2020 Oil and Gas Facilities and Midstream Training and Development Guide - PetroSkills
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2020 Oil and Gas Facilities and Midstream
Training and Development Guide
NEW in 2020
• Accredited H&S Professional: GradIOSH, CMIOSH and
ASP by Applied Learning (pg 23)
• Construction Management for the Project Professional
(pg 30)
• Oil Well Pad Facilities (for Facilities Engineers) (pg 10)
• Oil Well Pad Facilities (for non-Facilities Engineers)
(pg 8)
• Petroleum Project and Program Management
Essentials (pg 28)
• Petroleum Project Changes and Claims Workshop
(pg 30)
• Spill Control and Remediation Engineering (pg 23)
• Troubleshooting Gas Processing Facilities (pg 11)
• Troubleshooting Oil Processing Facilities (pg 11)
• More Virtual/Blended Learning Options Through
PetroAcademy, including:
- Basics of Rotating Mechanical Equipment (pg 14)
- Basics of Static Mechanical Equipment (pg 14)
Message from the CEO
A competent workforce has always been critical for our 4 Course Progression Map
industry’s success.
This guide presents the industry’s most comprehensive GAS PROCESSING
workforce development programs – focused on building
competent people. PetroSkills brings together industry-driven 6 Gas Conditioning and Processing (Campbell Gas Course® ) – G4
and industry-approved programs that deliver flexible, practical, 6 Gas Conditioning and Processing Principles - G3 (Virtual/Blended course)
fit-for-purpose training and development. This guide can help 6 Gas Conditioning and Processing – LNG Emphasis – G4 LNG
you find ways to advance your technical competence and build 7 Gas Treating and Sulfur Recovery – G6
your company’s value. 7 LNG Short Course: Technology and the LNG Chain – G29
Since the first offerings of Production Operations 1 and the Campbell Gas Course® 7 Overview of Gas Processing – G2
over 52 years ago, PetroSkills instructor-led training programs have set the standard for 7 Practical Computer Simulation Applications in Gas Processing – G5
excellence from subsurface to downstream. This guide presents hundreds of sessions
offered worldwide by top industry experts in each technical discipline across the value
chain. Our competency-based programs are designed and delivered under the direction PROCESS FACILITIES
of the PetroSkills Alliance which includes some of the top petroleum companies
worldwide, working together, to offer an industry-driven and vetted set of courses,
10 Applied Water Technology in Oil and Gas Production – PF21
products and services.
8 Choosing the Right Facilities Equipment for the Reservoir – PF3
NEW courses to look for in this edition include: 11 CO2 Surface Facilities – PF81
10 Fundamental and Practical Aspects of Produced Water Treating – PF23
• Accredited H&S Professional: GradIOSH, CMIOSH and ASP by Applied Learning 9 Fundamentals of Process Safety - PS2
(HSP) - page 23 8 Introduction to Oil and Gas Production Facilities – PF2
• Construction Management for the Project Professional (FPM64) - page 30 8 Oil Production and Processing Facilities – PF4
• Oil Well Pad Facilities (For Facilities Engineers) (OWPF-FE) - page 10 10 Oil Well Pad Facilities (for Facilities Engineers) – OWPF-FE
• Oil Well Pad Facilities (For Non-Facilities Engineers) (OWPF-NFE) - page 8 8 Oil Well Pad Facilities (for non-Facilities Engineers) – OWPF-NFE
• Petroleum Project and Program Management Essentials (P3ME) - page 28 11 Onshore Gas Gathering Systems: Design and Operations – PF45
• Petroleum Project Changes and Claims Workshop (PPCC) - page 30 9 Process Safety Engineering – PS4
• Spill Control and Remediation Engineering (SCRE) - page 23 9 Process Safety Engineering Principles - PSE (Virtual/Blended course)
• Troubleshooting Gas Processing Facilities (PF-49G) - page 11 10 Relief and Flare Systems – PF44
• Troubleshooting Oil Processing Facilities (PF-49O) - page 11 9 Risk Based Process Safety Management – HS45
11 Troubleshooting Gas Processing Facilities - PF49G
In addition to our instructor-led programs, our digital learning solutions and 11 Troubleshooting Oil Processing Facilities - PF49O
professional services continue to lead the industry; see page 3 for more details.
