DETAIL OF PROGRAM BY ELDEMuz engineering
OIL AND GAS TRAINING/ Training brochure IN PORT HARCOURT 2020-download

Contact& TRAINING BATCH START DATES;
Each of the programs below fit into this schedule call us to enroll Contact;
Telephone -08038812638 08064673745,
Email;[email protected],[email protected]

Office address-Eldemuz engineering centre,
1st floor 60 Aba road ,by craft centre bus stop ,PortHarcourt, Rivers state, Nigeria
Training schedule for 2020&2021
Fee-call 08038812638 for details




ELDEMUZ ENGINEERING CONSULTING IS A registered LOCAL CONTENT PARTNER with the federal government of Nigeria IN CAPACITY DEVELOPMENT for the oil and gas industry. We offer training to, consultant, engineers, managers, senior and junior staff in the oil and gas industry as well as fresh graduates and focused undergraduates. Our interest is for those pursuing excellence and improvement in their career. Our work force is made up of young Nigerian engineering graduates who have acquired software skills through the PTDF scheme. Our goal is to transfer knowledge at its best. The software’s we offer are used mostly by SHELL, MOBIL, SCHLUMBERGER, TOTAL, ELF, AGIP, chevron, AND other major oil companies in Nigeria. We have experience in training and field operations. We have evolved over the years to be a brand name in oil and gas training and other computer based courses. Enroll today.

TRAINING BROCHURE



1. Comprehensive Microsoft Excel 2013 (5 Days) .................................................. ................................... 5
1.1. Class Description (comprehensive) .................................................. ............................................... 5
1.2. Class Overview .................................................. .................................................. ............................ 5
1.3. Class Goals .................................................. .................................................. .................................. 5
1.4. Class Outline........................................... .................................................. ...................................... 6
2. Project Management with Oracle Primavera (P6) (3 Days) .................................................. ................ 7
2.1. What will be learned .................................................. .................................................. ................. 7
2.2. COURSE CONTENT .................................................. .................................................. .................... 7
PART 1. Overview and Configuration .................................................. .................................................. ............ 7
PART 2. Structuring Projects.......................................... .................................................. ................................... 8
PART 3. Implementing the Schedule .................................................. .................................................. .............. 8
PART 4. Updating and Managing the Schedule .................................................. ............................................... 8
PART 5. Customizing Projects .................................................. .................................................. ......................... 8
2.3. Who needs this training .................................................. .................................................. ............ 9
3. Microsoft project 2013 (3 Days) .................................................. .................................................. ........ 9
3.1. What will be learned .................................................. .................................................. ................. 9
3.2. Course content .................................................. .................................................. ......................... 10
3.3. Who needs this training .................................................. .................................................. .......... 11
4. CAESAR II (Equipment and pipe design and stress analysis) (5 Days) ................................................. 11
4.1. What to learn .................................................. .................................................. ........................... 11
4.2. Contents .................................................. .................................................. ................................... 11
4.3. Who needs this training .................................................. .................................................. .......... 12
5. AUTOCAD & PIPING AND INSTRUMENTATION DIAGRAM (P&ID) (5 Days) ......................................... 12
5.1. What to learn .................................................. .................................................. ........................... 12
5.2. Contents .................................................. .................................................. ................................... 12
5.3. Who needs this training .................................................. .................................................. .......... 14
6. ETAP –power system design and operations (5 Days) .................................................. ...................... 14
6.1. COURSE CONTENT .................................................. .................................................. .................. 15
6.2. Who needs this training .................................................. .................................................. .......... 15
7. INVENTOR PROFESSIONAL (15 Days) .................................................. ................................................. 16
7.1. What to learn .................................................. .................................................. ........................... 16
7.2. Contents .................................................. .................................................. ................................... 16
8. MATLAB (4 Days) .................................................. .................................................. ............................ 18
8.1. What to learn .................................................. .................................................. ........................... 18
8.2. Contents .................................................. .................................................. ................................... 18
8.3. Who needs this training .................................................. .................................................. .......... 18
9. PDMS-PLANT DESIGN MANAGEMENT SYSTEM (AVEVA UK) (10 Days) .............................................. 18
9.1. What will be learned .................................................. .................................................. ............... 21
9.2. Course content .................................................. .................................................. ......................... 21
9.3. Who needs this training .................................................. .................................................. .......... 22
10. ORION COURSE OUTLINE .................................................. .................................................. ............... 22

11. STAADPRO COURSE OUTLINE (8 Days) .................................................. ........................................... 23

12. AUTOCAD CIVIL 3D COURSE OUTLINE .................................................. ............................................. 23

13. Courses in Aspen HYSYS (12 Days) .................................................. .................................................. 24

13.1. HYSYS PROCESS (STEADY STATE) .................................................. ........................................ 24
13.2. Course content .................................................. .................................................. ....................... 24
13.3. HYSYS DYNAMIC SIMULATION .................................................. .................................................. 25
13.4. Who needs this training .................................................. .................................................. ........ 25

15. SAFETY TRAINING-OSHA (3 Days) .................................................. ......
15.1. Who needs this training .................................................. .............

