201217 18 19 20 21 22 23 September 12, 201224 25 26 27 28 29 30
4-days: Advanced STARSS M T W T F S May 06 - 09, 20121 2 3 4 5 6 7 October 29 - November 01, 20128 9 10 11 12 13 14 December 10 - 13, 201215 16 17 18 19 20 2122 23 24 25 26 27 28 2-days: Chemical Flood
29 30 31 March 13 - 14, 2012
September 15 - 16, 2012
November 13 - 14, 2012S M T W T F S
1 2 3 4 2-days: Introduction to WinProp
5 6 7 8 9 10 11 April 02 - 03, 201212 13 14 15 16 17 18 June 10 - 11, 201219 20 21 22 23 24 25 August 05 - 06, 2012
26 27 28 29 30 31 October 03 - 04, 2012
S M T W T F S 2-days: CO2 Sequestration with GEM
1 2 3 4 5 6 7 April 04 - 05, 2012
8 9 10 11 12 13 14 July 11 - 12, 2012
15 16 17 18 19 20 21 December 05 - 06, 201222 23 24 25 26 27 2829 30 3-days: Unconventional Gas using GEM
April 10 - 12, 2012July 08 - 10, 2012September 17 - 19, 2012
JULY
AUGUST
JUNE
SEPTEMBER
CMG SIMULATION SOFTWARE TRAINING SCHEDULE - DUBAIFebruary 27, 2012 to December 31, 2012
FEBRUARY
MARCH
APRIL
MAY
3-days: CO2 Based EOR (Miscible Flood)
S M T W T F S April 17 - 19, 20121 2 3 4 5 6 June 12 - 14, 2012
7 8 9 10 11 12 13 August 07 - 09, 201214 15 16 17 18 19 20 October 07 - 09, 201221 22 23 24 25 26 2728 29 30 31
S M T W T F S1 2 3
4 5 6 7 8 9 10 All courses are from 8:30 AM to 4:30 PM
11 12 13 14 15 16 1718 19 20 21 22 23 24 Registration:25 26 27 28 29 30 Email: [email protected]
Phone: +971 4 434 5190
S M T W T F S Fax: +971 4 423 0740
12 3 4 5 6 7 8 Payment:
9 10 11 12 13 14 15 - Invoice to be sent one week prior to the course
16 17 18 19 20 21 22 - Payment by cheque, money order, or bank wire to CMG account
23 24 25 26 27 28 29 (Sorry we do not accept credit cards.)
30 31
Time: 8:30 AM to 4:30 PM, lunch is provided.
Location: Dubai Internet City, Building #12, 3rd floor, Office #320
Registration: Via fax: +971 4 423 0740 or via email: [email protected] Customized training: can be conducted if we have a group registrant of 4 individuals or more at flexibile time
Payment: By cheque, money order, or bank wire to CMG accountInvoice to be sent one week prior to the course Cancellation Policy: All cancellations must be received in writing at least 2 business days prior to the start of the class by email to [email protected] or by fax at +971 4 423 0740. If your cancellation noticeis received less than 2 business days prior to the class start, or if you simply do not show show up, CMG will invoice you the full amount of the regular training fees ($500/day).
OCTOBER
NOVEMBER
DECEMBER
WHO SHOULD ATTEND
This two-day course is designed for engineers, geologists or other technical personnel who would like to use advanced simulation technology, especially in pre and post-processing capabilities. A basic reservoir engineering background is required with little or no reservoir simulation experience. ABOUT THE COURSE
The course will introduce the latest technology in pre and post-processing capabilities in CMG simulators. These include Builder, which handles the bulk of data preparation for black oil (IMEX), compositional (GEM) and advanced thermal/chemical process (STARS) simulators. Basic raw data such as geological maps, PVT data, core analysis, production data, and perforation/completion events are imported into Builder to build a complete dataset initially for the IMEX simulator. Formats for each type of data will be introduced. Analytical correlation in PVT and/or rock permeability curves will also be used for missing data. Participants will learn how to use the pre-processor to convert the raw data into an IMEX datafile. The converted datafile will be validated and processed by IMEX to generate output graphic files. Participants will also learn how to use Results 3D, Results Graph and Report Writer to view the simulation output. A similar approach could be used to create a compositional GEM dataset or a thermal STARS dataset. COURSE CONTENT
• Introduction to Builder, different map formats, Cartesian, orthogonal or non-orthogonal corner point grids.