Also, we are excited to announce that we have expanded our capabilities in operator
training by acquiring Simulation Solutions Inc. This allows us to offer you a dynamic INSTRUMENTATION, CONTROLS & ELECTRICAL
library of hands-on simulator training for console and outside operators. See petroskills.
com/ssi for details. 12 Electrical Engineering Fundamentals for Facilities Engineers – E3
12 Flow and Level Custody Measurement – IC73
We are proud that our blended/virtual learning program, PetroAcademy™, continues
12 Instrumentation and Controls Fundamentals for Facilities Engineers – IC3
to grow. This unique course model delivers the same competency development as our
12 Instrumentation, Controls and Electrical Systems Overview for Non-Electrical . . . .
face-to-face courses via virtually delivered Skill Modules™, available from anywhere in
the world. Engineers – ICE21
13 Practical PID Control and Loop Tuning – IC74
Two important blended/virtual courses have been added to our extensive library, and
we will be adding more throughout 2020.
• Basics of Rotating Mechanical Equipment - page 14
MECHANICAL ENGINEERING
• Basics of Static Mechanical Equipment - page 14
For a full list of blended/virtual courses, see the back cover, or petroskills.com/blended. 14 Basics of Rotating Mechanical Equipment - BRM (Virtual/Blended
course)
I hope you find this guide useful. If there is any way that we can help you, your team, 14 Basics of Static Mechanical Equipment - BSM (Virtual/Blended
or your organization, please don’t hesitate to contact me personally at ford.brett@ course)
petroskills.com, or contact our Customer Service Department at +1.918.828.2500. 15 Compressor Systems - Mechanical Design and Specification – ME46
14 Corrosion Management in Production/Processing Operations – PF22
15 Fundamentals of Pump and Compressor Systems – ME44
15 Mechanical Specification of Pressure Vessels and Heat Exchangers – ME43
14 Piping Systems - Mechanical Design and Specification – ME41
Ford Brett
CEO, PetroSkills
TABLE OF CONTENTS 1
PIPELINE ENGINEERING PROCUREMENT/SUPPLY CHAIN MANAGEMENT
16 Offshore Pipeline Design and Construction – PL43 27 Contracts and Tenders Fundamentals – SC41
16 Onshore Pipeline Facilities - Design, Construction and Operations – PL42 27 Cost/Price Analysis and Total Cost Concepts in Supply Management – SC64
16 Terminals and Storage Facilities – PL44 27 Effective Materials Management – SC42
27 Inside Procurement in Oil and Gas – SC61
27 Strategic Procurement and Supply Management in the Oil and Gas Industry
OFFSHORE & SUBSEA
– SC62
27 Supplier Relationship Management – SC63
17 Flow Assurance for Offshore Production – FAOP
17 Fundamentals of Offshore Systems Design and Construction – OS4 PROJECT MANAGEMENT
17 Overview of Offshore Systems – OS21
17 Overview of Subsea Systems – SS2 29 Advanced Project Management – FPM62
29 Advanced Project Management II – FPM63
PRODUCTION AND COMPLETIONS ENGINEERING 30 Advanced Project Management Workshop - APMW
30 Construction Management for the Project Professional - FPM64
19 Gas Production Engineering – GPO 28 Managing Brownfield Projects – FPM42
18 Production Operations 1 – PO1 (Also available as a Virtual/Blended course) 28 Petroleum Project and Program Management Essentials - P3ME
18 Production Technology for Other Disciplines – PTO (Also available as a Virtual/ 30 Petroleum Project Changes and Claims Workshop - PPCC
Blended course) 28 Petroleum Project Management: Principles and Practices – PPM
18 Surface Production Operations – PO3 29 Project Controls for Capital Projects - PC21
28 Project Management for Engineering and Construction – FPM22
OPERATIONS & MAINTENANCE
29 Turnaround, Shutdown and Outage Management – TSOM
20 Amine Sweetening and Gas Dehydration for Operations and Maintenance MULTI-DISCIPLINE TRAINING
- OT41
21 Applied Maintenance Management – OM21
32 Basic Petroleum Technology Principles – BPT (Virtual/Blended course)
20 Crude Oil Pipeline Operations – OT50
32 Basic Petroleum Technology – BPT
20 LNG Facilities for Operations and Maintenance – OT43 32 Overview of the Petroleum Industry – OVP
