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Waterflooding in Oil and Gas » OG110

Waterflooding in Oil and Gas

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DateFormatDurationFees
31 Mar - 04 Apr, 2024Live Online5 Days$2250Register
21 Apr - 25 Apr, 2024Live Online5 Days$2250Register
24 Jun - 28 Jun, 2024Live Online5 Days$2250Register
12 Aug - 16 Aug, 2024Live Online5 Days$2250Register
23 Sep - 27 Sep, 2024Live Online5 Days$2250Register
14 Oct - 18 Oct, 2024Live Online5 Days$2250Register
23 Dec - 27 Dec, 2024Live Online5 Days$2250Register
DateVenueDurationFees
07 Apr - 11 Apr, 2024Muscat5 Days$4950Register
29 Apr - 03 May, 2024Dubai5 Days$4750Register
13 May - 17 May, 2024Dubai5 Days$4750Register
10 Jun - 14 Jun, 2024Dubai5 Days$4750Register
15 Jul - 19 Jul, 2024Dubai5 Days$4750Register
05 Aug - 09 Aug, 2024Dubai5 Days$4750Register
26 Aug - 30 Aug, 2024London5 Days$5695Register
09 Sep - 13 Sep, 2024Toronto5 Days$5695Register
09 Sep - 13 Sep, 2024Dubai5 Days$4750Register
30 Sep - 04 Oct, 2024Dubai5 Days$4750Register
18 Nov - 22 Nov, 2024Dubai5 Days$4750Register
09 Dec - 13 Dec, 2024Dubai5 Days$4750Register

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Course Overview

This course will introduce you to the reservoir engineering aspects of water flooding. The emphasis is on understanding and being able to predict the immiscible displacement process. The participants will gain a better understanding of the process by which water displaces oil from a reservoir and, in particular, develop an improved ability to calculate the recovery performance of a water flood project.

In this course, the presentation proceeds from primary recovery mechanisms through the fundamentals of rock and fluid interaction to the engineering design and application.

The course will be as a remarkable key recovery point as Water flooding reservoirs will achieve additional oil recovery that is recognized as a method for maximizing the value of already discovered resources.  Petroleum engineers are increasingly being asked to evaluate the economics, production potential, and waterflood design for potential waterflood candidates.

This Zoe course will highlight the techniques and principles of classical water flood prediction techniques and use of numerical simulation to design water floods.

Course Objectives

By attending this course, the expected outcome is as following:

  • Improved understanding of why water flooding is being used
  • Greater understanding of the distribution of immiscible fluids in a reservoir
  • Better understanding of the process of immiscible displacement in a reservoir
  • Discern why water flooding is being used
  • Enhanced knowledge of water flood pattern options and the effect of selection and orientation on flood performance
  • Increased ability to predict water flood performance by application of classical water flood prediction methods
  • Ability to predict water flood performance by application of numerical simulation

Training Methodology

Courses at Zoe Talent Solutions are customisable as per the requirements and expectations of our training audience. Thus, before each session, the content is fully reviewed to check for modifications. The program is facilitated by an experienced and skilled professional from the relevant domain.

Two-way participation and interaction in the program are encouraged through group activities, projects, role-plays, etc. Experiential learning and situational analysis form an essential and vital part of the training program.

Zoe Talent Solutions follows the ‘Do–Review–Learn–Apply Model’.

Organisational Benefits

With professionals undertaking this ‘Waterflooding in Oil and Gas Course’, their organisations will benefit in the following ways:

  • Optimum selection of the fields that actually need water flooding
  • Efficient economic evaluation for waterflooding projects allowing best cash flow monitoring
  • Achieving higher oil recovery with optimum application for water flooding
  • Best interpretation for the outcome data from the performance to allow better reservoir understanding and characterization
  • Determine the need for the water flooding project application and the optimum time for implementing
  • Run the economic feasibility studies to determine the cash flow regime for the project
  • Design the water flooding process with all its aspects
  • Select the best optimum solution for logging
  • Design efficiently the project according to reservoir environment, well conditions and parameters
  • Build-in sequential algorithms for real data monitoring, surveillance and expectation
  • Understand the petroleum reservoir to complete the puzzle of hydrocarbon potential
  • Integrated approach for field evaluation that will aid in the economic feasibility studies

Personal Benefits

Professionals enrolling for this ‘Waterflooding in Oil and Gas Course’, will derive the following benefits:

  • Comprehensive understanding of all aspects of water flooding recovery to build a successful career in this domain
  • Increased understanding and confidence to obtain good, representative surveillance for observed performance
  • Greater knowledge of new concepts for water flooding to achieve closest and most accurate predictions
  • Enhanced analytical and out of box thinking to interpret input and post-implementation data and draw the most accurate conclusions to aid effective decision making
  • Increased confidence and experience to train other professionals on all critical skills needed to become a successful water flooding expert
  • Better awareness and understanding to choose the correct modeling methods as per the requirement and circumstances
  • Enhanced perspective and foresight to identify hindrances and challenges to water flooding project and prevent these from affecting the production performance
  • Greater potential and ability to contribute to organisational growth through effective feedback, thereby increasing one’s scope for career progression across any organisation

Who Should Attend?