• Interpolation, editing of reservoir properties, adding/deleting wells including vertical and horizontal wells.
• Adding aquifers, PVT data, relative permeability curves, and smoothing/adjusting data graphically. • Analytical correlation used in preparing PVT data, rock/fluid properties. • Defining oil/water contacts, setting reference pressure, selection of different initialization methods. • Create recurrent well data and production history files based on general field production data. • Defining well perforations and creating restart records for prediction runs. • Validate data, test runs, and review results using Results 3D and Results Graph. Create different
viewfiles, session files, multiple plots, and Excel style reports. • Introduction to GEM and STARS datasets using Builder
LOCATION COURSE SCHEDULE FEE CMG Office Dubai Internet City Building @12, office #320 Dubai, UAE
February 27 - 28 June 04 - 05 October 01 - 02
$1,200 USD per person (Including Course Materials)
WHO SHOULD ATTEND
This two-day course is designed for engineers, geologists or other technical personnel who would like to learn the basics of CMG's Advanced Process and Thermal Simulator STARS. Participants should be familiar with using CMG's Builder/Results software to learn the STARS simulation applications. ABOUT THE COURSE
The course will introduce concepts of the STARS simulator with emphasis on component design and other advanced features available in STARS. The individual should be familiar with simulation work and have some practical experience in simulation. CMG's Builder/Results software will be used extensively to create, modify data and analyze results. A hands-on exercise will be included to help new users build a two- component thermal simulation. The course will provide participants enough information and techniques to build a simple STARS dataset and explore the more complex functions of the STARS simulator. COURSE CONTENT
• STARS simulator features and applications • Component concepts and specific functions unique to STARS including reaction kinetics, solid
handling, adsorption and others • Review of Builder/Results to input and analyze simulation data • Exercise on building a 2-component thermal model • Exercise on converting an existing black oil dataset into a 3-component STARS dataset • Review of more typical advanced STARS datasets including chemical, air injection, foamy oil and
other advanced processes LOCATION COURSE SCHEDULE FEE CMG Office Dubai Internet City Building @12, office #320 Dubai, UAE
February 29 - March 01 June 06 - 07 September 09 - 10
$1,200 USD per person (Including Course Materials)
WHO SHOULD ATTEND
This two-day course is for engineers or other technical personnel who would like to use advanced simulation technology to design a CO2/hydrocarbon miscible flood process. Enhanced oil recovery background and phase behavior modelling are required with some simulation experience, preferably compositional modelling. Participants should be familiar with using CMG's Builder/Results software. ABOUT THE COURSE
The course will introduce the functions of WinProp and GEM to design and simulate a miscible flood process. Participants will learn how to incorporate laboratory measured data to design miscibility conditions, simulate slim tube tests, core flood tests and design pilot tests for miscible flooding. This will include extensive usage of WinProp to tune the equation of state and component lumping to be used in GEM simulation. Laboratory data such as swelling tests and other PVT tests required for EOS tuning will be introduced. Analysis of the results generated by WinProp and GEM will be examined and modified.
COURSE CONTENT
• Introduction to WinProp to be used as phase behavior calculations • Techniques in splitting, lumping and grouping of heavier hydrocarbons • Swelling test experiment matching using regression technique • Lumping and exporting tuned EOS to GEM for simulation parameters • Building a compositional simulation dataset for slim tube, core flood, and pilot test • Analyze simulation output and define history match parameters for miscible flood • Sensitivity analysis for different solvent composition and/or operating conditions
LOCATION COURSE SCHEDULE FEE CMG Office Dubai Internet City Building @12, office #320 Dubai, UAE
April 02 - 03 June 10 - 11 August 05 - 06 October 03 - 04
$1,200 USD per person (Including Course Materials)
WHO SHOULD ATTEND
This two-day course is designed for engineers, geologists or other technical personnel who would like to learn the more advanced functions in CMG's Builder/Results software. Basic CMG Builder/Results skills and an understanding of CMG's IMEX, GEM and STARS applications is required. ABOUT THE COURSE
The course will introduce new advanced features and more sophisticated functions within Builder/Results to create complex datasets and reports. Existing datasets (IMEX/STARS/GEM) will be used to demonstrate the unique functions of CMG's Builder/Results software. The course will provide participants enough information and techniques to fully master the basic and advanced features in Builder/Results to achieve optimum data designs and presentations. COURSE CONTENT
• Advanced Builder/Results applications • Use of formulae to create new variables; generate sector and assigning different properties • Use of map generation and geostatistics functions • Grid upscaling • Using build-up permeability estimation, and relative permeability smoothing, and end point scaling • Scripting for multiple geostatistic realization • Handling complex well configurations, e.g. multilateral wells, property modification or grid
refinements around wells • Learning different process wizards and advanced presentation skills such as streamlines iso-
surfaces, vectors, and colour scaling. Different plotting techniques will be discussed including rate versus cumulative production plot, axis scaling, property versus distance plot, report (tables) generation, customized reports and templates, etc.
