Overview of Gas Processing - Technical - G-2
Course
In San Francisco (USA)
Description
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Type
Course
-
Location
San francisco (USA)
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Start date
Different dates available
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
Facilities
Location
Start date
Start date
Reviews
Subjects
- Management
- IT Management
- Project
- Construction
- Systems
- Construction Training
- Design
- IT risk
- Risk
- Production
- Performance
- Supply
- Gas
- Image
- Supply Chain Strategy
- IT Auditing
- Installation
- IT Project Management
- Oil and Gas
- Auditing
- Quality management
- Quality Training
- Project Management
- Communication Training
- Construction Management
- Communications
- Decision Making
- Monitoring
- Structural Design
- Quality
- Skills and Training
- Evaluation
- Stakeholder Management
- Engineering
- Risk Management
- Materials
- Planning
- Stakeholder
- IT Development
Course programme
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
Supply chain strategy; Management systems, RP 2220, OGP guidance; Pre-qualification; approved contractor status; Bidding, evaluation criteria, appointment; Communication; Supply chain performance monitoring, interviewing skills, auditing
Offshore systems overview and field architecture selection; Well construction and servicing equipment and operation; Flow assurance; Topside facilities; Oil and gas transportation facilities; Riser systems; Subsea systems; Production operations; Infrastructure impact on design and operations; Effects of the ocean environment; Introduction to naval architecture; Structural design processes and tools; Construction plans and execution; Project management lessons learned; Life-cycle and decommissioning considerations
Use a Brownfield project stage gate process to initiate, plan, execute and close out a project; Use decision making and issue management to keep a project on track; Communications plan development to facilitate stakeholder management; The role of quality management in engineering, procurement, and contractor management; The prominent role of Health, Safety, and Environment discipline in project execution; Manage issues associated with construction readiness and construction management; Handover, startup, and closeout best practices for Brownfield projects; Key Value Improving Practices (VIPs) for Brownfield projects; Cost and schedule management principles and performance reporting techniques; Contract types, contractor selection, and contractor management; Roles and qualities of successful project managers; Effective risk management
Pipeline systems definition and applications; Safety, environmental, and regulatory considerations; codes and standards related to pipelines; Pipeline conceptual and mechanical design for strength, stability, and installation; Impacts of pipeline hydraulics on pipeline design, construction, and operations; Pipeline survey, mapping, and route selection; Pipeline materials and equipment selection; Corrosion and cathodic protection of pipelines; Pipeline construction for onshore pipeline systems; Introduction to flow assurance considerations and pipeline integrity aspects including in-line inspection, leak detection, and emergency planning considerations; Pipeline operations, maintenance and repairs considerations
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
Supply chain strategy; Management systems, RP 2220, OGP guidance; Pre-qualification; approved contractor status; Bidding, evaluation criteria, appointment; Communication; Supply chain performance monitoring, interviewing skills, auditing
Offshore systems overview and field architecture selection; Well construction and servicing equipment and operation; Flow assurance; Topside facilities; Oil and gas transportation facilities; Riser systems; Subsea systems; Production operations; Infrastructure impact on design and operations; Effects of the ocean environment; Introduction to naval architecture; Structural design processes and tools; Construction plans and execution; Project management lessons learned; Life-cycle and decommissioning considerations
Use a Brownfield project stage gate process to initiate, plan, execute and close out a project; Use decision making and issue management to keep a project on track; Communications plan development to facilitate stakeholder management; The role of quality management in engineering, procurement, and contractor management; The prominent role of Health, Safety, and Environment discipline in project execution; Manage issues associated with construction readiness and construction management; Handover, startup, and closeout best practices for Brownfield projects; Key Value Improving Practices (VIPs) for Brownfield projects; Cost and schedule management principles and performance reporting techniques; Contract types, contractor selection, and contractor management; Roles and qualities of successful project managers; Effective risk management
Pipeline systems definition and applications; Safety, environmental, and regulatory considerations; codes and standards related to pipelines; Pipeline conceptual and mechanical design for strength, stability, and installation; Impacts of pipeline hydraulics on pipeline design, construction, and operations; Pipeline survey, mapping, and route selection; Pipeline materials and equipment selection; Corrosion and cathodic protection of pipelines; Pipeline construction for onshore pipeline systems; Introduction to flow assurance considerations and pipeline integrity aspects including in-line inspection, leak detection, and emergency planning considerations; Pipeline operations, maintenance and repairs considerations
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
Supply chain strategy; Management systems, RP 2220, OGP guidance; Pre-qualification; approved contractor status; Bidding, evaluation criteria, appointment; Communication; Supply chain performance monitoring, interviewing skills, auditing
Offshore systems overview and field architecture selection; Well construction and servicing equipment and operation; Flow assurance; Topside facilities; Oil and gas transportation facilities; Riser systems; Subsea systems; Production operations; Infrastructure impact on design and operations; Effects of the ocean environment; Introduction to naval architecture; Structural design processes and tools; Construction plans and execution; Project management lessons learned; Life-cycle and decommissioning considerations
