This 3 sentence summary provides the essential information from the document:
This certificate certifies that Ibrahim Eldayash successfully completed the SALT Application Tutorial on December 19, 2015 at 3:50 AM Eastern Standard Time.
This document provides information about electrical well logging, including spontaneous potential (SP) and resistivity logs. It discusses what well logging is, the process of wireline logging using measurement sondes lowered into boreholes, and some examples of logging tools. It explains that well logs provide continuous in-situ measurements to determine properties like porosity, lithology, and hydrocarbons. Well logging helps interpret drilling data, extrapolate it between boreholes, and design groundwater systems by providing parameters such as permeability, porosity, and fluid movement.
This document summarizes a presentation on well logging and petrophysical analysis for CO2 storage assessment in the Sabinas Basin in Mexico. It discusses geophysical well logs, petrophysical properties including porosity, clay content, and fluid saturation, and estimates these parameters for a well at 1725 meters. It also briefly outlines the geological structure of formations in the basin based on well and seismic data. The overall purpose is to evaluate potential storage formations and intervals in the Sabinas Basin using well log analysis and petrophysical methods.
The document provides an overview of the key components and processes involved in a petroleum system:
1) Source rocks contain organic matter that generates oil and gas during burial and heating over geological time. 2) Reservoir rocks provide porous space for oil and gas to accumulate. 3) Seal rocks trap hydrocarbons by capping reservoirs and preventing migration. 4) Traps such as folds, faults, or stratigraphic variations create structures that allow hydrocarbons to accumulate. 5) The petroleum system requires all these elements to be present and work together over time for an active system that can lead to commercial oil and gas deposits.
Developments and directions in 3D mapping of mineral systems using geophysicsRichard Lane
(See Geoscience Australia website - https://www.ga.gov.au/products/servlet/controller?event=GEOCAT_DETAILS&catno=70386 ). “Developments and directions in 3D mapping of mineral systems using geophysics” by Richard Lane (Geoscience Australia, richard.lane@ga.gov.au). Presented at “Science at the Surveys” (Melbourne, Victoria, Australia, 22 March 2010). The primary author would like to acknowledge the assistance of many people who have provided material and thoughts for this presentation, with special mention of Richard Chopping, Marina Costelloe, David Hutchinson, Nick Williams, and Lesley Wyborn. This presentation material will be included in a lecture that will be given in various South Pacific locations during 2011 as part of the Society of Exploration Geophysicists “Honorary Lecture Program” sponsored by Shell (http://www.seg.org/).
Geophysical well logging uses sensors located in boreholes to measure physical properties of surrounding rocks as a function of depth. Well logs are used to identify geological formations and fluids, correlate between holes, and evaluate reservoir formations. Common logging methods include electrical resistivity, self-potential, nuclear, acoustic, and thermal measurements. The objective is to determine in situ rock and fluid properties, though drilling disturbs the formation. Effective depth of penetration varies between tools and formations. Well logging aims to identify potential reservoirs by determining porosity, permeability, and fluid contents.
The document discusses the basics of well logging design. It includes an agenda for a one-day course that covers basic logging theory, interpretation, logging program design, and a workshop. The objectives are to familiarize participants with various log measurements, well evaluation strategies, and approaches to well logging design. Key logging topics covered include definitions, history, measurement principles for resistivity, spontaneous potential, gamma ray, density, neutron, and acoustic logs. Interpretation applications and limitations are also discussed.
This document provides an overview of a well logging course, including the course objectives, structure, and assessment criteria. The course aims to provide both theoretical and practical training in well logging through lectures, class projects, and a final exam. Key topics that will be covered include gamma ray logging, potential logging, acoustic logging, density logging, and mud logging. Students will be expected to demonstrate understanding of well logging tools, principles, and applications by the end of the course. Their performance will be evaluated based on participation, projects, and a closed-book final exam.
This document provides information about electrical well logging, including spontaneous potential (SP) and resistivity logs. It discusses what well logging is, the process of wireline logging using measurement sondes lowered into boreholes, and some examples of logging tools. It explains that well logs provide continuous in-situ measurements to determine properties like porosity, lithology, and hydrocarbons. Well logging helps interpret drilling data, extrapolate it between boreholes, and design groundwater systems by providing parameters such as permeability, porosity, and fluid movement.
This document summarizes a presentation on well logging and petrophysical analysis for CO2 storage assessment in the Sabinas Basin in Mexico. It discusses geophysical well logs, petrophysical properties including porosity, clay content, and fluid saturation, and estimates these parameters for a well at 1725 meters. It also briefly outlines the geological structure of formations in the basin based on well and seismic data. The overall purpose is to evaluate potential storage formations and intervals in the Sabinas Basin using well log analysis and petrophysical methods.