16. PETREL (SEISMIC INTERPRETATION AND, GEOSTATIC MODELLING) (12 Days) ................................. 25

17. ECLIPSE DYNAMIC RESERVOIR SIMULATION (PREDICTION & HISTORY MATCHING) (8 Days) .......... 26


8. PROSPER (10 Days) .................................................. .................................................. ........................ 26
18.1. Production System Analysis .................................................. .................................................. . 27
18.2. Well Types............................................. .................................................. ................................... 28
18.3. Artificial Lift System Analysis and Design .................................................. ............................. 28
19. GAP (6 Days) .................................................. .................................................. ................................. 28
19.1. Multi-well optimization for artificially lifted and naturally flowing production
networks: .................................................. .................................................. ......................................... 28
19.2. Optimisation of gathering system against constraints: .................................................. ........ 29
19.3. Pipeline Flow Assurance Studies .................................................. ........................................... 29
19.4. Reservoir Management .................................................. .................................................. ......... 29

19.5. Fully Compositional from the Reservoir to the Process side ................................................. 30

20. SAGE 50 (6 Days) ....................................................... .................................................. ...................... 30

21. PIPESIM-pipeline simulation, surface and sub-surface piping simulation (10 Days) ...................... 30

27




1. Comprehensive Microsoft Excel 2013
(5 Days)

1.1. Class Description (comprehensive)
1.2. Class Overview
On the first day of this comprehensive Microsoft Excel 2013 training course, students will learn to use Excel 2013 to create, modify, and format Excel worksheets, perform calculations, and print Excel workbooks. The second day of class will focus on using advanced formulas, working with lists, working with illustrations and charts, and using advanced formatting techniques. And on the third, fourth and final day of class, students will learn to work with pivot tables, audit worksheets, work with data tools, protect documents for collaboration with others, and work with macros.
This Comprehensive Microsoft Excel 2013 Training class is a combination of the following courses:
• Introduction to Microsoft Excel 2013 Training
• Intermediate Microsoft Excel 2013 Training
• Advanced Microsoft Excel 2013 Training
1.3. Class Goals
• Create basic worksheets using Microsoft Excel 2013.
• Perform calculations in an Excel worksheet.
• Modify an Excel worksheet.
• Modify the appearance of data within a worksheet.
• Manage Excel workbooks.
• Print the content of an Excel worksheet.
• Learn to use formulas and functions.
• Create and modify charts.
• Convert, sort, filter, and manage lists.
• Insert and modify illustrations in a worksheet.
• Learn to work with tables.
• Learn to use conditional formatting and styles.
• Create pivot tables and charts.
• Learn to trace precedents and dependents.
• Convert text and validate and consolidate data.
• Collaborate with others by protecting worksheets and workbooks.
• Create, use, edit, and manage macros.
• Import and export data.
1.4. Class Outline
1. Creating a Microsoft Excel Workbook
2. The Ribbon
3. The Backstage View (The File Menu)
4. The Quick Access Toolbar
5. Entering Data in Microsoft Excel Worksheets
6. Formatting Microsoft Excel Worksheets
7. Using Formulas in Microsoft Excel
8. Working with Rows and Columns
9. Editing Worksheets
10. Microsoft Excel 2013 New Features 1
11. Advanced Formulas
12. Working with Lists
13. Visualizing Your Data
14. Working with Tables
15. Advanced Formatting
16. Microsoft Excel 2013 New Features
17. Using Pivot Tables
18. Auditing Worksheets
19. Data Tools
20. Working with Others
21. Recording and Using Macros

2. Project Management with Oracle Primavera (P6) (3 Days)

Projects and programs are becoming increasingly complex. Economic uncertainty is putting a new level of pressure on teams and programs to execute well. Businesses are struggling to react quickly to fluctuating markets and changing business demands. Executives are demanding more project visibility. Distributed teams require around the-clock collaboration and coordination, as well as the ability to successfully navigate change throughout the project lifecycle. Today’s project and program managers need tools that deliver the necessary project insight to maintain project schedule and budget commitments. And they need the ability to integrate project and program resources with other departments and at other locations to ensure project success.

2.1. What will be learned

Oracle’s Primavera enterprise project portfolio management solutions enable project-driven organizations to intelligently manage their programs and projects—from small and simple to large and complex. Primavera solutions can help you make better portfolio management decisions by providing end-to-end, real-time visibility into all relevant information. You can determine whether you have sufficient resources and team members with the right skills to accomplish the work. Primavera solutions help you evaluate the risks and rewards associated with projects and programs. You get the project management, collaboration, and control capabilities you need to manage change and successfully deliver projects on time, within budget, and with the intended quality and design. Plus, you can interoperate with ease—across the enterprise—with Primavera’s flexible integration capabilities.

