- MohamedNour El-Din Ragab Helmy is a senior petrophysicist with over 20 years of experience in the oil and gas industry. He currently works as a senior petrophysicist for Shell Canada.
- He has held petrophysics roles with several companies including Sproule, British Gas, and Petroleum Development Oman.
- He has extensive experience acquiring, analyzing, and interpreting wireline logs, borehole images, core data, and other formation evaluation tools to characterize reservoirs and provide petrophysical inputs.
43 international collaboration skb ebs task force overview jove-colon sand2...leann_mays
This document summarizes work being done by the SKB Task Force related to modeling the engineered barrier system for a spent nuclear fuel repository. It discusses several tasks focused on thermomechanical modeling of bentonite clay buffer and backfill material using data from experiments at the Äspö Hard Rock Laboratory. The tasks aim to improve understanding and modeling of bentonite clay homogenization, water transport, gas transport, and the bentonite-rock interface using benchmarks from experiments. The ultimate goal is to better predict the long-term behavior of buffer/backfill materials under normal and abnormal conditions.
07 international collaboration activities in disposal r and d relevance to r ...leann_mays
1) The document discusses DOE's participation in various international R&D collaborations related to nuclear waste disposal, including projects in Switzerland, Sweden, Germany, China, and other countries.
2) These collaborations support the GDSA program by furthering scientific understanding of key disposal processes, improving process models, and providing data to validate GDSA models.
3) Specific collaborations discussed include the Mont Terri project, DECOVALEX, SKB task forces, and a planned HotBENT project, with details provided on how they contribute to modeling and understanding disposal system behavior.
10 sfwst – disposal in argillite r&d barrier material degradation and int...leann_mays
The document summarizes research being conducted by Sandia National Laboratories and Los Alamos National Laboratories on disposal of nuclear waste in deep geologic repositories. It discusses several modeling and experimental efforts, including reactive transport modeling to study the effects of decay heat on engineered barrier systems, clay interaction experiments to understand clay-metal interactions during corrosion of waste packages, and international collaborations on projects like FEBEX-DP to characterize the bentonite-concrete interface using X-ray computed tomography. It also summarizes preliminary thermodynamic modeling of steel corrosion and reactive transport modeling of the Closure Test Drift to simulate cement-water interactions.
Dr. Zbigniew E. Ring is a Lead Principal Engineer at BP North America, where he leads projects involving measurement and prediction of adsorption constants, modeling of experimental hydrotreating data, and improving models for predicting conversions accounting for nitrogen in feedstocks. He previously held leadership roles developing residue hydrocracking technologies and managing research on upgrading Canadian bitumen-derived streams. Dr. Ring has over 30 years of experience in hydroprocessing research, process development, and mathematical modeling.
Jeb Tyrie is an accomplished reservoir engineer with over 30 years of experience working on field development projects around the world. He has led multi-disciplinary teams in reservoir simulation, asset management, and negotiating acquisitions and divestments of oil and gas assets. In addition to his technical expertise, Jeb is known for his ability to build relationships across disciplines to deliver projects. He currently works as an independent consultant through his company, Apec Ltd.
27 task f fluid inclusion and movement in tight rocks wang sand2017-4132 pe...leann_mays
Sandia National Laboratories researched fluid inclusion and movement in tight rocks. They used modeling and experiments to understand how fluid inclusions migrate under thermal gradients and how their shape and movement are affected by factors like inclusion size, thermal gradient, solubility, and permeability of the surrounding rock. Their goal is to better understand how fluids can move even in very tight rocks and how this movement may impact issues like waste isolation.
Hesham Mokhtar is a Reservoir Engineer with over 2 years of experience at General Petroleum Company in Egypt. He holds an MSc in Petroleum Reservoir Engineering from Cairo University. His responsibilities include performing reservoir evaluations, well testing, production forecasting, enhanced oil recovery analysis, and building dynamic reservoir simulation models. He is fluent in English and Arabic with basic French skills and has experience working in multi-disciplinary teams.
43 international collaboration skb ebs task force overview jove-colon sand2...leann_mays
This document summarizes work being done by the SKB Task Force related to modeling the engineered barrier system for a spent nuclear fuel repository. It discusses several tasks focused on thermomechanical modeling of bentonite clay buffer and backfill material using data from experiments at the Äspö Hard Rock Laboratory. The tasks aim to improve understanding and modeling of bentonite clay homogenization, water transport, gas transport, and the bentonite-rock interface using benchmarks from experiments. The ultimate goal is to better predict the long-term behavior of buffer/backfill materials under normal and abnormal conditions.
07 international collaboration activities in disposal r and d relevance to r ...leann_mays
1) The document discusses DOE's participation in various international R&D collaborations related to nuclear waste disposal, including projects in Switzerland, Sweden, Germany, China, and other countries.
2) These collaborations support the GDSA program by furthering scientific understanding of key disposal processes, improving process models, and providing data to validate GDSA models.
3) Specific collaborations discussed include the Mont Terri project, DECOVALEX, SKB task forces, and a planned HotBENT project, with details provided on how they contribute to modeling and understanding disposal system behavior.
10 sfwst – disposal in argillite r&d barrier material degradation and int...leann_mays
The document summarizes research being conducted by Sandia National Laboratories and Los Alamos National Laboratories on disposal of nuclear waste in deep geologic repositories. It discusses several modeling and experimental efforts, including reactive transport modeling to study the effects of decay heat on engineered barrier systems, clay interaction experiments to understand clay-metal interactions during corrosion of waste packages, and international collaborations on projects like FEBEX-DP to characterize the bentonite-concrete interface using X-ray computed tomography. It also summarizes preliminary thermodynamic modeling of steel corrosion and reactive transport modeling of the Closure Test Drift to simulate cement-water interactions.
Dr. Zbigniew E. Ring is a Lead Principal Engineer at BP North America, where he leads projects involving measurement and prediction of adsorption constants, modeling of experimental hydrotreating data, and improving models for predicting conversions accounting for nitrogen in feedstocks. He previously held leadership roles developing residue hydrocracking technologies and managing research on upgrading Canadian bitumen-derived streams. Dr. Ring has over 30 years of experience in hydroprocessing research, process development, and mathematical modeling.
Jeb Tyrie is an accomplished reservoir engineer with over 30 years of experience working on field development projects around the world. He has led multi-disciplinary teams in reservoir simulation, asset management, and negotiating acquisitions and divestments of oil and gas assets. In addition to his technical expertise, Jeb is known for his ability to build relationships across disciplines to deliver projects. He currently works as an independent consultant through his company, Apec Ltd.