LOCATION COURSE SCHEDULE FEE CMG Office Dubai Internet City Building @12, office #320 Dubai, UAE
March 04 - 05 April 30 - May 01 July 15 - 16 August 01 - 02
$1,200 USD per person (Including Course Materials)
WHO SHOULD ATTEND
This three-day course covers unconventional gas (CBM and Shale gas) reservoir simulation using CMG’s compositional simulator GEM on the first two days and surface facility network modeling using Neotec’s FORGAS on the third day. The third day of the course is optional. Day 1 and Day 2 of the course is designed for engineers, geologists and other technical personnel undertaking basic or advanced unconventional gas reservoir simulation. A basic reservoir engineering background in CBM and Shale gas is required with little or no reservoir simulation experience. Day 3 of the course is designed for engineers or other technical personnel who would like to model the reservoir and the surface facility network as a single system. Reservoir performance and effect of gathering system and compression facilities for unconventional gas fields will be analyzed. FORGAS, from Neotechnology Consultants will be used to model the pipelines, wellbores and compressors, in conjunction with the compositional reservoir simulator, GEM, from the Computer Modelling Group. ABOUT THE UNCONVENTIONAL GAS RESERVOIR SIMULATION COURSE
The course will introduce the latest technology in compositional simulation using the CMG simulator GEM. Coal bed methane and Shale gas reservoir theory and simulation concepts will be discussed. This course also includes instruction on CMG's Builder software, which handles the bulk of data preparation for compositional simulation (GEM) for unconventional gas reservoir. Basic raw data such as geological maps, fluid composition data, core analysis, production data, perforation/completion events, are imported into Builder to build a complete dataset for the GEM simulator. Formats for each type of data will be introduced. Field development concepts using group controls, automatic well drilling options etc. will be discussed. Concepts of uncertainty analysis/experimental design techniques, assisted history matching and optimization will be discussed. COURSE CONTENT
• Introduction to Builder preprocessor features • Grid creation using maps and Rescue import from geological software • Input of CBM and shale gas reservoir characteristics including adsorption data for a multiple
component system • Input data for multiple porosity system for CBM and shale gas reservoirs • Preparation of rock/fluid properties using analytical correlations • Discussions on well configurations: vertical, horizontal, multilateral etc. • ECBM with CO2 injection • Effect of coal matrix shrinkage and swelling • Modeling of hydraulic fracture and natural fracture networks in shale gas reservoirs using the
fracturing wizard in Builder • Validate data and run simulation dataset, review results using Results 3D and Results Graph
ABOUT THE GATHERING SYSTEM MODELLING COURSE
This course introduces the capabilities of FORGAS coupled to GEM for modeling the unconventional gas field system, from reservoir to the plant gate. Each participant will learn how to use FORGAS to model pipelines, wells and field facilities and how to couple the FORGAS surface model to the GEM reservoir model. Participants will learn how to use the predicted field performance to determine how to optimize the field and will gain “hands-on” experience in field optimization. COURSE CONTENT
• Introduction to FORGAS features and how it couples with GEM • Creating a FORGAS model • Link the FORGAS model to an existing GEM CBM model • Run the coupled FORGAS/GEM model to predict field performance over several years • Optimization challenge, evaluating different pipeline sizes, compressor configurations and
enhanced CBM using CO2 injection LOCATION COURSE SCHEDULE FEE CMG Office Dubai Internet City Building @12, office #320 Dubai, UAE