2.2. COURSE CONTENT

PART 1. Overview and Configuration
Understanding Project Management........................................ .........3
Quick Tour.............................................. ............................................13
Defining Administrative Preferences and Categories.....................29
Setting User Preferences....................................... .............................49
PART 2. Structuring Projects
Setting Up the Enterprise Project Structure...................................67
Setting Up the Organizational Breakdown Structure....................97
Defining Resources and Roles............................................. ............109
Reviewing Work Breakdown Structures.......................................1 33
Defining Budgets........................................... .................................
PART 3. Implementing the Schedule
Establishing Activity Codes............................................. ...............
Working with Activities........................................ ...........................
Working with Cost Accounts and Project Expenses....................
PART 4. Updating and Managing the Schedule
Managing Baselines......................................... ................................
Updating, Scheduling, and Leveling.......................................... .....
Summarizing Projects.......................................... ...........................
Managing Risks............................................. ...................................
Project Issues and Thresholds........................................ ................
Maintaining a Project’s Document Library..................................359
Tracking Projects.......................................... ...................................365
Comparing Projects with Claim Digger........................................375 Creating and Using Reflections....................................... ...............391
Checking Projects In and Out............................................... .........397
PART 5. Customizing Projects
Working with Layouts........................................... ..........................407
Grouping, Sorting, and Filtering Data...........................................417
Customizing Layouts .................................................. .....................427
Customizing Reports........................................... ............................455
Printing Layouts and Reports........................................... ..............491 Publishing a Project on the World Wide Web...............................501
Linking the Project Management and Contract Manager


2.3. Who needs this training

1. All staff at managerial and supervisory level.
2. Project department staff
3. All engineers.
4. Accounts and financial department staff.



3. Microsoft project 2013 (3 Days)

Microsoft Project Professional 2013 gives you powerful new ways to effectively manage important projects. Unlock easy collaboration capabilities to quickly start and deliver winning projects while leveraging the power of Office 365 or SharePoint to work from virtually anywhere. Make communication instantaneous through seamless integration of Lync 2013 to call or instant message team members from Project Professional. Extend Project’s functionality with Apps for Office to meet your specific business needs
3.1. What will be learned

1. Easily plan & manage your projects with intuitive controls and flexible team tools to help your organization deliver the intended business value.
2. Be efficient and prioritize by aggregating everyday work, project tasks, important details, and timelines in a visually rich and contextual interface.
3. Manage anywhere with tools to keep you connected with your team and on top of your projects while you’re on the go.
4. Deliver effective presentations that offer immediate insight into task planning, resource allocation, cost efficiencies, and the many important details of your projects.
5. Anticipate Change with forward-looking views into the everyday work going into your projects and the resources needed to get that work done.
6. Explore the Office Store to quickly innovate with flexible options to customize and extend outofthe-box capabilities


3.2. Course content

1. Projects: In the Beginning
2. Planning a Project
3. Getting to Know Microsoft Project
4. Creating a Simple Project
5. Setting up a Project File
6. Identifying the Work to Be Done
7. Building a Schedule
8. Building a Team for Your Project
9. Assigning Resources to Tasks
10. Setting Up a Project Budget
11. Reviewing and Fine-Tuning Your Plan
12. Saving the Project Plan
13. Tracking Status
14. Evaluating and Correcting Project Performance
15. Managing Change
16. Reporting on Projects
3.3. Who needs this training

1. All staff at managerial and supervisory level. 2. Project department staff 3. All engineers.
4. Accounts and financial department staff.

4. CAESAR II (Equipment and pipe design and stress analysis) (5 Days)

CAESAR II is the leading pipe stress analysis software, especially in the oil and gas and power industries.
With its rich features, it enables the efficient and cost effective analysis of piping and pipelines. With the program, companies only carry out solutions to stress problems in an existing or to-be built piping and pipeline systems that are relatively cheap.
4.1. What to learn

The advantages that come with a proper CAESAR II knowledge are many. Some includes:
1. Trainees become familiar with international engineering codes and standards
2. Trainees understand the mechanism of piping material and system failure
3. Trainees are taught ways to resolve piping stress problems which do not hamper the energy side of the system
4. Best ways to optimize pump performance
5. Piping materials specification are also introduced and chemical properties analyzed and so much more
4.2. Contents

i. Primary or sustained stress, and analysis(surface piping, buried pipe, subsea piping) ii. Secondary or expansion stresses iii. Thermal fatigue iv. Pump and compressor loading and stress analysis v. Modal analysis vi. Harmonic analysis vii.
Harmonic fatigue analysis viii. Fluid Hammer
4.3. Who needs this training