27 task f fluid inclusion and movement in tight rocks wang sand2017-4132 pe...leann_mays
Sandia National Laboratories researched fluid inclusion and movement in tight rocks. They used modeling and experiments to understand how fluid inclusions migrate under thermal gradients and how their shape and movement are affected by factors like inclusion size, thermal gradient, solubility, and permeability of the surrounding rock. Their goal is to better understand how fluids can move even in very tight rocks and how this movement may impact issues like waste isolation.
Hesham Mokhtar is a Reservoir Engineer with over 2 years of experience at General Petroleum Company in Egypt. He holds an MSc in Petroleum Reservoir Engineering from Cairo University. His responsibilities include performing reservoir evaluations, well testing, production forecasting, enhanced oil recovery analysis, and building dynamic reservoir simulation models. He is fluent in English and Arabic with basic French skills and has experience working in multi-disciplinary teams.
The document summarizes work related to corrosion of spent nuclear fuel canisters. It discusses experiments conducted at Sandia National Laboratories to study stress corrosion cracking of the canisters, including studies of brine stability, pitting damage quantification and the pit-to-crack transition process. It also outlines planned work for fiscal year 2018, including continued coupon tests under simulated storage conditions and microelectrochemical mapping of stressed samples to study the effects of stress on corrosion susceptibility.
The document provides details on Peter Bartlett's 30 years of experience as a Materials and Corrosion Engineer and Consultant, including 25 years in technical management roles. It outlines his expertise in material selection, corrosion management, and integrity management across various industries such as oil and gas, infrastructure, and water. Key projects listed include work for ExxonMobil, Woodside, Santos, WorleyParsons, and various international clients.
Gilles D. Bourgeois is an oil and gas reservoir manager, production technologist, and petrophysicist with over 30 years of experience. He has held leadership roles managing assets and teams for companies including Maersk Oil, OMV Petrom, Shell, Santos, and Woodside. His expertise includes reservoir surveillance, recovery optimization, and mitigating risk through competent data analysis to maximize asset value safely.
Michael Royle is a Principal Hydrogeologist with over 25 years of experience in mining and hydrogeology projects across multiple continents. He has expertise in mining hydrogeology, mine closure, dewatering, groundwater monitoring, and working in challenging conditions like permafrost. Notable projects include hydrogeological programs for the Wheeler River, Century, Finsch, and Kinsevere mines. Michael has also led many mine closure projects in northern Canada involving the design of groundwater monitoring systems and remediation plans.
Cardno provides borehole geophysical logging services to characterize subsurface conditions for clients in industries including oil and gas, mining, environmental, geotechnical, and hydrogeology. They have a large fleet of state-of-the-art geophysical logging equipment and use logging suites tailored to each application. Logs are generated digitally and can be used immediately or stored and re-plotted later. Case studies demonstrate how their services provided critical data on groundwater flow pathways to guide remediation and on rock mass properties to plan for mine development.
Lake Shore Gold Corp. provides information on its annual general and special meeting, including forward-looking statements about expected production levels, costs, and business plans for 2013 and 2014. It discusses its key assets that provide a foundation - the Timmins West and Bell Creek mines. The Timmins West mine is described as having over 1.6 million ounces of gold resources at a grade of 5.5 g/t, with opportunities for exploration and resource expansion. The Bell Creek mine currently supports over 20,000 ounces of gold production per year. Lake Shore Gold's strategy is focused on delivering value by generating net free cash flow.
This document summarizes Halliburton's new PermStim fracturing fluid system and its use by Magnum Hunter Resources in the Eagle Ford shale formation. Key points:
- PermStim fluid is based on a derivatized natural polymer rather than guar and leaves no insoluble residue to improve well performance
- In its first use, the fluid helped Magnum Hunter achieve above-average initial production from its Moose Hunter 1H well in the Eagle Ford
- Laboratory tests showed the PermStim fluid provided much higher permeability than guar-based fluids, indicating improved cleanup
- The fluid has now been used successfully in over 102 wells across various basins at temperatures up to 300°F
This document discusses using elastic inversion data from 4D seismic surveys to improve reservoir modeling and enhanced oil recovery (EOR) efforts. It presents a workflow for integrating inversion data, well logs, and reservoir simulation models. Inversion data provides acoustic impedance and Poisson's ratio volumes that can be used with well logs to predict lithology and fluids. The resulting "lithology cube" maps properties like porosity, saturation, and lithology over time. The goal is to populate reservoir simulation grids with seismic-derived properties to compare models to 4D observations and improve EOR. The methodology aims to close the loop between seismic data, reservoir properties, and simulation models to optimize reservoir management and recovery.
This document provides an overview of Lake Shore Gold Corp., a gold mining company with producing assets in Timmins, Ontario. It summarizes the company's recent achievements in 2013, including record production, mill expansion completion, and meeting long-term cost targets. Production details for Q3 2013 and October are given for the Timmins West and Bell Creek mines. The document also outlines the company's investment highlights, growth projects, and guidance for 2014 production and costs.
25 decovalex 2019 geochemical and reactive transport evaluations with relevan...leann_mays
The document summarizes work evaluating geochemical trends in groundwater data from the GREET field experiment in Japan. It describes analyzing groundwater chemistry data from monitoring borehole MSB-2 to explore fluid mixing using geochemical modeling. EQ3/6 simulations of dilution and mixing of waters from Zones 1 and 7 of MSB-2 reproduced observed calcium and sulfate trends. The document also details planned 1D reactive transport modeling using PFLOTRAN of the Closure Test Drift to simulate the effects of cement interactions on porewater chemistry.
The document discusses injectivity decline in water injectors. It provides an overview of the main mechanisms of impairment, including solids deposition, water quality issues, and reservoir/well factors. It also discusses options for monitoring injector health, such as pressure-transient analysis, and interventions like back-flushing or re-fracturing to restore injectivity. The key messages are that impairment is complex with multiple causes, but also predictable; mitigation strategies exist but may not always be economically viable; and proper planning, surveillance and considering multiple factors are important for project success.