April 10 - 12 July 08 - 10 September 17 - 19
$1,800 USD per person (Including Course Materials)
WHO SHOULD ATTEND
This four-day course is designed for engineers, geologists or other technical personnel who would like to learn the details or enhance their knowledge of SAGD (Steam Assisted Gravity Drainage) simulation using CMG’s Advanced Process and Thermal Simulator STARS. Basic CMG Builder/Results skills and an understanding of CMG's STARS application is required to maximize your understanding of the SAGD simulation course material. ABOUT THE COURSE
The course will review the basic concepts of SAGD recovery and how to simulate this process using STARS. After the review of basic concepts the course will provide detailed instruction on the complexities of simulating this extensively used bitumen recovery process. From laboratory design to actual field implementation, using the proper numerical simulation technology will greatly enhance the planning of a successful SAGD implementation. The individual should be familiar with basic thermal recovery work and have some practical numerical simulation experience. CMG’s Builder/Results software will be used extensively to create, modify, and analyze simulation datasets and their results. Participants will learn when/how to use sink-source wells (with heaters) and when/how to use the discretized wellbore for detailed design as well as the advantages and limitations of using CMG’s Semi Analytical wellbore Model (SAM). Dataset optimization and tuning will also be covered for single well pair, multi-well pair and full field models including single well start up analysis. Hands-on exercises and examples will be included to assist participants in building a typical SAGD simulation datasets. COURSE CONTENT
• General STARS simulator features and applications • SAGD process review and key aspects of the design • Building STARS dataset for SAGD using simple and advanced approaches • Sink/source well, discretized well and Semi Analytical wellbore Model (SAM) • 2D laboratory to 3D full field model examples • Incorporation of geological features into full field models • Results analysis using graphs, 3D and tuning of simulation runs • History match and forecast runs, sensitivity analysis • Dynamic gridding (DynaGrid) and SAGD run parallelization • ES-SAGD, what to look for and how to incorporate into STARS • Specific topic discussions
LOCATION COURSE SCHEDULE FEE CMG Office Dubai Internet City Building @12, office #320 Dubai, UAE
May 06 - 09 October 29 - November 01 December 10 - 13
$2,400 USD per person (Including Course Materials)
WHO SHOULD ATTEND
This 1-day course is designed for engineers, geologists or other technical personnel who would like to learn more about the numerical tuning techniques of CMG's Advanced Process and Thermal Simulator STARS. Basic CMG Builder/Results skills are required to learn the numerical tuning of STARS simulation applications.
ABOUT THE COURSE
The course will introduce concepts of CMG simulators (IMEX/GEM/STARS) with emphasis on numerical tuning and diagnosis of STARS problems. The individual should be familiar with CMG simulation work and have some practical experience in STARS simulation. Specific techniques such as analyzing the numerical output parameters, fine tuning of the input data, diagnose small timestep problem and nonconvergency of CMG simulator output will be examined. CMG's Builder/Results software will be used extensively to modify data and results analysis. A hands-on exercise will be included to help users debug the datafile. The course will provide participant enough information and techniques to fine tune and adjust their own dataset and improve the performance of the more complicated STARS simulation process. Key factors in tuning and managing dynamic gridding and parallelization will also be discussed.