  • Senior management members of an organisation involved in water flooding project designing, modeling and monitoring
  • Employees partaking in the water flooding modeling for an organisation
  • Managers responsible for overseeing water flooding designing and monitoring results
  • Legal consultants and advisors responsible for hydrocarbon field potential evaluation
  • Any professional across any profile in the petroleum industry with aspirations to build a career as a water flooding expert
  • Any other professional interested in being certified as a water flooding expert

Course Outline

The course covers the following important areas:

Module 1: Properties of Black Oils – Reservoir Fluid Studies

  • List various laboratory procedures that make up a complete black oil laboratory fluid study
  • Explain the laboratory procedure recognised as pressure-volume relations, list other names for this procedure, discuss how to identify the data from this procedure if the words accompanying the data are unreadable, and list the uses and function of the resulting data
  • Describe the laboratory process and a procedure is known as differential liberation, discuss how to classify the data from this procedure if the words accompany the data are unreadable and list the uses of the resulting data
  • Describe the laboratory procedure identified as a separator test and list the uses of the resulting data
  • List the data from a black oil laboratory fluid study which can be used straight into engineering calculations
  • List the laboratory procedures from which data is used to calculate oil formation volume factors and solution gas/oil ratios at pressures above bubble point pressure

Module 2: Rock Properties

  • Define Wettability, interfacial tension, and adhesion tension
  • Define and give examples of drainage and imbibition processes
  • Explain the difference between water-wet and oil-wet rocks
  • Describe the effects of wettability on waterflood performance
  • List the common laboratory methods to measure wettability
  • List 4 uses and practices of capillary pressure data
  • Define hysteresis
  • Sketch and draw capillary pressure curves for typical drainage and imbibition processes
  • Describe the relation between capillary pressure data and reservoir fluid saturation
  • Define oil-water and gas-oil transition zones
  • List 2 function and use of relative permeability data
  • Define and describe absolute permeability, effective permeability, and relative permeability
  • List 3 considerations and parameters that affect relative permeability
  • Describe hysteresis in two phase relative permeability data
  • Explain how the practice of relative permeability curve is tied with the reservoir mechanism and/or the depletion process
  • Explain the concept of three-phase relative permeability
  • List the usual methods to measure two phase relative permeability
  • Average relative permeability data

Module 3: Describing Waterflooding Project

  • State the goal of water flooding during the producing life of a reservoir
  • List the basic water flood performance indicators used for determining the economic viability of a water flood
  • List the different possible primary production mechanisms and describe reservoir performance characteristics and conditions that may exist at the start of a water flood project

Module 4: Analysing Fundamentals of Immiscible Displacement in Porous Media

  • Develop the fractional flow equation. Find out, what each component of the equation represents.  List and describe each term and the effect that changing the value of each term will have on the fractional flow of water
  • Use the fractional flow equation to calculate the flow rate of water as a fraction of the total flow rate for all possible saturations
  • Develop the frontal advance equation. Identify and discuss each term in the equation
  • Use the frontal advance equation to calculate the saturation and position of the flood front in the reservoir as a function of time
  • Calculate the saturation of the flood front before breakthrough using Welge’s method
  • Calculate the average water saturation in the system at water breakthrough and after breakthrough using Welge’s method

Module 5: Analysing Water Flood Patterns

  • Construct a list of the common waterflood patterns used in industry and comment on the relative merits of each pattern
  • List the factors that influence pattern selection
  • Calculate well spacing and injector to produce ratios for commonly used patterns
  • Calculate the Craig and Endpoint mobility ratios used in waterflooding performance prediction and explain the significance of mobility ratio in the waterflood process
  • Define the different efficiencies used to represent the performance of a waterflood
  • Calculate the injection rate for a pattern using the equations developed for that pattern

Module 6: Applied Waterflooding

  • Explain what water flooding means (in your own words)
  • Explain the primary objectives for installing a water flood
  • Recognize whether a reservoir is a good candidate for water flooding or not
  • Recognize the different water flood patterns and apply pattern orientation parameters to pattern selection and orientation
  • How oil, water, and gas saturations change with time during a water flood
  • The concept of fractional flow and be able to determine the water saturation at the flood front, the average water saturation in the reservoir at water breakthrough, and the section of water flowing at the flood front
  • Several key water flood performance measures including mobility ratio, areal and vertical sweep efficiency, displacement efficiency, and total recovery efficiency
  • Common operating practices and problems in water injection projects including producing well operations, injection well operations, injection well testing, and injection water quality
  • “Reservoir monitoring” and types of data that engineers acquire to monitor water flood performance

Module 7: Predicting Water Flood Performance Using Buckley-Leverett

  • Identify the assumptions of the Buckley-Leverett method
  • Calculate average permeability for a layered reservoir
  • Predict waterflood performance of a pattern unit using the Buckley-Leverett method

Module 8: Predicting Water Flood Performance Using Craig Geffen Morse Method

  • Identify the assumptions in the Craig Geffen Morse method
  • Gain knowledge in the fundamental process of immiscible displacement in a 5-spot by learning the modeling approach and calculation procedure used in the Craig Geffen Morse method
  • Predict water flood performance for 5-spot pattern using Craig Geffen Morse method

Module 9: Predicting Water Flood Performance Using Stiles Method

  • Identify assumptions in Stiles method
  • Comprehend the modeling approach used in Stiles method
  • Calculate Stiles permeability and flow capacity distribution curves
  • Predict water flood performance of pattern using Stiles method

Module 10: Water Flood Performance Prediction Using the Dykstra-Parsons Method

  • List the assumption in the Dykstra-Parsons method
  • Compute the coefficient of permeability variation
  • Comprehend the mathematical formulation of the Dykstra-Parsons method
  • Make a performance prediction for a pattern water flood

Module 11: Introduction to Improved Oil Recovery Through Water Injection Projects

  • Discuss several key water flood performance measures including mobility ratio, areal and vertical sweep efficiency, displacement efficiency, and total recovery efficiency
  • Describe common operating practices and problems in water injection projects including producing well operations, injection well operations, injection well testing, and injection water quality
  • Describe “reservoir monitoring” and types of data that engineers acquire to monitor water flood performance

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