17 laboratory testing approach for intermediate scale borehole heater test mi...leann_mays
Sandia National Laboratories is preparing to conduct laboratory testing and analysis related to an intermediate scale borehole heater test. The testing will involve analyzing rock core samples, gases, and brines before, during, and after the test to observe the effects of heating. Specific analyses will include measuring core properties like porosity and pore size, as well as analyzing gas and brine compositions through techniques like gas chromatography, ion chromatography, and ICP-MS. Preliminary brine analysis of three samples found them to have a Na-Mg-Cl composition typical of WIPP brines. The laboratory work aims to provide detailed data on material interactions and micro-mechanical processes during heating to inform long-term repository performance.
The document lists 28 projects completed by GCGC (Gulf Center for Geophysical and Water Consulting) between February 2016 and April 2012. The projects involved geophysical surveys and site investigations for water exploration, cavity detection, foundation engineering, and geological/hydrogeological modeling. Methods used included borehole drilling, seismic surveys, electrical resistivity tomography, ground penetrating radar and more. The document provides brief descriptions of each project's purpose, client, and timeframe.
Commerce Resources Corp. (TSXv: CCE) announces that the flotation mini-plany is underway using bulk sample material from the company's 100% owned Ashram Rare Earth Deposit in northern Quebec.
This document is a resume for Mark Koenig detailing his experience as a project manager and pipeline engineer. Over his career, Koenig has worked on numerous pipeline and infrastructure projects involving engineering, design, permitting, and construction. His experience includes work on pipeline and facility projects for companies such as VITOL, Coastal Caverns Inc., Chevron, Yellow Fin Pipeline, PG&E, Shell Oil, and Jacobs Engineering. Koenig has specialized expertise in pipeline design, horizontal directional drilling, stress analysis, and the use of related engineering software.
SRK provides underground mining expertise and services to optimize project value. They utilize an innovative planning methodology to select the appropriate mining method based on deposit characteristics and client goals. This methodology focuses on understanding the complete mining context to establish a robust plan. Case studies describe projects where SRK assisted with feasibility studies, mine planning, transition from open pit to underground, and evaluating mining methods to minimize risks and costs. SRK's services include ventilation design, backfill analysis, cost modeling, life-of-mine planning, and geotechnical analysis.
Commerce Resources has initiated the second phase of a pilot plant for its Ashram Rare Earth Deposit, which involves leaching bulk flotation concentrate from the first phase. The objective is to demonstrate the leach process on a continuous basis and evaluate performance. Samples will be collected for further analysis. Previous leach testwork has simplified the process by requiring only a minor pH adjustment. The leach residue will feed a subsequent magnetic separation pilot plant to produce high-grade mineral concentrate for downstream processing. Testwork on the magnetic separation has produced mineral concentrates grading 39% and 54% TREO at recovery rates of 85% and 46%, respectively.
Edward Byrne has over 40 years of experience in project management and engineering roles. He has managed numerous mining and processing projects in Africa, Australia, Russia, and Germany valued between $10 million to $625 million. Byrne's experience includes managing conveying systems, gold and platinum processing plants, water treatment facilities, and serving as the Head of Project Management for a large engineering firm.
04 computational thermo mechanics of crystalline rock salt for nuclear waste ...leann_mays
This document summarizes the work of Dr. Steve Sun and his research group on computational modeling of thermo-mechanics in crystalline rock salt for nuclear waste disposal. Their work involves developing multi-scale and multi-physics models to predict the thermo-hydro-mechanical-chemical responses of salt subjected to moisture and stress. At the grain-scale, they use crystal plasticity simulations. At the aggregate scale, they model effects like grain boundary fracture. They also use computational homogenization and machine learning to develop data-driven models to predict field-scale responses while accounting for phenomena at lower scales. Their goal is to predict long-term behavior of salt-based nuclear waste repositories from first principles using a hierarchical multi-scale
The Society of Petroleum Engineers Distinguished Lecturer Program provides funding through member donations and industry support to bring expert lecturers to discuss emerging topics. This lecture discusses how big data analytics can help petroleum engineers and geoscientists reduce costs, improve productivity and efficiency by analyzing large datasets to find patterns and relationships. Case studies demonstrate applications in reservoir modeling, production optimization, and predictive maintenance.
Sami Rassas is a senior reservoir geologist and geomodeller with over 26 years of experience in oil and gas exploration and production. He has extensive experience building complex 3D reservoir models integrating multiple data sources and assessing uncertainties. He has strong leadership, communication, and mentoring skills and experience managing multi-disciplinary teams on major projects.
Hesham Mokhtar Ali is a reservoir engineer with over 5 years of experience in Egypt. He received his MSc in Petroleum Reservoir Engineering from Cairo University. Currently he works for General Petroleum Company as a junior reservoir engineer, where his responsibilities include reservoir evaluations, well testing, simulation modeling, and production forecasting. He is proficient in reservoir software like Petrel, Eclipse, and Techlog and seeks to contribute to a company's growth through his technical and interpersonal skills.
The document summarizes work related to corrosion of spent nuclear fuel canisters. It discusses experiments conducted at Sandia National Laboratories to study stress corrosion cracking of the canisters, including studies of brine stability, pitting damage quantification and the pit-to-crack transition process. It also outlines planned work for fiscal year 2018, including continued coupon tests under simulated storage conditions and microelectrochemical mapping of stressed samples to study the effects of stress on corrosion susceptibility.
The document provides details on Peter Bartlett's 30 years of experience as a Materials and Corrosion Engineer and Consultant, including 25 years in technical management roles. It outlines his expertise in material selection, corrosion management, and integrity management across various industries such as oil and gas, infrastructure, and water. Key projects listed include work for ExxonMobil, Woodside, Santos, WorleyParsons, and various international clients.
Gilles D. Bourgeois is an oil and gas reservoir manager, production technologist, and petrophysicist with over 30 years of experience. He has held leadership roles managing assets and teams for companies including Maersk Oil, OMV Petrom, Shell, Santos, and Woodside. His expertise includes reservoir surveillance, recovery optimization, and mitigating risk through competent data analysis to maximize asset value safely.
Michael Royle is a Principal Hydrogeologist with over 25 years of experience in mining and hydrogeology projects across multiple continents. He has expertise in mining hydrogeology, mine closure, dewatering, groundwater monitoring, and working in challenging conditions like permafrost. Notable projects include hydrogeological programs for the Wheeler River, Century, Finsch, and Kinsevere mines. Michael has also led many mine closure projects in northern Canada involving the design of groundwater monitoring systems and remediation plans.