The document provides an overview of the key components and processes involved in a petroleum system:
1) Source rocks contain organic matter that generates oil and gas during burial and heating over geological time. 2) Reservoir rocks provide porous space for oil and gas to accumulate. 3) Seal rocks trap hydrocarbons by capping reservoirs and preventing migration. 4) Traps such as folds, faults, or stratigraphic variations create structures that allow hydrocarbons to accumulate. 5) The petroleum system requires all these elements to be present and work together over time for an active system that can lead to commercial oil and gas deposits.
Developments and directions in 3D mapping of mineral systems using geophysicsRichard Lane
(See Geoscience Australia website - https://www.ga.gov.au/products/servlet/controller?event=GEOCAT_DETAILS&catno=70386 ). “Developments and directions in 3D mapping of mineral systems using geophysics” by Richard Lane (Geoscience Australia, richard.lane@ga.gov.au). Presented at “Science at the Surveys” (Melbourne, Victoria, Australia, 22 March 2010). The primary author would like to acknowledge the assistance of many people who have provided material and thoughts for this presentation, with special mention of Richard Chopping, Marina Costelloe, David Hutchinson, Nick Williams, and Lesley Wyborn. This presentation material will be included in a lecture that will be given in various South Pacific locations during 2011 as part of the Society of Exploration Geophysicists “Honorary Lecture Program” sponsored by Shell (http://www.seg.org/).
Geophysical well logging uses sensors located in boreholes to measure physical properties of surrounding rocks as a function of depth. Well logs are used to identify geological formations and fluids, correlate between holes, and evaluate reservoir formations. Common logging methods include electrical resistivity, self-potential, nuclear, acoustic, and thermal measurements. The objective is to determine in situ rock and fluid properties, though drilling disturbs the formation. Effective depth of penetration varies between tools and formations. Well logging aims to identify potential reservoirs by determining porosity, permeability, and fluid contents.
The document discusses the basics of well logging design. It includes an agenda for a one-day course that covers basic logging theory, interpretation, logging program design, and a workshop. The objectives are to familiarize participants with various log measurements, well evaluation strategies, and approaches to well logging design. Key logging topics covered include definitions, history, measurement principles for resistivity, spontaneous potential, gamma ray, density, neutron, and acoustic logs. Interpretation applications and limitations are also discussed.
This document provides an overview of a well logging course, including the course objectives, structure, and assessment criteria. The course aims to provide both theoretical and practical training in well logging through lectures, class projects, and a final exam. Key topics that will be covered include gamma ray logging, potential logging, acoustic logging, density logging, and mud logging. Students will be expected to demonstrate understanding of well logging tools, principles, and applications by the end of the course. Their performance will be evaluated based on participation, projects, and a closed-book final exam.
This certificate certifies that Ibrahim Eldayash successfully completed the course "Leading Teams: Dealing with Conflict" on February 24, 2016 at 4:45 AM Eastern Standard Time.
This certificate certifies that Ibrahim Eldayash successfully completed the Leadership Essentials: Building Your Influence as a Leader course on March 18, 2016 at 11:51 AM Eastern Standard Time.
Ibrahim Eldayash completed the Hilton Make it Right eLearning - Food & Beverage course on January 1st, 2016 at 8:38 AM Eastern Standard Time. The certificate certifies that Ibrahim Eldayash successfully finished the Food & Beverage training provided by Hilton.
This certificate certifies that Ibrahim Eldayash successfully completed an online course called "Hilton HHonors: Introduction & Program Overview—The Power of Loyalty" on December 19, 2015 at 5:55 AM Eastern Standard Time.
Ibrahim Eldayash has received a Certificate of Completion for successfully completing Hilton Room Service training on December 22, 2015 at 4:49 AM Eastern Standard Time.
This certificate certifies that Ibrahim Eldayash successfully completed a Hilton HHonors training course called "Introduction & Program Overview—HHonor Every Guest" on December 19, 2015 at 7:06 AM Eastern Standard Time.
This certificate certifies that Ibrahim Eldayash successfully completed the HGV_Conflicts of Interest 2015 training course on December 19, 2015 at 8:05 AM Eastern Standard Time.
This certificate certifies that Ibrahim Eldayash successfully completed the program "Dedicated to Excellence" on December 21, 2015 at 6:00 AM Eastern Standard Time.
This certificate certifies that Ibrahim Eldayash successfully completed a CRM Day in the Life course on December 18, 2015 at 10:10 AM Eastern Standard Time.