21 Maintenance Planning and Work Control – OM41 32 Operations Crew Resource Management - OCRM
20 NGL Extraction, Stabilization and Fractionation for Operations and
Maintenance - OT42
34 INSTRUCTOR BIOGRAPHIES
20 Oil and Gas Processing Facilities for Operations and Maintenance – OT1
21 Process Plant Reliability and Maintenance Strategies – REL5
21 Turnaround, Shutdown and Outage Management – TSOM
PETROSKILLS SPECIAL FEATURES
HEALTH, SAFETY, ENVIRONMENT 2 PetroSkills Alliance
3 PetroSkills Solutions - Competency Development
23 Accredited H&S Professional: GradIOSH, CMIOSH and ASP by Applied Learning 4 Facilities Course Progression Map
- HSP 16 ePilot - Midstream Operations and Pipeline e-Learning
22 Applied Environmental Management Systems – AEM 19 In-House Training
23 Applied Occupational Health and Safety Management Systems – HSM 22 ePilot Online EHS Course Library
22 Competent Person Fall Protection – FPST 24 Email Sign Up
30 Email Sign Up
23 Management Systems Lead Auditor - AUD 31 Petroleum Professional Development Courses
23 Spill Control and Remediation Engineering - SCRE 15 PetroSkills Conference Center
33 Online Learning - ePilot and ePetro
PETROLEUM BUSINESS Inside Back Cover Contact and Registration and Terms and Conditions
Inside Back Cover CEU/PDH Certificates
Back Cover PetroAcademy - Blended Learning Solutions
26 Advanced Decision Analysis with Portfolio and Project Modeling – ADA
25 Cost Management – CM
25 Economics of Worldwide Petroleum Production – EWP
24 Essential Leadership Skills for Technical Professionals – OM23
24 Expanded Basic Petroleum Economics – BEC
26 Fundamentals of International Oil and Gas Law – IOG
24 Introduction to Petroleum Business – IPB
25 Managing Non-Technical Risks - MNTR
25 Petroleum Finance and Accounting Principles – PFA
26 Petroleum Risk and Decision Analysis – PRD
26 Strategic Thinking: A Tool-Based Approach – STT
Any course is available in-house at your location. Contact us today. +1.918.828.2500 | petroskills.com | +1.800.821.5933 (toll free North America)
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We can help:
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• Bridge knowledge gaps in your workforce and develop an enterprise-wide training standard
• Bridge knowledge gaps in your workforce and develop an enterprise-wide training standard
• Accelerate time to competency for Engineers, Project Managers, Operators, and Technicians
• Accelerate time to competency for Engineers, Project Managers, Operators, and Technicians
•• Assure
Assurethe
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4 Facilities Course Progression Map
Instrumentation,
Oil and Gas Processing Process Offshore Pipeline
Controls & Electrical
General Safety Instrumentation & Subsea Engineering
Gas Oil / Water Electrical
Processing & Controls
Specialized
CO2 Surface
Facilities – PF81
p.12
Gas Treating and
Sulfur Recovery
– G6 p.7
Practical Computer
Simulation
Intermediate
Applications in Gas
Processing – G5
p.7
Onshore Gas
Gathering Systems: Practical PID
Design & Operation Control and Loop
– PF45 p.11 Tuning – IC74 p.13
Troubleshooting Troubleshooting Separation Flow and Flow Assurance
Gas Processing Oil Processing Equipment - Relief and Flare Level Custody for Offshore
Facilities – PF49G Facilities – PF49O Selection & Sizing Systems – PF44 Measurement Production – FAOP
p.11 p.11 – PF42 (See website) p.10 – IC73 p.12 p.17
Oil Well Pad Facilities Terminals and
(For Facilities Storage Facilities
Engineers) – PL44 p.16
– OWPF-FE p.10 Process Safety
Engineering – PS4
p.9 Fundamentals of Onshore Pipeline
Fundamental and Offshore Systems: Facilities: Design,
Practical Aspects Design and Construction and
of Produced Water Risk Based Construction Operations – PL42
Treating – PF23 Process Safety – OS4 p.17 p.16
Foundation
p.10 Management
– HS45 p.9 Offshore Pipeline Design
Electrical Instrumentation
Engineering and Controls and Construction – PL43 p.16
Applied Water
Technology in Oil Fundamentals of Fundamentals for Fundamentals for