Use a Brownfield project stage gate process to initiate, plan, execute and close out a project; Use decision making and issue management to keep a project on track; Communications plan development to facilitate stakeholder management; The role of quality management in engineering, procurement, and contractor management; The prominent role of Health, Safety, and Environment discipline in project execution; Manage issues associated with construction readiness and construction management; Handover, startup, and closeout best practices for Brownfield projects; Key Value Improving Practices (VIPs) for Brownfield projects; Cost and schedule management principles and performance reporting techniques; Contract types, contractor selection, and contractor management; Roles and qualities of successful project managers; Effective risk management
Pipeline systems definition and applications; Safety, environmental, and regulatory considerations; codes and standards related to pipelines; Pipeline conceptual and mechanical design for strength, stability, and installation; Impacts of pipeline hydraulics on pipeline design, construction, and operations; Pipeline survey, mapping, and route selection; Pipeline materials and equipment selection; Corrosion and cathodic protection of pipelines; Pipeline construction for onshore pipeline systems; Introduction to flow assurance considerations and pipeline integrity aspects including in-line inspection, leak detection, and emergency planning considerations; Pipeline operations, maintenance and repairs considerations
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
Supply chain strategy; Management systems, RP 2220, OGP guidance; Pre-qualification; approved contractor status; Bidding, evaluation criteria, appointment; Communication; Supply chain performance monitoring, interviewing skills, auditing
Offshore systems overview and field architecture selection; Well construction and servicing equipment and operation; Flow assurance; Topside facilities; Oil and gas transportation facilities; Riser systems; Subsea systems; Production operations; Infrastructure impact on design and operations; Effects of the ocean environment; Introduction to naval architecture; Structural design processes and tools; Construction plans and execution; Project management lessons learned; Life-cycle and decommissioning considerations
Use a Brownfield project stage gate process to initiate, plan, execute and close out a project; Use decision making and issue management to keep a project on track; Communications plan development to facilitate stakeholder management; The role of quality management in engineering, procurement, and contractor management; The prominent role of Health, Safety, and Environment discipline in project execution; Manage issues associated with construction readiness and construction management; Handover, startup, and closeout best practices for Brownfield projects; Key Value Improving Practices (VIPs) for Brownfield projects; Cost and schedule management principles and performance reporting techniques; Contract types, contractor selection, and contractor management; Roles and qualities of successful project managers; Effective risk management
Pipeline systems definition and applications; Safety, environmental, and regulatory considerations; codes and standards related to pipelines; Pipeline conceptual and mechanical design for strength, stability, and installation; Impacts of pipeline hydraulics on pipeline design, construction, and operations; Pipeline survey, mapping, and route selection; Pipeline materials and equipment selection; Corrosion and cathodic protection of pipelines; Pipeline construction for onshore pipeline systems; Introduction to flow assurance considerations and pipeline integrity aspects including in-line inspection, leak detection, and emergency planning considerations; Pipeline operations, maintenance and repairs considerations
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
Supply chain strategy; Management systems, RP 2220, OGP guidance; Pre-qualification; approved contractor status; Bidding, evaluation criteria, appointment; Communication; Supply chain performance monitoring, interviewing skills, auditing
Offshore systems overview and field architecture selection; Well construction and servicing equipment and operation; Flow assurance; Topside facilities; Oil and gas transportation facilities; Riser systems; Subsea systems; Production operations; Infrastructure impact on design and operations; Effects of the ocean environment; Introduction to naval architecture; Structural design processes and tools; Construction plans and execution; Project management lessons learned; Life-cycle and decommissioning considerations
Use a Brownfield project stage gate process to initiate, plan, execute and close out a project; Use decision making and issue management to keep a project on track; Communications plan development to facilitate stakeholder management; The role of quality management in engineering, procurement, and contractor management; The prominent role of Health, Safety, and Environment discipline in project execution; Manage issues associated with construction readiness and construction management; Handover, startup, and closeout best practices for Brownfield projects; Key Value Improving Practices (VIPs) for Brownfield projects; Cost and schedule management principles and performance reporting techniques; Contract types, contractor selection, and contractor management; Roles and qualities of successful project managers; Effective risk management
Pipeline systems definition and applications; Safety, environmental, and regulatory considerations; codes and standards related to pipelines; Pipeline conceptual and mechanical design for strength, stability, and installation; Impacts of pipeline hydraulics on pipeline design, construction, and operations; Pipeline survey, mapping, and route selection; Pipeline materials and equipment selection; Corrosion and cathodic protection of pipelines; Pipeline construction for onshore pipeline systems; Introduction to flow assurance considerations and pipeline integrity aspects including in-line inspection, leak detection, and emergency planning considerations; Pipeline operations, maintenance and repairs considerations
Additional information
Expenses
The course price depends on the selected location or venue.
In-house training
This course can also be delivered as in-house training for your team at your offices or at any convenient location. PetroSkills can provide you with a flexible and cost-effective solution for your staff training.
Overview of Gas Processing - Technical - G-2
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