1. Mechanical, piping and structural maintenance engineers.

5. AUTOCAD & PIPING AND INSTRUMENTATION DIAGRAM (P&ID) (6Days)

Instrumentation is a process which ensures little human interaction with piping systems while automatically balancing process conditions.
5.1. What to learn
With P&ID, designers can continuously update process database easily. Plant or process personnel can always remain updated even when they were not physically present during commissioning.
5.2. Contents

FULL PACKAGE AUTOCAD TRAINING
AUTOCAD 2D DRAFTING, DOCUMENT CONTROL, MANAGEMENT AND ISSUANCE OF DELIVERABLES
A. AutoCAD general
1 Introduction to AutoCAD, and 2D drafting
2 RASTERS AND VECTOR MANIPULATION
B. AutoCAD mechanical
1 ENGINE BLOCK MODELING
2 GEARS BOLTS AND NUTS
3 INDUSTRIAL MODELING
C. AutoCAD PID piping and instrumentation design
1 SURF. (SUBSEA UMBLICALS, RISERS,AND FLOATERS, 2 ELBOWS AND TEES 3 PUMPS AND COMPRESSORS.
4 WELL HEAD AND PLATFORM MODELLING.
5 AUTOCAD PIPING ISOMETRICS AND DRAFTS
D. AutoCAD structural/architectural/geological
1 House plan and elevation
2 Geological mapping,
E. AUTOCAD 3D MODELLING ,RENDERING AND DWF USAGE
1 Introduction to 3d fundamentals
2 Modeling of structures (houses, bridges, masts etc)
3 Modeling of mechanical parts and components (locomotives, engine parts, pumps, vessels, heat exchangers, e.tc)
4 Modeling of piping components (elbows, tees, flange, reducer, valves, etc
5 Modeling of Oil facilities
6 Project and Assessment
7 Rendering
8 Using drawing web format
F. DOCUMENT COTROL, MANAGEMENT AND ISSUANCE OF DELIVERABLES
1 Getting started
2 Working with Projects
3 Creating a P&ID
4 Annotating a P&ID
5 Customizing Projects
6 Validating a P&ID
7 Managing a Projects
8 Understanding P&ID project data
9 Customizing Tags and Annotation
10 Understanding Line segments and Groups
11 Customizing Project Templates
12 Publishing and Printing P&IDs
13 Interpreting the P&ID
14 Crafting P&IDs
15 Instrumenting processes
5.3. Who needs this training

1. E& I ENGINEERS.
2. PLANT OPERATORS.
3. MECHANICAL AND PROCESS AND CONTROL ENGINEERS.

6. ETAP –power system design and operations (5 Days)

From design through deployment, demanding applications need ETAP
ETAP is trusted by more users, in the most demanding operations, than any other software provider


Clean, reliable electric power is the foundation of every organization's ability to deliver its products and services, in order to successfully achieve its goals. From the boardroom to the battlefield, ETAP has been "Powering Success" for more customers than any other software provider, by helping users to attain optimal reliability, safety, and energy efficiency from their power infrastructure.
For nearly 30 years, ETAP has been the most comprehensive and widely-used enterprise solution for the design, simulation, operation, control, optimization, and automation of generation, transmission, distribution, and industrial power systems.

More power system experts trust ETAP for their most demanding projects. Only ETAP enables users to successfully and cost-effectively conduct power system monitoring and predictive simulations, using their original ETAP design model and combining it with real-time data.

By every significant measure, ETAP is the largest power system software company… and the only software provider worthy of your trust in your most demanding
projects.

The Broadest Range of Industry Experience
Power systems engineering consulting
Process Industries: Oil and Gas, Chemical, Cement, Pulp & Paper
Power & Energy: Generation, Transmission, Distribution, Nuclear, Smart Grid, Microgrid
Industrial: Manufacturing, Transportation, Metals & Mining
Mission Critical: Data Centers, Operations Centers, Healthcare
Government & Education: City/State/Federal infrastructure, Defense (including Net Zero), Universities
6.1. COURSE CONTENT

ETAP1

ETAP OVERVIEW.
ONE LINE DIAGRAM.
LOAD FLOW ANALYSIS.
SHORT CIRCUIT ANALYSIS.
UNBALANCED LOAD FLOW ANALYSIS.
DEVICE-COORDINATION SELECTIVITY.
CABLE SYSTEM REVIEW.
MOTOR ACCELERATION REVIEW ANALYSIS.
LOAD FLOW MODELING.
DEVICE-COORDINATION.
TRANSFORMER SIZING.
GROUND GRID SYSTEM.
LITERARY SYSTEM.

