Primary Cementing - Cementing I - PCE

Seismic fundamentals as they relate to defining the appearance of hydrocarbons in the data; An inventory of direct hydrocarbon indicators, including AVO; Risk rating prospects that display AVO anomalies; Understanding rock properties and the effect of pore filling material; AVO and how it relates to the typical production zones around the world with various ages and depths of burial; Various methods of displaying AVO effects in the seismic data; Acquisition and processing considerations to display hydrocarbons as a pore filling material; Various approaches to seismic modeling and fluid replacement; Rock properties and pore filling material from seismic inversion; Spectral decomposition and seismic attributes as other ways of extracting reservoir information from the seismic image

Fundamental concepts of petrophysics; Depositional systems and petrophysical rock parameters; Nature of porosity and permeability; Basic rock properties; theory and quicklook techniques; Mudlogging; Core analysis, acquisition, interpretation, and quality checks; Theory and basics of resistivity, radioactivity, acoustic tools; LWD/MWD versus open hole logging; Determination of rock types using core and logs; Cased hole logging; Petrophysical impact on economic uncertainty; Evolving petrophysical technologies

Mechanisms for the formation of heavy oil; General phase behavior of hydrocarbons and heavy oil; Properties of heavy oil and rock physics analysis; Geophysical approaches to characterization of heavy oil reservoirs; Measuring and monitoring heavy oil properties; Methods of extraction of heavy oil (CHOPS, SAGD, etc.); Challenges for heavy oil production; Seismic monitoring of hot and cold heavy oil production; Optimization of Canadian heavy oil production through reservoir characterization; Environmental issues; Jeopardy exercises on each of these units

Seismic fundamentals as they relate to defining the appearance of hydrocarbons in the data; An inventory of direct hydrocarbon indicators, including AVO; Risk rating prospects that display AVO anomalies; Understanding rock properties and the effect of pore filling material; AVO and how it relates to the typical production zones around the world with various ages and depths of burial; Various methods of displaying AVO effects in the seismic data; Acquisition and processing considerations to display hydrocarbons as a pore filling material; Various approaches to seismic modeling and fluid replacement; Rock properties and pore filling material from seismic inversion; Spectral decomposition and seismic attributes as other ways of extracting reservoir information from the seismic image

Fundamental concepts of petrophysics; Depositional systems and petrophysical rock parameters; Nature of porosity and permeability; Basic rock properties; theory and quicklook techniques; Mudlogging; Core analysis, acquisition, interpretation, and quality checks; Theory and basics of resistivity, radioactivity, acoustic tools; LWD/MWD versus open hole logging; Determination of rock types using core and logs; Cased hole logging; Petrophysical impact on economic uncertainty; Evolving petrophysical technologies

Mechanisms for the formation of heavy oil; General phase behavior of hydrocarbons and heavy oil; Properties of heavy oil and rock physics analysis; Geophysical approaches to characterization of heavy oil reservoirs; Measuring and monitoring heavy oil properties; Methods of extraction of heavy oil (CHOPS, SAGD, etc.); Challenges for heavy oil production; Seismic monitoring of hot and cold heavy oil production; Optimization of Canadian heavy oil production through reservoir characterization; Environmental issues; Jeopardy exercises on each of these units

Seismic fundamentals as they relate to defining the appearance of hydrocarbons in the data; An inventory of direct hydrocarbon indicators, including AVO; Risk rating prospects that display AVO anomalies; Understanding rock properties and the effect of pore filling material; AVO and how it relates to the typical production zones around the world with various ages and depths of burial; Various methods of displaying AVO effects in the seismic data; Acquisition and processing considerations to display hydrocarbons as a pore filling material; Various approaches to seismic modeling and fluid replacement; Rock properties and pore filling material from seismic inversion; Spectral decomposition and seismic attributes as other ways of extracting reservoir information from the seismic image

Fundamental concepts of petrophysics; Depositional systems and petrophysical rock parameters; Nature of porosity and permeability; Basic rock properties; theory and quicklook techniques; Mudlogging; Core analysis, acquisition, interpretation, and quality checks; Theory and basics of resistivity, radioactivity, acoustic tools; LWD/MWD versus open hole logging; Determination of rock types using core and logs; Cased hole logging; Petrophysical impact on economic uncertainty; Evolving petrophysical technologies

Mechanisms for the formation of heavy oil; General phase behavior of hydrocarbons and heavy oil; Properties of heavy oil and rock physics analysis; Geophysical approaches to characterization of heavy oil reservoirs; Measuring and monitoring heavy oil properties; Methods of extraction of heavy oil (CHOPS, SAGD, etc.); Challenges for heavy oil production; Seismic monitoring of hot and cold heavy oil production; Optimization of Canadian heavy oil production through reservoir characterization; Environmental issues; Jeopardy exercises on each of these units