and Gas Production Process Safety Facilities Engineers Facilities Engineers Corrosion Management in Production/
– PF21 p.10 – PS2 p.9 – E3 p.12 – IC3 p.12 Processing Operations – PF22 p.14
Oil Production and Processing Facilities – PF4 p.8
Gas Conditioning and Processing - LNG Emphasis – G4LNG p.6
Gas Conditioning and Processing – G4 p.6
Gas Conditioning and Processing Principles – G3 Virtual/Blended Course p.6
LNG Short Course:
Technology and the
LNG Chain – G29
Basic
p.7
Oil Well Pad Facilities Overview of
Overview of Gas (For Non-Facilities Subsea Systems
Processing – G2 Engineers) – SS2 p.17
p.7 – OWPF-NFE p.8 Process Safety
Choosing the Right
Engineering
Facilities Equipment Instrumentation, Controls and Electrical Overview of
Principles – PSE
Introduction to Oil and Gas for the Reservoir – Systems Overview for Non-Electrical Offshore Systems
Virtual/Blended
Production Facilities – PF2 p.8 PF3 p.8 Engineers – ICE21 p.12 – OS21 p.17
Course p.9
Facilities Course Progression Map 5
Operations Procurement/
Mechanical Engineering Project
& Maintenance Supply Chain
O&M Operator Mgmt. Management
Non-Rotating Rotating Reliability
Management Training
Advanced Project
Petroleum Project
Management
Changes and Claims
– FPM62 p.29
Workshop
– PPCC p.30 Advanced Project
Compressor
Systems - Management II
Construction Mgmt – FPM63 p.29
Mechanical Design
for the Project
and Specification Advanced Project
Professional
– ME46 p.15 Mgmt Workshop -
– FPM64 p.30
APMW p.30
Managing Cost/Price Analysis
Brownfield Projects and Total Cost
– FPM42 p.28 Concepts in Supply
Management – SC64
Project p.27
Management for
Engineering and
Construction Supplier
– FPM22 p.28 Relationship
Management
– SC63 p.27
Project Controls for
Mechanical Capital Projects
Specification of - PC21 p.29
Strategic
Pressure Vessels Procurement and
and Heat Supply Management
Exchangers in the Oil and Gas
Turnaround, Shutdown, and Outage Management – TSOM p.21
– ME43 p.15 Industry – SC62
p.27
Fundamentals Process Plant Petroleum Project
Piping Systems - of Pump and Reliability and Management:
Mechanical Design Compressor Maintenance Principles and Inside Procurement
and Specification Systems – ME44 Strategies Practices – PPM in Oil & Gas – SC61
– ME41 p.14 p.15 – REL5 p.21 p.28 p.27
Additional
Amine Sweetening courses
and Gas Dehydration
for Operations &
available in:
Maintenance
– OT41 p.20
NGL Extraction,
Production &
Stabilization and Completions
Fractionation
p. 18-19
for Operations &
Maintenance
– OT42 p.20
Health,
Crude Oil Effective
Pipeline Materials
Safety,
Operations Management Environment
– OT50 p.20 – SC42 p.27
p. 22-23
Petroleum Project
Maintenance LNG Facilities and Program Contracts
Planning and for Operations & Management and Tenders
Work Control Maintenance Essentials – P3ME Fundamentals Petroleum
– OM41 p.21 – OT43 p.20 p.28 – SC41 p.27 Business
p. 24-26
Professional
Petroleum
Development
p. 31
Oil & Gas Multi-
Basics of Static Basics of Rotating Applied Processing Facilities Managing Non-
Mechanical Mechanical Maintenance for Operations & Technical Risks Discipline
Equipment Equipment Management Maintenance – OT1 – MNTR Training
– BSM p.14 – BRM p.14 – OM21 p.21 p.20 p.25
p. 32
6 GAS PROCESSING
Gas Conditioning Gas Conditioning and Processing – G4 Gas Conditioning and
and Processing The Campbell Gas Course® Processing – LNG
Principles – G3 Emphasis – G4 LNG
BASIC 52 HOURS FOUNDATION 10-Day FOUNDATION 10-DAY
The Campbell Gas Course® has been the standard of the industry for more than 52 years. This is the LNG-industry version of our popular
Tens of thousands of engineers have attended our G4 program, considered by many to be G4 course, with expanded coverage of
the most practical and comprehensive course in the oil and gas industry. refrigeration and LNG technologies. The course
PetroAcademy includes in-depth information on basic natural
TM
The Campbell Gas Course® textbooks, Volumes 1 and 2, are routinely updated to reflect
gas conditioning and processing. This is mainly
evolving technologies in this broad industry.
