Senior Petroleum and Reservoir Engineer with proven track record of success in the oil and gas industry. +14 years
extensive experience in all aspects of petroleum engineering, including reservoir engineering,
production engineering. Proven ability to manage and lead projects, as well as develop and
implement technical solutions. Skilled in a variety of programming languages, including Visual Basic,
C++, C#, Python, MATLAB, and web development.
Monte Carlo Simulation for Productivity Index & IPR Curves:
This is an Excel-based tool that applies the Monte Carlo simulation technique to estimate the Productivity Index (#PI) and generate #IPR curves for key probabilistic scenarios: #P10, #P50, and #P90.
- This tool allows reservoir and production engineers to better understand the uncertainty in well performance by:
- Randomizing input parameters across realistic ranges
- Running hundreds (or thousands) of simulations
- Automatically extracting the most likely (P50), optimistic (P10), and conservative (P90) outcomes
This approach is designed for both constant and variable flow rate conditions, leveraging the concept of material balance time proposed as a replacement of production time
A comprehensive Excel-based tool utilizing the flowing material balance technique to estimate key reservoir properties from:
This advanced Excel-based Rate Transient Analysis (RTA) tool is a cost-effective alternative to expensive commercial software, designed for reservoir engineers to analyze production data, match historical performance, and optimize reservoir parameters.
The Most Popular Black-Oil PVT Modeling Software
This simple Excel-based tool is designed to simplify the analysis of well performance by calculating Inflow Performance Relationship (IPR) and Vertical Lift Performance (VLP) curves for oil wells. It provides petroleum engineers and production analysts with a user-friendly, automated environment for evaluating and optimizing well productivity.
An Excel-based tool that incorporates all PVT correlations proposed by McCain for three fluid phases: Oil, Water and Gas (Dry & Wet)
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