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, 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.
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.
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 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.
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 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.
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.
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 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 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
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.
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 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.
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.