6.2. Who needs this training

1. POWER GENERATION AND DISTRIBUTION DEPARTMENT.
2. ALL ELECTRIAL ENGINEERS (POWER OPTIONS) ON SITE.

7. INVENTOR PROFESSIONAL (15 Days)

Autodesk Inventor professional is a computer aided manufacturing program which enables easy 3D design and manufacturing of mechanical components such as pipes, elbows, engines, frames etc.
7.1. What to learn

You will learn how to design and test-run mechanical products to be fabricated with state-of-the-art features.
7.2. Contents

1 What is Autodesk Inventor?
2 Understanding Autodesk Inventor User Interface
3 Autodesk Inventor File Types
4 Creating and Managing Project Files in Autodesk Inventor
5 Understanding Constraints in Autodesk Inventor - Part 1
6 Understanding Constraints in Autodesk Inventor - Part 2
7 Understand and Using Sketch Linetypes and Geometry in Autodesk Inventor
8 Types of Features in Autodesk Inventor
9 Navigation in Autodesk Inventor - Overview
10 Navigation in Autodesk Inventor - The PAN tool
11 Navigation in Autodesk Inventor - The ZOOM tool
12 Navigation in Autodesk Inventor - The ORBIT tool
13 Navigation in Autodesk Inventor - The Steering Wheel tool
14 Navigation in Autodesk Inventor - The View cube tool
15 Direct Manipulation in Autodesk Inventor
16 Boolean Operations in Autodesk Inventor
17 Using the Extrude Tool (Extrusion Feature)
18 Using the Extrude Tool (Extrusion Feature) - Part II
19 How to Share a Sketch in Autodesk Inventor
20 Redefining a Sketch Plane in Autodesk Inventor
21 Using the Revolve Tool (Revolution Feature)
22 Using the Sweep Tool (Swept Feature)
23 Using the Loft Tool (Lofted Feature)
24 Using the Fillet Tool (Fillet Feature) - Overview
25 Using the Fillet Tool (Fillet Feature) - Part 2
26 Using the Fillet Tool (Fillet Feature) - Part 3
27 Using the Hole Tool (Hole Feature)
28 Using the Thread Tool (Thread Feature)
29 Using the Shell Tool (Shell Feature)
30 Using the Emboss Tool (Emboss Feature)
31 Creating a Cylinder at an Angle to a Hemisphere
32 Using and Understanding Work Planes in Autodesk Inventor
33 Using and Understanding Work Axes in Autodesk Inventor
34 Using and Understanding Work Points in Autodesk Inventor
35 Using and Understanding Grounded Work Point in Autodesk Inventor
36 Using and Understanding Parameters in Autodesk Inventor
37 Using and Understanding Linked Parameters in Autodesk Inventor
38 Autodesk Inventor Assembly Design Approach
39 Using Selection Priority Modes to Create Selection Sets in Autodesk Inventor
40 Setting Read and Write Permissions for Autodesk Inventor Style Libraries
41 Working With Visual Styles in Autodesk Inventor
42 Linking Parameters Between Parts and Assemblies in Autodesk Inventor
43 Autodesk Inventor Assembly Environment
44 Assembly Design Concepts
45 Assembling Your Design in Autodesk Inventor
46 Assembling with Fun In Autodesk Inventor
Who needs this training

1. FABRICATION ENGINEERS
2., MECHANICAL MAINTENANCE ENGINEERS

8. MATLAB (4 Days)

Mat lab is mathematical laboratory software for easily performing mathematical modelling which predicts physical processes. It enables the fast computation of complex models and data.
8.1. What to learn

You will learn how to perform basic maths operation
You will learn how to develop mathematical flow loops
You will learn how to do data analysis
8.2. Contents

Basic maths operation
Indexing
Mathematical flow control programming
Data analysis
Publishing M-scripts
8.3. Who needs this training

1 RESEARCH AND DEVELOPMENT ENGINEERS(R&D).

9. PDMS-PLANT DESIGN MANAGEMENT SYSTEM (AVEVA UK) (10 Days)

AVEVA PDMS™ is a datacentric, multi-discipline 3D plant design solution. It has modules for the design of equipment, piping, ducting, structure and cable trays. Modelling is carried out using customer defined catalogues and specifications, in a fullcolour shaded 3D environment, with the support of tools that ensure a clash-free design. A wide range of drawings, reports and Bills of Material can be produced directly from the 3D model, ensuring accuracy and consistency.

managing the entire life cycle of a plant. With PDMS plants can be operated, maintenance done, revamping carried out easily and plant information updated in 3D and accurately too in a short period of time.
PDMS IS an engineering design,procurement and construction software.pdms can be used in







With ever increasing global demand for products from process and power plants,
AVEVA PDMS™ enables companies to design, construct and maintain high quality plants quickly and efficiently.