the core G4 Campbell Gas Course® curriculum
B L EN D E D L E A R N I NG
Both hand-methods and computer-aided analysis are used to examine sensitivities of in an LNG context with the expanded
technical decisions. To enhance the learning process, about 30 problems will be assigned, refrigeration coverage. The course covers
This course will be delivered virtually through reviewed, and discussed throughout the course. Problems will be solved individually and in relevant details of both the mixed refrigerant
PetroAcademy providing participants with the teams. (APCI) and cascade (ConocoPhillips) processes
knowledge they need at their convenience. in LNG liquefaction. Reference is made to other
DESI GN ED FOR liquefaction processes including Mixed Fluid
Production and processing personnel involved with natural gas and associated liquids, to Cascade Process, Dual Mixed Refrigerant
The Campbell Gas Course® has been the acquaint or reacquaint themselves with gas conditioning and processing unit operations. Process, and Nitrogen (single or dual) Cycles
industry standard for more than 52 years and This course is for facilities engineers, process engineers, senior operations personnel, field being developed for FLNG projects. This is
the core competencies of the Campbell Gas supervisors, and engineers who select, design, install, evaluate, or operate gas processing followed by higher level coverage of the LNG
Course are now available in self-paced online plants and related facilities. A broad approach is taken with the topics. value chain consisting of a gas liquefaction
Skill Modules™. These competencies set the section; LNG run-down to LNG storage; loading
base knowledge that is required for a successful YOU W I LL L EA RN
berth for LNG export; LNG shipping; and LNG
career as an entry-level facilities engineer, • Application of gas engineering and technology in facilities and gas plants
receiving and regasification terminals. Versions
seasoned operator, and/or field supervisor. • Important specifications for gas, NGL, and condensate
of this course have been taught in many of the
These modules provide an understanding of • About the selection and evaluation of processes used to dehydrate natural gas, meet
hydrocarbon dewpoint specifications, and extract NGLs world’s base-load and peak-shaving LNG plants,
common terminology, hydrocarbons and their • How to apply physical/thermodynamic property correlations and principles to the such as in Australia, Indonesia, Malaysia,
physical properties, qualitative and quantitative operation, design, and evaluation of gas processing facilities Norway, Qatar, UK, and West Indies.
phase behavior, hydrates, and fluid flow. In • Practical equipment sizing methods for major process equipment Clients are invited to evaluate the curriculum for
addition, they provide a systematic approach to • To evaluate technical validity of discussions related to gas processing LNG Short Course: Technology and the LNG
understanding the common types of equipment, • To recognize and develop solutions for operating problem examples and control issues in Chain (G29). The G29 course has more coverage
and the primary unit operations in both offshore gas processing facilities on LNG technology and the LNG value-chain and
and onshore gas conditioning and processing does not contain the same materials as The
facilities. Each module ranges from 3 – 5 C OU RSE C ON TENT
Campell Gas Course® (G4).
hours of self-paced activities, with pre and post • Gas processing systems
• Physical properties of hydrocarbons DESIGNED FO R
assessments. In addition, the modules have • Terminology and nomenclature
interactive exercises and problems to solve on Personnel involved with natural gas processing
• Qualitative phase behavior and LNG production, as well as anyone
the various topics. • Vapor-liquid equilibrium interested in a solid technical understanding of
• Water-hydrocarbon phase behavior, hydrates, etc. the principles of an LNG plant.
D E S IG N E D F O R • Basic thermodynamics and application of energy balances
Facilities engineers, process engineers, senior • Process control and instrumentation YOU WILL LEARN
operations personnel, field supervisors, and • Relief and flare systems • The basics of LNG gas conditioning and
engineers who select, design, install, evaluate, • Fluid hydraulics; two-phase flow processing
or operate gas processing plants and related • Separation equipment • Selection and evaluation processes used
facilities. • Heat transfer equipment to dehydrate natural gas, remove heavy
• Pumps components and other contaminants, and
S K IL L MO D U L E S • Compressors and drivers extract NGLs for LNG plants
• Hydrocarbon Components and Physical • Refrigeration in gas conditioning and NGL extraction facilities • Physical/thermodynamic property correlations
Properties • Fractionation and principles, including heating values, etc.