Conflicts of Interest and Business Courtesies Trainingibrahim Eldayash
This certificate certifies that Ibrahim Eldayash successfully completed part 1 of a 2 part training on Conflicts of Interest and Business Courtesies. The training was completed on December 19, 2015 at 7:32 AM Eastern Standard Time.
This certificate certifies that Ibrahim Eldayash successfully completed a Code of Conduct Policy training in April 2015. He completed 2 out of the 2 required modules on December 19, 2015 at 8:05 AM Eastern Standard Time.
2015 Global Sales Leadership Incentive Plan Acknowledgementibrahim Eldayash
This 3 sentence summary provides the essential information from the document:
This certificate certifies that Ibrahim Eldayash successfully completed the 2015 Global Sales Leadership Incentive Plan Acknowledgement on December 21, 2015 at 8:40 AM Eastern Standard Time.
3 of 3 - 2015 Information Security & Privacy Awareness Trainingibrahim Eldayash
This certificate certifies that Ibrahim Eldayash successfully completed 3 of 3 information security and privacy awareness training modules on December 17, 2015 at 12:11 PM Eastern Standard Time.
This certificate certifies that Ibrahim Eldayash successfully completed the course "Leadership Essentials: Creating Your Own Leadership Development Plan" on December 21, 2015 at 7:44 AM Eastern Standard Time.
This certificate certifies that Ibrahim Eldayash successfully completed the course "Leading Teams: Dealing with Conflict" on February 24, 2016 at 4:45 AM Eastern Standard Time.
This certificate certifies that Ibrahim Eldayash successfully completed the Leadership Essentials: Building Your Influence as a Leader course on March 18, 2016 at 11:51 AM Eastern Standard Time.
Ibrahim Eldayash completed the Hilton Make it Right eLearning - Food & Beverage course on January 1st, 2016 at 8:38 AM Eastern Standard Time. The certificate certifies that Ibrahim Eldayash successfully finished the Food & Beverage training provided by Hilton.
This certificate certifies that Ibrahim Eldayash successfully completed an online course called "Hilton HHonors: Introduction & Program Overview—The Power of Loyalty" on December 19, 2015 at 5:55 AM Eastern Standard Time.
Ibrahim Eldayash has received a Certificate of Completion for successfully completing Hilton Room Service training on December 22, 2015 at 4:49 AM Eastern Standard Time.
This certificate certifies that Ibrahim Eldayash successfully completed a Hilton HHonors training course called "Introduction & Program Overview—HHonor Every Guest" on December 19, 2015 at 7:06 AM Eastern Standard Time.
This certificate certifies that Ibrahim Eldayash successfully completed the HGV_Conflicts of Interest 2015 training course on December 19, 2015 at 8:05 AM Eastern Standard Time.
This certificate certifies that Ibrahim Eldayash successfully completed the program "Dedicated to Excellence" on December 21, 2015 at 6:00 AM Eastern Standard Time.
This certificate certifies that Ibrahim Eldayash successfully completed a CRM Day in the Life course on December 18, 2015 at 10:10 AM Eastern Standard Time.
Conflicts of Interest and Business Courtesies Trainingibrahim Eldayash
This certificate certifies that Ibrahim Eldayash successfully completed part 1 of a 2 part training on Conflicts of Interest and Business Courtesies. The training was completed on December 19, 2015 at 7:32 AM Eastern Standard Time.
This certificate certifies that Ibrahim Eldayash successfully completed a Code of Conduct Policy training in April 2015. He completed 2 out of the 2 required modules on December 19, 2015 at 8:05 AM Eastern Standard Time.
2015 Global Sales Leadership Incentive Plan Acknowledgementibrahim Eldayash
This 3 sentence summary provides the essential information from the document:
This certificate certifies that Ibrahim Eldayash successfully completed the 2015 Global Sales Leadership Incentive Plan Acknowledgement on December 21, 2015 at 8:40 AM Eastern Standard Time.
3 of 3 - 2015 Information Security & Privacy Awareness Trainingibrahim Eldayash
This certificate certifies that Ibrahim Eldayash successfully completed 3 of 3 information security and privacy awareness training modules on December 17, 2015 at 12:11 PM Eastern Standard Time.
This certificate certifies that Ibrahim Eldayash successfully completed the course "Leadership Essentials: Creating Your Own Leadership Development Plan" on December 21, 2015 at 7:44 AM Eastern Standard Time.
1. Certificate of Completion
This certifies that
Ibrahim Eldayash
Has successfully completed
SALT Application Tutorial
Completed on 12/19/2015 03:50 AM Eastern Standard Time