Using PDMS, the logical model of a plant can be quickly and efficiently modelled into a full 3D design layout, where suitability and fit can all be tested in a virtual world, and the list of materials needed to construct the plant generated automatically.

PDMS enables teams of designers from a range of different disciplines to work concurrently to develop a complete digital model of a process or power plant.

Each discipline works within its own specialist 3D environment, but is still able to view all of the design work taking place around them.
An extensive catalogue of predefined parametric components and objects can be quickly selected and positioned within the model, and then automatically checked for clashes and integrity using configurable rules. Changes made as the design evolves are highlighted and tracked, making it easier to identify, manage and communicate the changes across the different disciplines. The end result is a more accurate, better quality design that helps avoid costly errors onsite.

9.1. What will be learned.
1. 3D design of power plant.
2. Generate bill of quantity for piping, structures ,cable trays ,hvac 3. Generate 2D drafts of a plant
4. Ability to interpret drawings.
5. An understanding of plant layout.
6. How to produce as built drawings for maintenance or operation of plant.
7. An understanding of ASME standards and other relevant standards as well.

9.2. Course content
1. Equipment design
2. Piping layout and routing.
3. Configuration of beams and column, panel, civil works.
4. Design of hvac
5. Cable tray design and routing.
6. Generating isometric drafts and 2D drafts as well as bill of engineering materials from 3D models.
7. Interfacing with Autocad.

9.3. Who needs this training

1. Mechanical engineers
2. Utility engineers
3. All personnel on mechanical, civil, structural & maintenance
4. Process engineers and operators.

10. ORION COURSE OUTLINE

1. INTRODUCTION TO ORION
2. GENERAL ARRANGEMENT
3. OVER VIEW OF THE USER INTERFACE
4. GETTING STARTED-PROJECT PARAMETERS AND SETTINGS
5. CREATING AXIS
6. CREATING COLUNMS(RECTANGULAR AND CIRCULAR)
7. CREATING SHEAR WALL
8. CREATING BEAMS
9. CREATING CIRCULAR BEAMS
10. CREATING SLABS
11. CREATING SLAB STRIP
12. SLAB DESIGN
13. SLAB SECTIONING
14. USING TABLE TO EDIT MULTIPLE MEMBERS
15. APPLYING WALL LOAD
16. PRE ANALYSIS
17. ANALYSIS
18. POST ANALYSIS
19. BEAM REINFORCEMENT DESIGN
20. INTERACTIVE BEAM DESIGN
21. CREATING BEAM DETAIL DRAWING
22. COLUNM AND WALL REINFORCEMENT DESIGN
23. INTERACTIVE COLUNM DESIGN
24. CREATING COLUNM DETAIL DRAWING
25. FOUNDATION DESIGN
26. FOUNDATION DETAILING
27. GENERATING CALCULATION SHEET
28. EXPORTING TO AUTOCAD
29. COURSE REVIEW AND EXERCISE
11. STAADPRO COURSE OUTLINE (8 Days)
1. INTRODUCTION TO STAADPRO AND ITS GENERA FEATURES
2. AN OVERVIEW OF STAADPRO GUI
3. MODELLING IN STAADPRO USING CUT AND
4. MODELLING IN STAADPRO IMPRTING FROM AUTOCAD
5. SUPPORTS
6. MEMBER PROPERTIES
7. LOAD CASE AND LOAD CASE ASSIGNMENT
8. ANALYSIS AND DESIGN OF REINFORCED CONCRETE STRUCTURE
9. WORKING WITH INTERACTIVE DESIGN FOR CONCRETE
10. EXPORTING MEMBERS TO AUTOCAD
11. VIEWING CALCULATION SHEET
12. STEEL DESIGN(MAST,ROOF TRUSSES)
13. WORKING WITH INTERACTIVE DESIGN FOR STEEL
14. COURSE REVIEW AND PRACTICE EXERCISE
12. AUTOCAD CIVIL 3D COURSE OUTLINE
1. AN OVERVIEW OF CIVIL 3D INTERFACE
2. AN OVERVIEW OF SURVEY DATA
3. CREATING POINTS
4. CREATING SURFACE
5. CREATING ALIGNMENT
6. PROFILE
7. PARCEL
8. CORRIDOR ASSEMBLY
9. CREATING CORRIDOR
10. CREATING SECTION
11. CREATING INTERSECTION AND ROUNDABOUT
12. MATERIAL CALCULATION
13. PIPE NETWORK
14. PLAN PRODUCTION
13. Courses in Aspen HYSYS (12 Days)

13.1. HYSYS PROCESS (STEADY STATE)

Steady state process simulation ensures that optimal designs are identified, that equipment is performing per specification and to evaluate retrofits and improve the process. It can be used to rapidly screen alternative designs.

