Reservoir Fluid Properties
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Reservoir Fluid Properties Course
Introduction:
The techniques for deriving reservoir fluid property values from correlations and laboratory data will be covered in this course. We'll also talk about quality control, typical laboratory PVT (Pressure-Volume-Temperature) testing, and the chemical characteristics of hydrocarbons. Attending this course will teach participants about phase diagrams, mixing rules, EOS, EOS tuning, and fluid characteristics. Participants will be given issues to solve and examples to go through each day.
Course Objectives:
This course will help participants gain a better understanding of the relationship between the five reservoir fluids and how to manage the problem concerning reservoir fluid properties with increased confidence.
Who Should Attend?
Operations, production, and reservoir engineers.
Course Outlines:
Fundamentals of PVT (Pressure-Volume-Temperature)
- Overview of PVT Analysis
- Hydrocarbon Chemistry
- Phase Behavior of single and multi-component systems
- Miscibility concept
- Reservoir Fluids
On the first day of the course, participants will learn about the basic fundamentals of PVT analysis, along with the object of PVT analysis and hydrocarbon chemistry. Phase behavior of single and multi-component systems will be covered. Miscibility concept and minimum miscibility pressure will also be covered. The day will end with a discussion on the type of reservoir fluids.
PVT Fluid Properties, Reporting, and Evaluating
- Equations of State for Ideal and Real Gases
- PVT Properties of Natural Gas
- PVT Properties of Black Oil
- Reservoir Fluid Studies Reports
The day will start with learning the equations of states for ideal and real gases and PVT properties of natural gas. Participants will discuss the conventional experimental procedures used to generate PVT data such as constant volume depletion and differential liberation. The day will end with participants learning about the PVT reports and evaluation of the reported data and their application.
Development of Equation of State (EoS) Models
- Black Oil Correlations
- Ideal and Non-Ideal Gas-Liquid Equilibrium
- Evaluation of phase boundaries and flash equilibrium with EoS
Day three will start with black oil correlations and then will focus on Equations of State (EoS). Participants will learn about the Development of the EoS models along with the different types of EoS. Comparisons of EoS results, evaluation of phase boundaries and flash equilibrium with EoS, K-value correlations and the tuning of EoS will also be covered. Other topics that will be discussed on this day include, volume translation concepts for improved volumetric predictions using EoS, compositional gradients and variation, and compositional processes.
Tuning and Data Requirements
- Cubic Equation of State
- The solution of van der Waals EOS
- Fugacity Evaluations
- PVT-VLE Evaluation
- Tuning of Equations of State
Tuning and data requirements will be the main focus of this day. Qubic EoS and its solution will be discussed first. Then the participants will learn how fugacity and K-value evaluations are done from an EoS. The day will end with an EoS tuning example.
Oil Filed Applications
- Surface Separation and example separator Calculations
- Properties of Oilfield Water
- Gas Hydrates and Hydrate Prediction correlations
The last day of the course will cover examples of surface separator calculations, phase properties of gas hydrates and their correlations. The day will end with participants learning about the properties of oilfield waters.