Cardno provides borehole geophysical logging services to characterize subsurface conditions for clients in industries including oil and gas, mining, environmental, geotechnical, and hydrogeology. They have a large fleet of state-of-the-art geophysical logging equipment and use logging suites tailored to each application. Logs are generated digitally and can be used immediately or stored and re-plotted later. Case studies demonstrate how their services provided critical data on groundwater flow pathways to guide remediation and on rock mass properties to plan for mine development.
Lake Shore Gold Corp. provides information on its annual general and special meeting, including forward-looking statements about expected production levels, costs, and business plans for 2013 and 2014. It discusses its key assets that provide a foundation - the Timmins West and Bell Creek mines. The Timmins West mine is described as having over 1.6 million ounces of gold resources at a grade of 5.5 g/t, with opportunities for exploration and resource expansion. The Bell Creek mine currently supports over 20,000 ounces of gold production per year. Lake Shore Gold's strategy is focused on delivering value by generating net free cash flow.
This document summarizes Halliburton's new PermStim fracturing fluid system and its use by Magnum Hunter Resources in the Eagle Ford shale formation. Key points:
- PermStim fluid is based on a derivatized natural polymer rather than guar and leaves no insoluble residue to improve well performance
- In its first use, the fluid helped Magnum Hunter achieve above-average initial production from its Moose Hunter 1H well in the Eagle Ford
- Laboratory tests showed the PermStim fluid provided much higher permeability than guar-based fluids, indicating improved cleanup
- The fluid has now been used successfully in over 102 wells across various basins at temperatures up to 300°F
This document discusses using elastic inversion data from 4D seismic surveys to improve reservoir modeling and enhanced oil recovery (EOR) efforts. It presents a workflow for integrating inversion data, well logs, and reservoir simulation models. Inversion data provides acoustic impedance and Poisson's ratio volumes that can be used with well logs to predict lithology and fluids. The resulting "lithology cube" maps properties like porosity, saturation, and lithology over time. The goal is to populate reservoir simulation grids with seismic-derived properties to compare models to 4D observations and improve EOR. The methodology aims to close the loop between seismic data, reservoir properties, and simulation models to optimize reservoir management and recovery.
This document provides an overview of Lake Shore Gold Corp., a gold mining company with producing assets in Timmins, Ontario. It summarizes the company's recent achievements in 2013, including record production, mill expansion completion, and meeting long-term cost targets. Production details for Q3 2013 and October are given for the Timmins West and Bell Creek mines. The document also outlines the company's investment highlights, growth projects, and guidance for 2014 production and costs.
25 decovalex 2019 geochemical and reactive transport evaluations with relevan...leann_mays
The document summarizes work evaluating geochemical trends in groundwater data from the GREET field experiment in Japan. It describes analyzing groundwater chemistry data from monitoring borehole MSB-2 to explore fluid mixing using geochemical modeling. EQ3/6 simulations of dilution and mixing of waters from Zones 1 and 7 of MSB-2 reproduced observed calcium and sulfate trends. The document also details planned 1D reactive transport modeling using PFLOTRAN of the Closure Test Drift to simulate the effects of cement interactions on porewater chemistry.
The document discusses injectivity decline in water injectors. It provides an overview of the main mechanisms of impairment, including solids deposition, water quality issues, and reservoir/well factors. It also discusses options for monitoring injector health, such as pressure-transient analysis, and interventions like back-flushing or re-fracturing to restore injectivity. The key messages are that impairment is complex with multiple causes, but also predictable; mitigation strategies exist but may not always be economically viable; and proper planning, surveillance and considering multiple factors are important for project success.
17 laboratory testing approach for intermediate scale borehole heater test mi...leann_mays
Sandia National Laboratories is preparing to conduct laboratory testing and analysis related to an intermediate scale borehole heater test. The testing will involve analyzing rock core samples, gases, and brines before, during, and after the test to observe the effects of heating. Specific analyses will include measuring core properties like porosity and pore size, as well as analyzing gas and brine compositions through techniques like gas chromatography, ion chromatography, and ICP-MS. Preliminary brine analysis of three samples found them to have a Na-Mg-Cl composition typical of WIPP brines. The laboratory work aims to provide detailed data on material interactions and micro-mechanical processes during heating to inform long-term repository performance.
The document lists 28 projects completed by GCGC (Gulf Center for Geophysical and Water Consulting) between February 2016 and April 2012. The projects involved geophysical surveys and site investigations for water exploration, cavity detection, foundation engineering, and geological/hydrogeological modeling. Methods used included borehole drilling, seismic surveys, electrical resistivity tomography, ground penetrating radar and more. The document provides brief descriptions of each project's purpose, client, and timeframe.
Commerce Resources Corp. (TSXv: CCE) announces that the flotation mini-plany is underway using bulk sample material from the company's 100% owned Ashram Rare Earth Deposit in northern Quebec.
This document is a resume for Mark Koenig detailing his experience as a project manager and pipeline engineer. Over his career, Koenig has worked on numerous pipeline and infrastructure projects involving engineering, design, permitting, and construction. His experience includes work on pipeline and facility projects for companies such as VITOL, Coastal Caverns Inc., Chevron, Yellow Fin Pipeline, PG&E, Shell Oil, and Jacobs Engineering. Koenig has specialized expertise in pipeline design, horizontal directional drilling, stress analysis, and the use of related engineering software.
SRK provides underground mining expertise and services to optimize project value. They utilize an innovative planning methodology to select the appropriate mining method based on deposit characteristics and client goals. This methodology focuses on understanding the complete mining context to establish a robust plan. Case studies describe projects where SRK assisted with feasibility studies, mine planning, transition from open pit to underground, and evaluating mining methods to minimize risks and costs. SRK's services include ventilation design, backfill analysis, cost modeling, life-of-mine planning, and geotechnical analysis.
Commerce Resources has initiated the second phase of a pilot plant for its Ashram Rare Earth Deposit, which involves leaching bulk flotation concentrate from the first phase. The objective is to demonstrate the leach process on a continuous basis and evaluate performance. Samples will be collected for further analysis. Previous leach testwork has simplified the process by requiring only a minor pH adjustment. The leach residue will feed a subsequent magnetic separation pilot plant to produce high-grade mineral concentrate for downstream processing. Testwork on the magnetic separation has produced mineral concentrates grading 39% and 54% TREO at recovery rates of 85% and 46%, respectively.
