Waterflooding A to Z - WF - eLearning course

Program Overview

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This comprehensive "Waterflooding A to Z - WF - eLearning" course equips professionals in the upstream oil and gas industry with a thorough understanding of waterflooding techniques. Through a blended learning approach, participants delve into reservoir properties, heterogeneity effects, forecasting, surveillance, and optimization. By completing the course, individuals gain the knowledge and skills to contribute effectively to waterflood projects and enhance career prospects in this vital area.

Program Outline

The course emphasizes practical applications and proven methods, focusing on process optimization, cost reduction, waste minimization, and maximizing oil recovery. It covers all aspects of a waterflood project, from source water selection to produced water disposal.

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Objectives:

The course aims to equip participants with the knowledge and skills to:

• Define waterflooding and understand its mechanisms.
• Explain the application of waterflooding to specific reservoirs.
• Differentiate between various waterflood patterns and types.
• Measure the success of a waterflood project.
• Identify the impact of rock and fluid properties on waterflood performance.
• Quantify the effects of relative permeability, wettability, capillary pressure, pattern size, and shape on waterflood performance.
• Understand how reservoir heterogeneity and anisotropy affect waterflood performance.
• Describe various methods for forecasting waterflood performance, including statistical, analytical, and numerical approaches.
• Apply popular analytical waterflood models, such as the Buckley-Leverett, Craig-Geffen-Morse, and Stiles methods.
• Utilize effective surveillance techniques for managing waterfloods.
• Model the performance of injection and producing wells.
• Compare and contrast different water sources for waterflooding.
• Optimize waterflood operations.
• Plan and design waterflood projects.

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Outline:

The program is structured as a blended learning workshop, combining virtual instructor-led training (ILT) and online learning activities (OL). It consists of nine units, each covering specific aspects of waterflooding.

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Unit 1:

• ILT: Orientation Webcast (pre-recorded)
• OL: Waterflood Overview

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Unit 2:

• ILT: Waterflood Reservoir Property Effects Fundamentals - Session 1 & 2
• OL: Waterflood Reservoir Property Effects Fundamentals

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Unit 3:

• ILT: Waterflood Reservoir Heterogeneity Effects Fundamentals - Session 1 & 2
• OL: Waterflood Reservoir Heterogeneity Effects Fundamentals

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Unit 4:

• OL: Waterflood Forecasting Overview

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Unit 5:

• ILT: Waterflood Analytical Forecasting Fundamentals - Session 1 & 2
• OL: Waterflood Analytical Forecasting Fundamentals

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Unit 6:

• OL: Waterflood Surveillance

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Unit 7:

• ILT: Producing vs. Injecting Wells Fundamentals - Session 1 & 2
• OL: Producing vs. Injecting Wells Fundamentals

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Unit 8:

• OL: Waterflood Water Sources
• OL: Waterflood Optimization

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Unit 9:

• OL: Waterflood Planning

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Module Descriptions:

• Waterflood Overview: Introduces the concept of waterflooding, its mechanisms, and the differences between various waterflood types.
• Waterflood Reservoir Property Effects: Examines the impact of rock and fluid properties on waterflood performance, including relative permeability, wettability, capillary pressure, and pattern size.
• Waterflood Reservoir Heterogeneity Effects: Discusses the complexities introduced by reservoir heterogeneity and anisotropy, including shale continuity, dipping reservoirs, and natural and hydraulic fractures.
• Waterflood Analytical Forecasting: Delves into popular analytical waterflood models, including the Buckley-Leverett, Craig-Geffen-Morse, and Stiles methods.
• Waterflood Surveillance: Presents a collection of proven surveillance techniques for managing waterfloods.
• Producing vs. Injecting Wells: Analyzes the performance of injection and producing wells, including modeling, optimization, and artificial lift methods.
• Waterflood Water Sources: Compares different water sources for waterflooding, including water quality considerations and treatment methods.
• Waterflood Optimization: Explores opportunities for optimizing waterflood operations, including identifying deviations from expectations, revisiting design assumptions, and deploying new technologies.
• Waterflood Planning: Covers waterflood design, including traditional and agile approaches, data requirements, and exit strategies.

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Teaching:

• Teaching Methods: The course utilizes a blended learning approach, combining virtual instructor-led training (ILT) and online learning activities (OL).
ILT sessions are conducted by PetroSkills specialists, while OL modules provide self-paced learning opportunities.
• Faculty: The course is instructed by PetroSkills specialists, including Richard Henry.
• Unique Approaches: The course emphasizes practical applications and proven methods, using case studies and simulation exercises to illustrate key concepts.
Participants are grouped into small multidisciplinary teams to facilitate collaborative learning and problem-solving.

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Careers:

• Potential Career Paths: The course is relevant for professionals in the upstream oil and gas industry, particularly those involved in reservoir engineering, production, facilities, and operations.
• Opportunities: Completion of the course can enhance career prospects in areas such as waterflood project management, reservoir characterization, production optimization, and well performance analysis.

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Other:

• Target Audience: The course is designed for reservoir, production, facilities, and operations engineers involved in new or existing waterflood projects, as well as geoscientists and professionals seeking a comprehensive understanding of waterflooding.
• Course Content: The course covers a wide range of topics, including waterflood overview, reservoir property effects, heterogeneity effects, forecasting, analytical modeling, surveillance, producing vs. injecting wells, water sources, optimization, and planning.
• Course Duration: The course consists of approximately 20 hours of ILT and OL activities.
• Course Cost: The course costs $4,090.00.
• Public Sessions: Public sessions of the course can be requested.
• In-House Training: The course is also available as a private, on-site seminar.