Replacement of any part of the Electric Submersible Pump (ESP) following a failure requires a workover rig which is very expensive specially in offshore locations. The process of ESP installation and recovery can be speeded up and made more efficient by installing the ESP at the end of a coiled tubing or depoyed by cable like CDESP. Other solution is to replace ESP with Jet Pump.
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.
Project and operations management play major roles in determining the success of gas projects and companies. Key project and operations management skills and techniques relevant to gas industry include: planning, estimating, modelling, organizing and controlling resources and schedules, with a view to optimizing performance and quality. In addition teamwork, problem solving, motivation, contracts, negotiations, risk management and handling data and documentation are essential requirements for successful projects and operations. The skills taught are gas-industry specific and can be widely applied at upstream, downstream and corporate levels. It focuses on integrating knowledge of projects and operations along gas supply chains.
Project and operations management play major roles in determining the success of gas projects and companies. Key project and operations management skills and techniques relevant to gas industry include: planning, estimating, modelling, organizing and controlling resources and schedules, with a view to optimizing performance and quality. In addition teamwork, problem solving, motivation, contracts, negotiations, risk management and handling data and documentation are essential requirements for successful projects and operations. The skills taught are gas-industry specific and can be widely applied at upstream, downstream and corporate levels. It focuses on integrating knowledge of projects and operations along gas supply chains.
This course is designed for drilling engineers, drilling accountants, drilling planning executives, business development executives & managers, finance executives, supply chain managers, contracts, procurement, well engineers and geologists.
This course is designed for drilling engineers, drilling accountants, drilling planning executives, business development executives & managers, finance executives, supply chain managers, contracts, procurement, well engineers and geologists.
This course provides an introduction to the economic analysis of international petroleum ventures. Furthermore, it gives exposure to the most widely accepted techniques used in the economic analysis of investment opportunities in the ‘upstream’, or exploration and production (E & P) sector of the oil industry.
This course provides an introduction to the economic analysis of international petroleum ventures. Furthermore, it gives exposure to the most widely accepted techniques used in the economic analysis of investment opportunities in the ‘upstream’, or exploration and production (E & P) sector of the oil industry.
This course provides an introduction to the economic analysis of international petroleum ventures. Furthermore, it gives exposure to the most widely accepted techniques used in the economic analysis of investment opportunities in the ‘upstream’, or exploration and production (E & P) sector of the oil industry.
Earned Value Management (EVM) is a highly effective project management tool. It enhances good project management through the development of integrated baseline planning and control techniques. These include the integration of the project scope, schedule and cost objectives, establishment of a baseline plan to accomplish the project objectives by effectively measuring project performance.
Given the volatility in oil prices today, the economic evaluation of an upstream oil and gas investment is essential. Business decisions involving asset acquisitions, lease-buy assessments, exploration drilling options, oil and gas field development, equipment purchases, and fiscal negotiations all require detailed economic analysis. The course will cover cash flow analysis, deriving and understanding economic indicators and detailed probability and fiscal analysis. These are vital components of the evaluation of investments in today’s international upstream oil and gas industry.
Given the volatility in oil prices today, the economic evaluation of an upstream oil and gas investment is essential. Business decisions involving asset acquisitions, lease-buy assessments, exploration drilling options, oil and gas field development, equipment purchases, and fiscal negotiations all require detailed economic analysis. The course will cover cash flow analysis, deriving and understanding economic indicators and detailed probability and fiscal analysis. These are vital components of the evaluation of investments in today’s international upstream oil and gas industry.
This course addresses various areas of gas lifting operations. It gives a complete look on the operational activities which will enable field operators to fully optimize even from systems selection, design, and installation. Moreover, the course will then focus on the techniques in achieving production optimization, specifically with continuous flow installations, monitoring, and run-life optimization. In order to achieve optimal
Artificial lift plays a crucial role in Oil & Gas production, especially in mature oilfield. Artificial lift is not only accelerating the production, but also vital to the economic success of the overall development. Therefore, selecting and designing the appropriate artificial lift is important. After completing the course, the participants will possess and enhance the skill to select, design, plan, analyze and optimize the artificial lift system for offshore oilfield.
NODAL analysis views the total producing system as a group of components potentially encompassing reservoir rock/irregularities, completions (gravel pack, open/closed perforations, open hole), vertical flow strings, restrictions, multilateral and branches. It will identify bottle necks and serves as a framework for the design of efficient field wide flow systems, including wells, artificial lift, gathering lines and manifolds. Together with reservoir simulation and analytical tools, NODAL analysis is used in planning new field development.