COURSE CONTENT
• STARS simulator numerical features • What to look for when numerical problems occurs • How to fine tune the dataset by analyzing the output numerical variables • Which parameters in numerical section control is more sensitive than the others • Systematic approach in solving the numerical problems and to improve the calculation efficiency • Review of dataset before and after the numerical tuning • Hints on getting the most out of dynamic gridding and parallelization
LOCATION COURSE SCHEDULE FEE CMG Office Dubai Internet City Building @12, office #320 Dubai, UAE
March 08 July 17 September 11
$600 USD per person (Including Course Materials)
WHO SHOULD ATTEND
This one-day course is designed for engineers, geologists or other technical personnel who would like to learn about Discretized Well (DW) and SAM in CMG's STARS simulator. Expertise using CMG simulator functions is required to learn discretized well and SAM features and applications. ABOUT THE COURSE
The Discretized Wellbore (DW) Model is a fully coupled mechanistic wellbore model. It models fluid and heat flow in the wellbore and between a wellbore and a reservoir / overburden. Wellbore mass and energy conservation equations are solved together with reservoir equations for each wellbore section (perforation). The method of modelling well flow more accurately by discretizing the wellbore separately can be viewed as both a well option and an advanced grid option. When using SAM (semi-analytical model), pressure drop along the wellbore and radial heatloss from a wellbore is calculated semi-analytically. The basic idea is from a paper: J. P. Fontanilla, K. Aziz, “Prediction of bottom-hole conditions for wet steam injection wells.”, JCPT, March-April 1982, pp.82-88. This idea was generalized to both types of wells – injectors, producers, injection or production of any fluid and the use of any STARS operating conditions. The Semi-analytical Model (SAM) may be used with Sink/Source wells and also discretized wells. COURSE CONTENT
• General STARS simulator features and applications • Steam properties overview • Basic theory on DW and SAM in STARS • How to set DW and SAM definitions/keywords in the STARS dataset • Exercises
LOCATION COURSE SCHEDULE FEE CMG Office Dubai Internet City Building @12, office #320 Dubai, UAE
March 15 May 10 July 18 September 12
$600 USD per person (Including Course Materials)
WHO SHOULD ATTEND
This two-day course is designed for engineers, geologists or other technical personnel who would like to learn about CO2 Sequestration in GEM. Advanced knowledge of CMG simulator functions are required. ABOUT THE COURSE
Carbon dioxide is emitted in vast quantities through the burning of coal and other fossil fuels for transport, heat and for the production of electricity. CO2 storage is now seen as a practical method for reducing the amount of CO2 released into the atmosphere. There are presently 4 accepted methods for storing CO2 in underground geological formations:
1. Depleted Oil & Gas Reservoirs. 2. Use of CO2 in Enhanced Oil & Gas Recovery. 3. Deep Aquifers (Saline or Fresh). 4. Use of CO2 in Enhanced Coal Bed Methane Recovery.
This workshop will address the third method of CO2 storage. Deep saline aquifers seem to offer the most promise for CO2 storage, as they are widely distributed, underlie most point sources of CO2 emission and are not limited by the reservoir size as in the case of depleted oil and gas reservoirs. Also, the saline water is not seen to have a use at present or the foreseeable future. COURSE CONTENT
This course covers the fundamentals and the practical aspects of the simulation of CO2 storage in saline aquifers with the Equation of State Geochemical Compositional simulator, GEM developed by CMG. Three important aspects of CO2 storage are covered: CO2 solubility in brine, residual gas trapping, and mineralization of CO2 over a long period. The topics covered include:
• Modelling gas solubility in aqueous phase • Relative permeability effects on residual gas trapping • Simulation of flow and convection in aquifers • Geochemistry • Conversion of CO2 into minerals • Use of CMG’s WinProp to generate fluid data for GEM • Case studies with GEM:
- Use of vertical and horizontal wells - Injection locations
The hands on section of the class will cover:
• Building CO2 sequestration simulation models in saline aquifers. • Visual and graphical analysis of simulation results.
LOCATION COURSE SCHEDULE FEE CMG Office Dubai Internet City Building @12, office #320 Dubai, UAE
April 04 - 05 July 11 - 12 December 05 - 06
$1,200 USD per person (Including Course Materials)
WHO SHOULD ATTEND
This two-day course is for the experienced reservoir simulation engineers or other technical personnel who would like to learn the techniques of Sensitivity Analysis, History Matching, Optimization, and Uncertainty Assessment. The knowledge of how to use all of CMG's reservoir simulation products (i.e. IMEX, STARS, and GEM) is a prerequisite. Participants should be familiar with using CMG's Builder/Results software. ABOUT THE COURSE
CMOST is CMG’s Sensitivity Analysis, automated History Matching, Optimization, and Uncertainty Assessment software which is designed to work with all of CMG’s reservoir simulation products. This course introduces participant to these four components of CMOST, from the practical applied perspective. The theoretical basis of optimization algorithms is lightly covered with the focus being on the application of the software to real world problems. COURSE CONTENT