Edward Byrne has over 40 years of experience in project management and engineering roles. He has managed numerous mining and processing projects in Africa, Australia, Russia, and Germany valued between $10 million to $625 million. Byrne's experience includes managing conveying systems, gold and platinum processing plants, water treatment facilities, and serving as the Head of Project Management for a large engineering firm.
04 computational thermo mechanics of crystalline rock salt for nuclear waste ...leann_mays
This document summarizes the work of Dr. Steve Sun and his research group on computational modeling of thermo-mechanics in crystalline rock salt for nuclear waste disposal. Their work involves developing multi-scale and multi-physics models to predict the thermo-hydro-mechanical-chemical responses of salt subjected to moisture and stress. At the grain-scale, they use crystal plasticity simulations. At the aggregate scale, they model effects like grain boundary fracture. They also use computational homogenization and machine learning to develop data-driven models to predict field-scale responses while accounting for phenomena at lower scales. Their goal is to predict long-term behavior of salt-based nuclear waste repositories from first principles using a hierarchical multi-scale
The Society of Petroleum Engineers Distinguished Lecturer Program provides funding through member donations and industry support to bring expert lecturers to discuss emerging topics. This lecture discusses how big data analytics can help petroleum engineers and geoscientists reduce costs, improve productivity and efficiency by analyzing large datasets to find patterns and relationships. Case studies demonstrate applications in reservoir modeling, production optimization, and predictive maintenance.
Sami Rassas is a senior reservoir geologist and geomodeller with over 26 years of experience in oil and gas exploration and production. He has extensive experience building complex 3D reservoir models integrating multiple data sources and assessing uncertainties. He has strong leadership, communication, and mentoring skills and experience managing multi-disciplinary teams on major projects.
Hesham Mokhtar Ali is a reservoir engineer with over 5 years of experience in Egypt. He received his MSc in Petroleum Reservoir Engineering from Cairo University. Currently he works for General Petroleum Company as a junior reservoir engineer, where his responsibilities include reservoir evaluations, well testing, simulation modeling, and production forecasting. He is proficient in reservoir software like Petrel, Eclipse, and Techlog and seeks to contribute to a company's growth through his technical and interpersonal skills.
Saurabh Saksena has over 15 years of experience in the oil and gas industry working in roles involving reservoir characterization, petrophysics, and geoscience analysis. He has worked for BHP Billiton for the past 3 years as a senior geoscience analyst and has also worked for Weatherford International and as an implementation consultant. He is proficient in various geoscience applications and well logging concepts.
This document contains the resume of Joseph Z. Bracic, who has over 30 years of experience as a petroleum engineer working on completion, production, artificial lift, and reservoir engineering projects around the world. It lists his employment history with companies like Hess Corporation, SGS, Apex, and Arabian Gulf Oil Company (AGOC), and describes his responsibilities and achievements in areas like well completions, stimulation, sand control, artificial lift, flow assurance, and reservoir management. The resume is intended to qualify Mr. Bracic for consultant roles providing expertise in multiple domains of petroleum engineering.
Hesham Mokhtar is a petroleum/reservoir engineer currently working for General Petroleum Company in Egypt. He has a M.Sc. in Petroleum Reservoir Engineering from Cairo University and over 2 years of experience performing reservoir evaluations, production forecasting, and building dynamic reservoir simulation models. His responsibilities include well testing, permeability analysis, and recommending enhanced oil recovery methods. He is proficient in reservoir modeling software like Petrel and Eclipse and aims to contribute to his company's growth through technical expertise and strong communication skills.
Kelvin Soice has over 20 years of experience as a seismic data processor for Schlumberger Technology/WesternGeco Resources. He has extensive experience processing both land and marine seismic data from initial quality control through final migration and delivery for projects in North America, South America, Africa, Europe, and Asia. His skills include using Omega, Petrel, and other processing software to perform tasks like geometry handling, noise attenuation, velocity modeling, and final output generation while meeting client needs. He also contributes to software testing and workflow development.
- Atef Farouk Abdelaal has over 18 years of experience in the petroleum industry, including positions as Senior Petrophysicist and Project Leader at ADCO in Abu Dhabi.
- He has expertise in petrophysics, reservoir modeling, and managing studies of undeveloped oil reservoirs across the Middle East and North Africa.
- Currently he is the Acting Study Manager at ADCO, where he leads teams and presents results to shareholders seeking approval for appraisal drilling.
Mohammad Deeb Abou Shaker is a Syrian geologist with over 22 years of experience in petroleum geology. He has worked on a variety of projects including exploration, appraisal, development, and well planning and operations. Currently, he works as an independent consultant in petroleum geology. He has extensive experience using software like Petrel and Geoframe and has managed structure geology projects and basin evolution studies. He is skilled in areas like seismic interpretation, reservoir modeling, and risk assessment.
Mohsen Nourbakhsh is a petroleum engineer with 3 years of experience in well testing operations and data acquisition in Iraq. He currently works as a field engineer supervising well testing teams and providing technical support to clients. He has a Master's degree in Petroleum Reservoir Engineering and relevant training and certifications. His skills include well testing, production facility operations, reservoir simulation software, and he is proficient in English and Persian. He has received several awards for his performance and safety.
Sigve Hamilton Aspelund has over 20 years of experience in the oil and gas industry. He holds a Master's degree in engineering from the University of Stavanger and has worked in various roles including reservoir engineer, production engineer, QHSE engineer, and entrepreneur. His background includes experience with companies such as Talisman, Ocean Rig, Oilfield Technology Group, and IOR Chemco. He is fluent in English and Norwegian.
PetroSync - Integration of Petrophysics and Core AnalysisPetroSync
During this course concepts of core preparation, core measurement, core analysis types and procedures will be explained. The petrophysical rock properties such as porosity, permeability, saturation and porosity-permeability relations will be studied. The relationships between these parameters under in situ conditions will be discussed. The measurements and physics of well logging tools to methods for interpretation of these parameters will be applied. The understanding of well logging environments will be addressed.
The trainer will provide the relationship between core analysis data and logging measurements for depth matching, understanding abnormal log readings and to obtain different petrophysical parameters.
Joseph Z. Bracic has over 30 years of experience as a petroleum engineer working on completion and production projects around the world. He has worked as a consultant for companies like Hess Corporation and as an advisor for Arabian Gulf Oil Company. Some of his responsibilities have included completion design, artificial lift optimization, sand control evaluation, and production strategy development. He utilizes his expertise in areas like hydraulic fracturing, chemical compatibility testing, downhole monitoring, and reservoir surveillance to improve well and field performance.