A. HYSYS DYNAMICS:
Carryout dynamic transition state simulation of Oil & Gas and refining processes modeled in HYSYS. Determine optimum feed switch strategies, startups, and shutdowns, as well as properly assess safety procedures. Enhance design requirements by understanding tradeoffs between capital costs and operability using efficient modeling and optimization techniques.

B. HYSYS UPSTREAM:
Hysys upstream option provides industry standard methods and techniques for handling petroleum fluids and brings together the discipline of petroleum & process engineering Production field data can be input in an easy environment to create an asset wide model from the reservoir to the back end of the facilities.

C. ASPEN PLUS:
Design and Steady State Simulation and Optimization Process modeling tool for steady state simulation, design, performance monitoring, optimization and business planning for chemicals, specialty chemicals, petrochemicals and metallurgy industries.
13.2. Course content

Steady state

• Introduction to HYSYS
• Propane Refrigeration loop
• Refrigerated Gas Plant
• Gas Gathering
• Two-Stage Compression
• Acid Gas Sweetening with DEA
• Natural Gas Dehydration with TEG
• Reporting in Aspen HYSYS
13.3. HYSYS DYNAMIC SIMULATION
The dynamic simulation specifically handles equipment sizing and process control
REVISION OF STEADY STATE
1. BASIC CONTROL THEORY
2. PRESSURE-FLOW RELATIONSHIP
3. TRANSITIONING FROM STEADY STATE TO DYNAMICS-MODYFYING THE STEADY STATE
4. SIZING UNIT OPERATIONS (DE-PROPANIZER COLUMN, SEPERATORS etc)
5. USING THE DYNAMICS ASSISTANT AND ACTIVATING THE DYNAMIC MODE
6. INSTALLING THE CONTROLLERS (PID)
7. SETTING UP STRIP CHARTS
8. RUNNING AND MONITORING DYNAMIC SIMULATION.
9. ADVANCED DYNAMICS

13.4. Who needs this training

1. UTILITY ENGINEERS&.PROCESS ENGINEERS
2. PLANT OPERATORS.
3. MECHANICAL AND PROCESS AND CONTROL ENGINEERS.
14. PETREL (SEISMIC INTERPRETATION AND, GEOSTATIC MODELLING) (12 Days)
1. Theoretical principle of reservoir estimation. (VOLUME CALCUATION, MATERIAL BALANCE)
2. Introduction to petrel seismic to simulation software.
3. Importation of data and QC.
4. seismic interpretation
a. Surface interpretation
b. Fault interpretation
5. Structural modeling(faults ,vertical layering)
6. Grid Property modeling (porosity, permeability, N/G, SW facies)
7. Definition of fluid contacts.
8. Reservoir mapping. PLOTTING
9. Pay zone in-situ volume calculation.
10. Setting up a simulation case in petrel and exporting for eclipse 100 black oil isothermal Simulator.

15. ECLIPSE DYNAMIC RESERVOIR SIMULATION
(PREDICTION & HISTORY MATCHING) (8 Days)

A .An Introduction to dynamic ISOTHERMAL BLACK OIL simulation (ECLIPSE 100)
B. The DIFFUSSIVITY(darcy law) equation& MB. Equations(EOS)-redleich –kwang,peng-robinson ,vanderwaal......
C.Introduction to Eclipse and Eclipse family of softwares(eclipse 100,300,PVTi fluid characterization,office etc.)
D, understanding and coding eclipse using notepad.( ascii method ,include files .
1.The runspec,
2. grid section.(grid)permx,permy,permz,porosity………
3.properties section,(Liveoil PVTO,DEADOIL PVCDO,FLASH PARAMETERIZATION)
4. solution -initialization section(EQUILIBRATION,DEFINING AQUIFERS)
5. Schedule section (Prediction simulation/HISTORY MATCHING).
6.Summary section (OUTPUT OF SIMULATION RESULTS,FIELD,WELL AND BLOCK PRODUCTION E.T.C
7.Introduction to eclipse office
8. Building & running a prediction&HISTORY MATCH model of CASE STUDIES OF large reservoir WITH AQUIFER in eclipse
9.BUILDING A RESERVOIR IN ECLIPSE.
10.OPTIMIZING ECLIPSE SIMULATION.
11B.PVTsim IN eclipse
12. technical discussion and interpretation of graph(PVT,SATURATION,PRODUCTION etc)