• Introduction to the four components of the CMOST: - Sensitivity analysis - History matching - Optimization - Uncertainty assessment
• Introduction to the CMOST Studio, explain how to create the CMOST data files, i.e. master data set, and task file
• Exercise and tutorial LOCATION COURSE SCHEDULE FEE CMG Office Dubai Internet City Building @12, office #320 Dubai, UAE
March 06 - 07 May 02 - 03 July 30 - 31 October 10 - 11 December 03 - 04
$1,200 USD per person (Including Course Materials)
WHO SHOULD ATTEND
This two-day course is designed for engineers, geologists or other technical personnel who would like to learn about the details of chemical flooding simulation with alkaline, surfactants and/or polymers using CMG's Advanced Process and Thermal Simulator STARS. Participants should have basic CMG Builder/Results skills and/or experience using CMG's STARS to maximize your understanding of the processes. ABOUT THE COURSE
The course will introduce the basic concepts of chemical flooding and how to simulate this process using the advanced reservoir simulator STARS. The topics will progress from laboratory design through simulations to field implementation. Combining laboratory evaluations with the proper numerical simulation technology will greatly enhance the planning of a successful chemical flooding process. Individuals should have some practical numerical simulation experience using a reservoir simulator. CMG’s Builder and Results packages will be used extensively to create, modify data, and analyze the results. Hands-on exercises from laboratory matching through to field scale simulation will be included to assist users in building a typical chemical flooding dataset. COURSE CONTENT
• Basic theory of chemical flooding • The concepts of laboratory evaluations:
- Water/oil relative permeability curves - Phase behaviour and interfacial tension lowering - Coreflood design and evaluation
• Construct a STARS simulation data set to history match an actual laboratory experiment of an ASP core flood
• Scale up to field size simulation models
LOCATION COURSE SCHEDULE FEE CMG Office Dubai Internet City Building @12, office #320 Dubai, UAE
March 13 - 14 September 15 - 16 November 13 - 14
$1,200 USD per person (Including Course Materials)
WHO SHOULD ATTEND
This three-day course is for engineers or other technical personnel who would like to learn the techniques of Enhanced Oil Recovery by CO2 injection in the miscible flood process. The knowledge of using WinProp and incorporating lab measured data to create an EOS based fluid model is a prerequisite, as well as some simulation experience, preferably compositional modelling. Participants should be familiar with using CMG's Builder/Results software. ABOUT THE COURSE
The course will introduce the method of creating PVT data for miscible floods for both simulators IMEX and GEM. Participants will learn how to create a 1D model to simulate core studies using GEM and history match core flood lab data. An EOR scenario of miscible CO2 injection to a 3D miscible WAG (water alternate Gas) model in GEM will be created. Also 3D pseudo-miscible flood model in IMEX will be built to model WAG process in the same 3D reservoir model. Participants will then compare the results obtain with IMEX and GEM. COURSE CONTENT
• PVT requirements for miscible floods in IMEX and GEM • Create a 1D simulation model in GEM and history match core studies for miscible floods • Create a pseudo-miscible 3D simulation model in IMEX • Create a 3D compositional miscible flood simulation model in GEM • Run EOR cases using CO2 miscible flood in IMEX and GEM and compare the results • Tuning some numerical parameters in GEM to enhance the run performance
LOCATION COURSE SCHEDULE FEE CMG Office Dubai Internet City Building @12, office #320 Dubai, UAE
April 17 - 19 June 12 - 14 August 07 - 09 October 07 - 09
$1,800 USD per person (Including Course Materials)
Course Registrations: Name and Address Information For all course enrollments, please type or print participant’s name as it should appear on the course certificate.
NAME: _________________________________________________________________________________________ TITLE: _________________________________________________________________________________________ COMPANY: ____________________________________________________________________________________ ADDRESS: _____________________________________________________________________________________ CITY: _________________________________________________________________________________________ POSTAL/ZIP: _____________________________ COUNTRY: __________________________________________ TELEPHONE: __________________________________________________________________________________ EMAIL: _______________________________________________________________________________________ LEVEL OF EXPERIENCE: (Please ensure you have the prerequisites listed under Who Should Attend) _____________________________________________________________________________________ COURSE NAME _______________________________ DATE ___________________ FEE ____________ _______________________________ DATE ___________________ FEE ____________ _______________________________ DATE ___________________ FEE ____________ TOTAL ____________ SIGNATURE: _________________________________________ DATE: ________________________________ Invoices to be sent one week prior to course. Payment by cash, cheque, money order or bank wire to CMG (No Credit Cards).
Courses are from 08:30am to 04:30pm To register, please complete the form and send to: Fax: +971 4 423 0740 Email: [email protected] www.cmgl.ca