This document summarizes a post well analysis project by TGS to analyze 80 exploration wells drilled in the Norwegian Sea. The analysis will evaluate factors related to the presence of reservoirs, traps, seals, and hydrocarbon charge. Data will be compiled in a GIS-based database and visualization tools to allow querying and analysis of patterns in well successes and failures. The goal is to improve understanding of the petroleum systems and reduce future drilling risks.
Maptek's BlastLogic software is adding new tools to help miners better manage their drill and blast operations. The new tools allow blast engineers to preview blast designs, detonation timing, and sequences. This helps engineers optimize blast performance and ensure safety. Maptek is committed to enhancing their software based on customer feedback to deliver the best solutions for drill and blast planning and management.
Course Description
The business of fuelling the world through hydrocarbon production must be carried out with optimum profitability. Participants will learn how sand production and inadvertent formation damage can erode these profits. Methods and procedures will be presented to guide the participants in decision making with regard to completing a well with optimum control of formation sand while incurring minimal damage to the well or production zone. Extensive theory will be presented illustrating why certain practices should either be employed or strictly avoided. The very latest in the use of forecasting methods, tools, techniques, and personal experiences will be presented.
By attending the 5 day training course, you will be able to:
Assess how rock will fail and how this analysis is used to determine the appropriate sand control method.
Interpret particle size distribution data.
Determine the appropriate sand control method when provided with appropriate reservoir and production data.
Select completion equipment and associated tooling for sand control (screens, gravels, work strings, barrier valves etc.)
Produce an outline installation procedure for the main types of sand control.
Troubleshoot sand control problems.
Javier Miranda is a highly experienced petrophysicist with over 17 years of experience working on reservoir description and operations for fields in clastic and carbonate reservoirs. He has a proven track record of successfully planning and executing petrophysical studies and reservoir modeling to support field development. His areas of expertise include well logging acquisition and analysis, core analysis, formation evaluation, integrated reservoir characterization, and mentoring others. He is bilingual in English and Spanish with an M.S. in Petroleum Engineering from UT Austin and experience working for BP America and PDVSA in various reservoir description and operations roles.
This 5 day training course is designed to give you a comprehensive account of methods and techniques used in modern well testing and analysis. Subsequently to outlining well test objectives and general methodologies applied, the course will provide real case studies and practice using modern software for Pressure Transient Analysis. These exercises will demonstrate clearly the limitations, assumptions and applicability of various techniques applied in the field.
Sami Rassas has extensive technical skills in geological modelling, including:
1) Construction of a 3D model of water saturation in a giant carbonate reservoir using well log and pressure data, which was used for well planning and dynamic modelling.
2) Construction of fully integrated 3D geological models of three major carbonate reservoirs in the UAE.
3) Geological modelling of a fractured carbonate reservoir in Tunisia using various data and software.
Ali Jalili is a reservoir geologist and geomodeller with almost 14 years of experience in geomodelling, quality control, and data analysis for oil and gas reservoir assessment and characterization projects. He has expertise in static modelling, reservoir characterization, field development planning, and uncertainty analysis. He holds a Master's degree in Geology and completed an MBA program. He is seeking a position where he can utilize his skills and experience.
This curriculum vitae summarizes the professional experience and qualifications of Nduese Moffat, a Geologist/Geophysicist with over 15 years of experience in the oil and water industries. He has worked for several companies in roles such as site geologist, drilling supervisor, logging geologist, and coring engineer. His responsibilities have included formation evaluation, well logging, drilling supervision, data analysis, and ensuring core integrity. He holds an MSc in Petroleum Geophysics and BSc in Geology, along with various professional certificates.
1. MohamedNour El-Din Ragab
Helmy (P.ENG)
Positions / Key
Skills
An experienced Petrophysicist with 20 years of success in the oil and
gas industry.
Currently I am Senior Petrophysicist at Shell and Technical Authority
of Petrophysics (TA2) for the Heavy Oil department.
Associate SEM (aSME) for Borehole Imaging and nominated aSME
for 3DEX tool (resistivity anisotropy tools). Very strong Experience in
Processing, QAQC and interpretation of Borehole image logs and
resistivity logs.
Sr. Petrophysical Specialist Sproule, Canada.
Principal Petrophysicist BG Trinidad and Tobago.
Petrophysicist / Borehole image expert of PDO (Petroleum
Development Of Oman)
Borehole Image Geology Team Leader of DCS in Saudi Arabia.
Baker Hughes Focal point of the 3DEX tool processing and
interpretation in MER. Strong Experience in 3DEX and Rt Scanner
data QAQC, processing and interpretation. (Thinly bedded sand
shale sequences).
Registered as Professional Engineer in Alberta.
Experienced in acquiring, QAQC and interpretation of open hole
(Triple combo, sonic, images, NMR, ECS..etc) and cased hole logs
(CBL, VDL, RST, MFC..etc).
Strong experience in designing core acquisition and core analysis
programs (RCA and SCAL).
Strong field reserve auditing, development (FDP), WFRM and
exploration experience.
Experienced in to clastics and carbonate reservoirs petrophysical
interpretation using core and log data (different reservoirs different
countries).
Experienced in quick look/operational interpretation by using the LWD
and Wire-line data for operational decisions purposes (e.g. SAGD
horizontal well placement).
Strong Field Experience (Rig/Drilling, mud logging and Wire-line
logging)
Very strong business oriented attitude, resilient worker under
pressure.
Very strong communication and social skills within the team and
among different departments/disciplines.
Wide industry experience between service and operating oil
companies.
Good command of Recall, Express, GeoFrame, IP, PRISM and
Techlog softwares.
Good command of UNIX, Linux and Microsoft Office.
Senior Petrophy sicist
Shell Canada
Mobile: +1-403-966-3677
E-mail:mnour260472@gmail.com
2. Education
B.Sc. in Geological engineering. Faculty Of Petroleum and Mining
Engineering, Canal of Suez Uni.
Professional Engineer In Alberta (P.ENG.)