NODAL analysis views the total producing system as a group of components potentially encompassing reservoir rock/irregularities, completions (gravel pack, open/closed perforations, open hole), vertical flow strings, restrictions, multilateral and branches. It will identify bottle necks and serves as a framework for the design of efficient field wide flow systems, including wells, artificial lift, gathering lines and manifolds. Together with reservoir simulation and analytical tools, NODAL analysis is used in planning new field development.
Designed for reservoir engineers, EOR engineers, production engineers, petroleum engineers, geologists, project engineers, project managers and anyone else who is in need of a good understanding of waterflood.
Engineers and other personnel involved with the daily operation and management of producing oil and gas wells; Drilling engineers and workover engineers
Engineers and other personnel involved with the daily operation and management of producing oil and gas wells; Drilling engineers and workover engineers
This course covers the oilfield water management with emphasis on the subsurface aspects, including; Producer performance with water Injector performance
The main objective of this course is to provide Exploration & Development professionals with the opportunity to develop hands-on experience of various Machine Learning techniques. It will cover all essential approaches from fundamental theoretical background to high-level real work information/techniques.
The main objective of this course is to provide Exploration & Development professionals with the opportunity to develop hands-on experience of various Machine Learning techniques. It will cover all essential approaches from fundamental theoretical background to high-level real work information/techniques.
The main objective of this course is to provide Exploration & Development professionals with the opportunity to develop hands-on experience of various Seismic Reservoir Characterization techniques. It will cover all approaches from fundamental theoretical background to high-level real work information/techniques.
Seismic data is acquired in time - the time taken for the sound to travel from the source to reflectors and to return to receivers. However, wells are drilled in depth, not time. Variations in velocity can distort the depth, size, and shape of possible reservoirs. Therefore, conversion from time to depth is needed for a clear picture of the prospect and the risks involved.
Seismic data is acquired in time - the time taken for the sound to travel from the source to reflectors and to return to receivers. However, wells are drilled in depth, not time. Variations in velocity can distort the depth, size, and shape of possible reservoirs. Therefore, conversion from time to depth is needed for a clear picture of the prospect and the risks involved.
The main objective of this course is to provide Exploration & Development professionals with the opportunity to develop hands-on experience of various Seismic Data Acquisition & Processing techniques. It will cover all Seismic acquisition and processing approaches from fundamental theoretical background to high-level real work information/techniques.
The main objective of this course is to provide Exploration & Development professionals with the opportunity to develop hands-on experience of various Seismic Data Acquisition & Processing techniques. It will cover all Seismic acquisition and processing approaches from fundamental theoretical background to high-level real work information/techniques.
The main objective of this course is to provide a comprehensive understanding of static reservoir modelling and reliable reservoir models, which used to predict oil production, investigate various production scenarios and eventually help decision makers to optimize field development.
The main objective of this course is to provide a comprehensive understanding of reservoir gemechanics which become nowadays very important. This course is focused on fundamentals of geomechanics and rock physics required for key practical applications: pore pressure and formation stress prediction, determination of optimally-stable wellbore trajectories, production-induced faulting and subsidence, effects of fluid injection or/and depletion on fault reactivation and reservoir compaction, hydraulic fracturing stimulation and sand production prediction
A decision to drill an exploration well with the objective to find a new oil or gas field must be based on a sound assessment of the prospect's risks and of the volumes: what is the chance that a well will find hydrocarbons, and how much could it be? Risk and volume assessments form the basis for decisions to drill a well or not, and as such form the link between subsurface evaluation and the business aspects of the petroleum industry.
This course examines the processes leading to the formation and accumulation of carbonate & Siliciclastic rocks and how sequence stratigraphy provides a predictive method to understand the formation of these reservoirs and application in oil and gas industry.
This course examines the processes leading to the formation and accumulation of carbonate & Siliciclastic rocks and how sequence stratigraphy provides a predictive method to understand the formation of these reservoirs and application in oil and gas industry.
This course will provide the basic knowledge required for understanding operating issues in natural gas dehydration units. This course is customizable to client needs.
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.
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.
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 designed for users already familiar with the first level of Integration within IPM (GAP, PROSPER and MBAL) and wish to take the integrated production modelling approach to the next level, integrating numerical simulation reservoir models, process models, economics as well as implementing Global Optimization and Field Management Rules within the system.