16. PROSPER (10 Days)
PROSPER is a well performance, design and optimisation program for modelling most types of well configurations found in the worldwide oil and gas industry today. PROSPER can assist the production or reservoir engineer to predict tubing and pipeline hydraulics and temperatures with accuracy and speed. PROSPER's sensitivity calculation features enable existing well designs to be optimised and the effects of future changes in system parameters to be assessed.
PROSPER is designed to allow building of reliable and consistent well models, with the ability to address each aspect of well bore modelling viz; PVT (fluid characterisation), VLP correlations (for calculation of flowline and tubing pressure loss) and IPR (reservoir inflow). By modelling each component of the producing well system, the User can verify each model subsystem by performance matching. Once a well system model has been tuned to real field data, PROSPER can be confidently used to model the well in different scenarios and to make forward predictions of reservoir pressure based on surface production data.
With PROSPER detailed flow assurance can be studied at well and surface pipeline level. PROSPER provides unique matching features which tune PVT, multiphase flow correlations and IPR to match measured field data, allowing a consistent model to be built prior to use in prediction (sensitivities or artificial lift design).
16.1. Production System Analysis

• Inflow performance models (IPR)s
• Horizontal well with pressure drop in well
• Multi-layer with pressure drop in well
• Hydraulic fracture
• Time dependant IPR
• Multi-laterals
• Dual porosity
• Outflow
• Pipe stability calculations
• Proprietary well pressure drops model -
• PVT - Oil, Gas, Condensate - Black Oil or Fully Compositional
• Tubing and pipeline quality check
• Sensitivity analysis


16.2. Well Types

• Gas, oil, water, condensate, steam, injection wells
• Naturally flowing
• Artificially lifted
• Multi-layer
• Multi-lateral
• Angled and horizontal
16.3. Artificial Lift System Analysis and Design

• Electric Submersible Pump - ESP
• Gas Lift
• Hydraulic Pumps - HSP
• Progressive Cavity Pumps - PCP
• Jet Pumps
• Beam Pumps - Rod
• Design new artificial lift systems
• Verify the efficiency of existing system.
17. GAP (6 Days)
GAP is a multiphase oil and gas optimiser tool that models the surface gathering network of field production systems. When linked with the well models of PROSPER and reservoir models of MBAL a full field production optimisation and forecast can be achieved. GAP can model production systems containing oil, gas and condensate, in addition to gas or water injection systems.
GAP's powerful non-linear optimisation engine allocates gas for gas lifted wells or sets wellhead chokes for naturally flowing wells to maximise revenue or oil/gas production while honouring constraints at any level in the system.
17.1. Multi-well optimization for artificially lifted and naturally flowing production networks:
• Surface gathering system models with constraints
• Looped networks
• Gas and condensate gathering systems
• Oil and water gathering systems
• Injections networks
• Compressor modelling
• Pump modeling

17.2. Optimisation of gathering system against constraints:
• Fast and robust Global Optimisation algorithm using non-linear programming (NLP) which has been recognised in the industry as best in class.
• Wellhead chokes can be set, compressors and pumps optimised, and gas for gas lifted wells allocated to maximise production
• Multiple Flowlines
• Multiple Separators
• Unlimited number of nodes - wells, reservoir, etc.
• Field optimisation studies with mixed systems (ESP, GL, Naturally Flowing, PCP, Jet and Rod Pumps)
• Optimise production forecasting
17.3. Pipeline Flow Assurance Studies
17.4. Reservoir Management
• Models injection system performance, using MBAL or other numerical reservoir models
• Advises on wellhead chokes settings to meet reservoir management targets
17.5. Fully Compositional from the Reservoir to the Process side
Easy to use graphical interface for drawing system network (using icons for separators, compressors, pipelines, manifolds and wells, inline chokes and reservoir tanks)
18. SAGE 50 (6 Days)
Session 1 Introduction and initialization, setting your preferences and security
Session 2 Using the Charts of Accounts and Nominal Codes
Session 3 Setting up Customer and Supplier records
Session 4 Creating and Processing Sales Invoices, Processing Purchase Invoices
Session 5 Processing Customer Receipts and Supplier Payments
Session 6 Processing Bank Payments and Receipts, Petty Cash, Transfers
Session 7 Prepayment, Accruals, Month End, Nominal Reports and Trial Balance Session 8 Completing your VAT return, Management Reports and Audit Trail

19. PIPESIM-pipeline simulation, surface and sub-surface piping simulation (10 Days)
1. INTRODUCTION to pipesim
2. SINGLE PHASE FLUID MODELING-WATER, GAS OIL
3. PIPE SIZING.
4. ARTIFICIAL LIFT DESIGNS.
5. SINGLE BRANCH PIPELINE AND FACILITIES
6. NETWORK MODELLING

GROUPS
1. AUTOCAD, PDMS & CAESAR2
2. PRIMAVERA & MS-PROJECT
3. MS-EXCEL, MS-ACCESS & MS-POWER POINT
4. ORION, STAADPRO & AUTOCAD CIVIL 3D
5. PROSPER, GAP & MBAL
6. PETREL & ECLIPSE
7. SAGE & PEACHTREE
8. ETAP & MATLAB