Professional
experience
May. 2012 – Now Shell Canada
Senior Petrophysicist (Technical Authority (TA2) of
Petrophysics)
I am currently responsible for Petrophysical discipline from assuring
quality/standards point of view (TA2) of the Heavy Oil Dep. in Shell Canada. I
am responsible for providing the petrophysical inputs for the several teams
by integrating all available data (Mud-logs, Wireline-LWD OHLOGS, NMR,
core..etc.), review development plans through Integrated Technical reviews
(ITRs), integrate the petrophysical data in the geological model building,
saturation modeling in core and log domains, permeability modeling, present
the petrophysical understanding to team and management meetings,
address interpretation uncertainty ranges, design cost effective logging and
coring programs (Acquisition and analysis), supervise/mentor the younger
Petrophysicists. I am currently the Shell Global SME Associate (aSME) for
Borehole imaging and resistivity tools and Nominated for aSME for the 3DEX
(Resistivity anisotropy tools).
I was lately more focused on Carmon Creek project data acquisition and
interpretation. The main areas of interpretation are, review and validate the
PAD106 and Pad 107 formation evaluation and feed the results to Petrel
model, well integrity and cement bond log interpretation (about 100 wells in
45 days) and full formation evolution of the 2 observation wells drilled in late
2014, implement the data management work flows of core and log data
(above 85-90% success) and update the geological (model/volumes) of the
field based on the new data.
In QUEST project, I have carried out a strong role in data acquisition
planning (triple compo, DSI, OBMI, NMR, MDT and ECS), build cost
effective logging and coring plans (saved about 600k in core analysis). I have
built a permeability model that agrees the well test results which led the
reservoir understanding towards the high side of permeability estimation
(initially perm was estimated to be 400 mD new model about 1000 mD) and
support lower number of wells needed for CO2 injection proposed by the RE
(3 wells instead of 8). Select and execute pressure and fluid sampling points.
Updating the geological model of the QUEST project by incorporating the
newly drilled wells data and building time lapse logging plan for monitoring
CO2 injection of the QUEST project by running baseline RST logs to assure
CO2 conformance and containment as part of the MMV plan. We celebrated
the QUEST opening Oct. 2015. The project was on time and under budget.
Currently beside QUEST support, I am providing reservoir properties input
for the framing of the EOR possibilities of using CO2 for miscible CO2
flooding opportunities in brown fields (Clive) that is used for EOR framing
(DG1), more detailed modeling will be needed for the next decision gates.
Although I am heavily involved in heavy oil, As Shell Associate SME for
borehole imaging and resistivity, I am responsible of building Shell
standards for borehole image QAQC/interpretation. Form resistivity point
of view, I am helping on building the knowledge of laminated sand shale
sequences on resistivity and build interpretation work flows. I have
looked over unconventional reservoirs in Canada (Shale Gas), where I
3. added value by identifying fractures from Borehole images, I also helped
in reducing the uncertainty in density porosity from LWD tools by using
the all density sectors available. I am part of the TA2s who worked on
defining the unconventional guidelines of defining net reservoir and net
pay where the assessment of the stimulated frack height is a parameter
of the reserve calculation. I have attended fiber optics training where it
was used to monitor the production after fracking. I have used the
resistivity anisotropy data in an attempt to improve saturation calculation.
I have knowledge of using the ECS and NMR to build more robust
petrophysical model that is calibrated to XRD/XRF data. I do believe that
gathering proper mud gas data can help a lot in defining the potential
shale gas/oil zones. I was trying to promote acquiring sonic data in
horizontal wells to carry out selective fracking by getting better
understanding of the formation frack ability but the budget constrains did
not give the chance to experiment it, I do believe that the shale layers
are not homogenous form geomechanical point of view (this could save
a lot of money if selective frack intervals are chosen).
For the Deepwater assets, I have helped reorienting core bed forms by
orienting high resolution CT scan images.
I have a strong input to the Orion SAGD re-drill of PAD 106 from formation
evaluation and well placement point of view, where formation evaluation/BHI
data were integrated with different data types (e.g. production, mud logs and
reservoir temp. data), which enhanced the understanding of the reservoir
and helped selling the field with good value for Shell.
Sep. 2011 – May 2012 Sproule
Senior Petrophysical Specialist
My role in Sproule is reserve auditing by carrying out Full-field petrophysical
studies, analyze capillary pressure curves and build saturation height
functions, assess the uncertainty associated with Petrophysical evaluations,
Reservoir characterization, petrophysical value assurance for reservoir
modeling, provide pertophysical support to Domestic, Unconventional and
International teams of Sproule and marketing, promoting and bringing new
experiences to Sproule Services. This assignment gave me exposure to
fields from different countries (Russia, Australia, Canada, North Sea,
Kazakhstan, UK and Trinidad and Tobago.)
Nov. 2010 – Sep 2011 British Gas
Principal Petrophysicist
I was responsible for the Petrophysical discipline in Trinidad. I am
responsible for providing the petrophysical inputs for the NCMA and the
Trinidad asset by integrating all available data (Mud-logs, Wireline-LWD
OHLOGS, NMR, core..etc), integrate the petrophysical data in the geological
model building, build saturation modeling in core and log domains for static
modeling purposes, permeability modeling, present the petrophysical
understanding to the partners in the TCM meetings, address interpretation
uncertainty ranges, design logging programs, build the yearly work plan of
the petrophysics team that contributes to the company’s work plan, data
QAQA, put with integration with the headquarters, the standard data
archiving method and supervise the younger petrophysicists. I have looked
after the petrophysical needs of the exploration department by providing
better understanding of pressure gradient analysis that opened another view
for larger field possibilities and I provided petrophysical interpretation for
exploration blocks with old data sets (lots of data integration of mud logs,
wireline logs and pressure/temp data).
4. Aug. 2007 – 2010 Petroleum Development of Oman Muscat, Oman
Petrophysicist/BHI (Borehole Images) Expert
I was the hit squad team Petrophysicist; i am responsible for the
petrophysical evaluation of the studies that come to the team by using Wire-
line, LWD and core data. I am part of the software development team
(Techlog, Shell Petrophysical Software) where I contributed in testing and
guiding the software development. I have carried out petrophysical
interpretation over tight oil reservoirs (clicilite) (Al-noor and Al-shmoaa fields)
where I have integrated Wireline logs, mudlog data and image logs to define
the OWC and perf/Frac zones. I have supported tight gas teams in
developing better reservoir understanding by developing workflows to extract
net sand fraction from thinly laminated pays. I am involved in evaluating
vendor's contracts (commercial and technical). I have built permeability
models for vuggy carbonates, where the integration of rock typing, logs and
borehole images led to better reservoir description. On the top of that, I am
responsible for building the knowledge and strategy of borehole image logs
data acquisition, QC and interpretation of PDO. I am also building integrated
solutions of BHI interpretation and the petrophysical evaluation. I play a role
in evaluating the contracts of BHI data interpretation and acquisition. I also
design/teach training courses for Borehole image interpretation. I have
contributed to the Heavy oil projects in Oman by providing information about
fracture density, orientation and stress directions that optimize the SAGD
well planning.