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 designed for those working with seismic data to understand and appreciate the underlying principles and processes leading to final images and associated attributes.
This course is designed for those working with seismic data to understand and appreciate the underlying principles and processes leading to final images and associated attributes.
Designed for Wellsite, Operations, and Well Planning Geologists, Drilling Engineers, LWD Engineers and Mud Loggers.
Designed for Wellsite, Operations, and Well Planning Geologists, Drilling Engineers, LWD Engineers and Mud Loggers.
Designed for, but not limited to Geologists, Geophysicists, Reservoir Engineers, and other E&P professionals in seismic interpretation and geological mapping.
Designed for technical, field, service, support and supervisory personnel desiring to gain an introductory overview of these topics and how they interrelate. Excellent for cross-training of other technical disciplines such as reservoir and surface facility engineers, and anyone who interacts with sub-surface geoscientists.
This course is designed for wellsite geologists, drilling and operations engineers, and those who are involved in the acquisition and use of well-site geological data in their job scope.
Designed for wellsite geologists, drilling and operations engineers, and those who are involved in the acquisition and use of well-site geological data in the job scope.
Designed for reservoir engineers, EOR engineers, production engineers, petroleum engineers, geologists, project engineers, project managers and anyone else who is in need of a good understanding of waterflood.
This course aims to establish an understanding of the processes, technology, equipment, techniques and HSE associated with oil and gas production and operation.
This course is designed to provide participants with a complete and up-to-date overview of gas conditioning and processing technology. It covers product specifications and the processes available to condition the gas in order to meet these requirements. Participants will understand the nature and purpose of key gas processing operations, and how the individual operations are integrated into plants to process diverse feed streams received from gas fields around the world.
Designed for Reservoir Engineers, Petroleum Engineers, Geologists, Geophysicists, Petrophysicists, Drilling Engineers, Production Engineers, Surveillance Engineers, Managers.
Designed for reservoir engineers, petroleum engineers, chemist, laboratory technicians, geologist, project engineers, project coordinators, project managers and professionals who want to know comprehensively how is the best practice in implementing chemical EOR projects.
Designed for reservoir engineers, petroleum engineers, chemist, laboratory technicians, geologist, project engineers, project coordinators, project managers and professionals who want to know comprehensively how is the best practice in implementing chemical EOR projects.
Designed for petrophysists, reservoir engineers, petroleum engineers, geologists, geoscientist, geophysicists and professionals who wants firm grounding in special core analysis.
Designed for reservoir engineers, reservoir managers, production engineers, production technologists, production engineering managers, petroleum engineers and professionals who are involved in gas condensate and volatile oil reservoirs.
Designed for reservoir engineers, reservoir managers, production engineers, production technologists, production engineering managers, petroleum engineers and professionals who are involved in gas condensate and volatile oil reservoirs.
Designed for reservoir engineers, EOR engineers, production engineers, petroleum engineers, geologist, project engineers, project managers and anyone else who desire to obtain a comprehensive knowledge of CO2-EOR projects.
Designed for reservoir engineers, EOR engineers, production engineers, petroleum engineers, geologist, project engineers, project managers and anyone else who desire to obtain a comprehensive knowledge of CO2-EOR projects.
Designed for geoscientists and engineers with little or no reservoir engineering background. It is intended to provide an introductory course in the field of basic reservoir engineering.
Designed for geoscientists and engineers with little or no reservoir engineering background. It is intended to provide an introductory course in the field of basic reservoir engineering.
This course presents a comprehensive summary of miscible, polymer and thermal enhanced oil recovery processes. For each technique, theoretical and practical aspects are discussed in detail, along with case studies/field examples of each of the processes.
This course is designed for experienced reservoir engineers who have been involved in constructing reservoir models and performing simulation studies for field recovery optimization. Attendees should have a basic knowledge of reservoir simulation.
This course is designed for experienced reservoir engineers who have been involved in constructing reservoir models and performing simulation studies for field recovery optimization. Attendees should have a basic knowledge of reservoir simulation.
A decision to drill an exploration well with the objective to find a new oil or gas field must be based on a sound assessment of the prospect's risks and of the volumes: what is the chance that a well will find hydrocarbons, and how much could it be? Risk and volume assessments form the basis for decisions to drill a well or not, and as such form the link between subsurface evaluation and the business aspects of the petroleum industry.