March 2006 – July 2007 Schlumberger Al-Khobar, Saudi Arabia
Image Geologist / Petrophysicist (Image Geology Team Leader).
I was responsible for borehole image (FMI/UBI images) processing and
interpretation for Armco, Khafji and Babco oil companies. I did also
resistivity processing, log QC, quick look petrophysical evaluation and
customer service (sales and marketing). I did formation evaluation over
carbonate and clastics reservoirs. I was responsible for younger
candidates to transfer the knowledge and get them into speed.
2004 – March 2006 Baker Atlas Ahmadi, Kuwait
Petrophysicist/Image Geologist
I was responsible for processing and interpreting the 3DEX data. I carried
out resistivity processing, acoustic processing, log QA/QC, quick look
petrophysical evaluation and customer support/service for wire line logs
(Sales, marketing, operational support (building logging programs) and
data QAQC). I did image interpretation over carbonate and clastics
reservoirs. I was responsible for borehole image data
(STAR/FMI/EMI/UBI/CAST-V and LWD images) processing and
interpretation.
I worked over the North, West and South East Kuwait Fields (Sabriyah,
Rawdateen, Managish, etc). I have built very good relationships with KOC
based on integrity and trust with good understanding of the Kuwaiti culture
challenges. I still keep good connections with Kuwaitis till now.
2001 - 2004 Baker Atlas Cairo, Egypt
Petrophysicist/Image Geologist
I was responsible of the dipmeter and borehole image processing and
interpretation, quick look interpretation, QC log data and carrying out the
customer service (Sales and marketing). I did work in image interpretation
of some of the Mediterranean wells with Apache, Rashid, Burullus gas
Co. and Khalda Petroleum Company in the Western Desert. I did some
work for PDO in Bahrain Office for Fahud Field and some fracture
5. analysis for the NIMR field for PDO OMAN. I have a very good experience
in Recall and Express softwares. In 2004, I was also responsible for the
3DEX processing and petrophysical interpretation of the thinly laminated
sand /shale sequences in the Mediterranean gas fields. Most of the
interpretation was on well by well bases.
1999 - 2001 Badr Petroleum Company Cairo, Egypt
Development Geologist
Badr Petroleum Company (Bapetco) is a joint venture company between
the EGPC and Shell. I was making well proposals and sharing in field
development plans for the fields of the company. I have started the
image processing and dipmeter processing in Bapetco and by the time I
left I was responsible for FMI/EMI/UBI/CAST-V processing. I have also
constructed a full Recall log database for BED-3, 4, 15 and OBAIYED
fields. Before I leave I was a member of BED V2V workshop that was
held in Sep. 2000 to assess the company fields and possible ways of
finding by passed oil and potential future opportunities.
1996 - 1999 Baker Hughes Inteq. Cairo, Egypt
Mud Logger
I worked on off shore and on shore rigs in all over Egypt (Western
Desert, Gulf of Suez and Mediterranean sea). I was responsible of
monitoring the drilling operation, gas readings and describe the return
cuttings. My last position was a unit manager.
Languages Fluent English and Arabic (Verbal and Written)
Training
In house mud logging school (INTEQ Egypt)
Advanced mud logging school (INTEQ Egypt)
Mud logging unit hard ware school (INTEQ Egypt).
Drill bite school (INTEQ Egypt)
Openworks training (Landmark Egypt)
Borehole image interpretation (Aberdeen UK)
Deep marine sequence stratigraphy. (AAPG Cairo)
Introduction to petrophysics (Houston US)
3DEX processing and interpretation (Houston US)
Cased hole logs interpretation. (Kuwait)
Fundamentals of Petrophysics (Petroskills Dubai)
Acoustic and Resistivity product Knowledge courses (Bahrain)
MRIL product Knowledge course (Bahrain)
Borehole image Product Knowledge course (Abu Dhabi)
6. Formation evaluation using Glider software (Abu Dhabi)
Advanced 3DEX processing and interpretation Course (Houston)
Strategic and conceptual selling course(Himan & Miller) (Dubai)
Advanced Borehole Image Course (SLB Abu Dhabi)
Carbonate Geology (SLB Oman)
Fracture Corridor modeling course (PDO ,Oman)
Introduction to Geo-mechanics (PDO, Oman)
Introduction to Techlog (petrophysical package)
Structural Geology course (PDO, Oman)
Coach the Coach (Shell, Oman)
Carbonate Petrophysics (Shell Course held in Muscat, Oman)
Shell Petrophysics Course (Rijswijk, The Netherlands)
Coring and core analysis course by Petroskills (Calgary, AB,
Canada)
PT for other disciplines (Calgary, Canada)
Oil Field Geomechanics By Baker Hughes (Calgary, AB, Canada)
Fiber Optics Processing and interpretation (Calgary, AB, Canada)
Shell Hands on LAB-G geomechanical training (Calgary, AB,
Canada).
Objective Working as a Sr. Petrophysicist where I can share my experiences and
learn new ones.
Publications and
professional
societies
I have participated in the 2005 IPTC conference in Doha, Qatar with a
poster. The poster name is Resistivity anisotropy as a decision
making tool, Case study form Egypt.
I have participated in the First International Conference on the Geology
of the Tethys (12-14 November, 2005, Cairo University). The paper
name is Innovative Applications of Image Logs in Characterizing
Jurassic Reservoirs of West Kuwait.
I am a co-author for AAPG Memoir 92
Dipmeter and Borehole Image Log Technology.
I was a Co-Chair for Calgary Geoconvention 2013 and Technical Chair for
CWLS in the 2016 Geoconvention and the CWLS representative as the chair
Technical committee for the 2016 Calgary Geoconvention.
I am a member of the SPWLA, CWLS, AAPG and the SPE.
7. Hobbies Basketball, Sporting Clay Shooting, swimming, music, reading, Tennis,
squash, table tennis and traveling.
Personal
Information
Gender: Male
First Name: Mohamed
Last Name: Helmy
Date Of Birth: Apr. 26th 1972
Religion: Muslim
Marital status: Married
Nationality: Canadian
Email: mnour260472@gmail.com
Phone: +1 403-966-3677