• Glycol dehydration; TEG as applied to gas processing facilities and
• Introduction to Production and Gas • Adsorption dehydration and hydrocarbon removal
Processing Facilities LNG plants
• Gas treating and sulfur recovery • Fundamentals of propane, propane-precooled,
• Qualitative Phase Behavior and Vapor • Overview and summary
Liquid Equilibrium mixed refrigerants, and cascade systems used
in LNG plants
• Water/Hydrocarbon Phase Behavior • Key points in other LNG liquefaction
• Thermodynamics and Application of Energy technologies
Balances • How to perform and review equipment sizing
• Fluid Flow for major process equipment
• Separation • Solutions to operating problems and control
issues in LNG and gas processing facilities
• Heat Transfer Equipment Overview
• Pumps and Compressors Overview COURSE CONTE N T
• Refrigeration, NGL Extraction, and
2020 Schedule and Tuition (USD) Basic gas technology principles • Terminology
Fractionation ABERDEEN, UK 9-20 MAR $9990+VAT and nomenclature • Physical properties of
7-18 SEP $9990+VAT hydrocarbons • Qualitative phase behavior •
• Contaminant Removal - Gas Dehydration BANDUNG, INDONESIA 7-18 SEP $9990 Vapor-liquid equilibrium • Water-hydrocarbon
• Contaminant Removal - Acid Gas and BRISBANE, AUSTRALIA 2-13 NOV $9995+GST
system behavior, hydrates, etc. •
Mercury CALGARY, CAN 4-15 MAY $9020+GST
DENVER, US 1-12 JUNE $9120 Thermodynamics of LNG processes •
DOHA, QATAR 22 MAR-2 APR $9990 Separation equipment • Gas treatment, CO2, and
DUBAI, UAE 4-15 OCT $9990+VAT H2S removal • Dehydration of natural gas (TEG
HOUSTON, US 27 APR-8 MAY $9115
Self-paced, virtual course 3-14 AUG $9115
and Molecular Sieve) • Heat transfer and
exchangers • Pumps and compressors •
- start anytime. 7-18 DEC $9115
KUALA LUMPUR, MALAYSIA 13-24 JULY $9990 Refrigeration systems • LNG liquefaction
Tuition US$4325 30 NOV-11 DEC $9990 technologies • Fractionation • and more...
KUWAIT CITY, KUWAIT 15-26 NOV $9990
LONDON, UK 13-24 JULY $9990+VAT
16-27 NOV $9990+VAT 2020 Schedule and Tuition (USD)
FOR MORE INFORMATION, VISIT PERTH, AUSTRALIA 17-28 AUG $9995+GST DOHA, QATAR 1-12 NOV $9990
PETROSKILLS.COM/G3ONLINE PITTSBURGH, US 16-27 MAR $9120 HOUSTON, US 15-26 JUNE $9115
STAVANGER, NORWAY 19-30 OCT $9990 PERTH, AUSTRALIA 10-21 FEB $9995+GST
GAS PROCESSING 7
Overview of Gas LNG Short Course: Practical Computer
Gas Treating and Sulfur
Processing – G2 Technology and the Simulation Applications
Recovery – G6
LNG Chain – G29 in Gas Processing – G5
BASIC 3-DAY BASIC 5-DAY INTERMEDIATE 5-DAY INTERMEDIATE 5-DAY
G2 is a versatile overview of the gas conditioning This LNG Short Course is designed for This full 5-day course covers sweet gas This course emphasizes process selection,
and processing industry. This course is designed participants requiring moderate technical processing and NGL extraction, using a practical operating issues, technical
for a broad audience and is engaging and coverage, coupled with information on LNG commercial simulator to perform calculations. A fundamentals, and integration of the sweetening
interactive, utilizing basic technical exercises and commerce and all parts of the LNG Value Chain. basic working knowledge of the commercial facilities into the overall scheme of gas
terminology to communicate key learning points. Over 5-days, the course covers technical LNG process simulation package used (generally processing. Sulfur recovery and tail gas
This course does not cover the technology and basics and facility operation topics, plus UNISIM) is suggested to achieve the course processes are also covered, including standard
engineering principles in depth, and is only technical, design, and commercial issues. learning objectives. Volumes 1 and 2 of the John Claus configurations, SuperClaus, EuroClaus,
recommended for those needing an overview of Selected exercises and syndicates are used to M. Campbell textbooks, Gas Conditioning and SCOT, etc. Special design and operation topics,
the industry and common processes and reinforce the main topics of LNG trade and Processing, are the basis for the material such as trace sulfur compound handling and the
equipment used. technology. In-house versions are available with presented, coupled with a ‘red thread’ importance of H2S:CO2 ratio, are covered as well.
either increased technical and operational comprehensive exercise based on a typical gas Related topics reviewed during the course
D E S IG NE D F O R emphasis or increased project and development processing facility (can be applied to onshore or include liquid product treating, corrosion,
As a wide ranging overview, it is suitable for emphasis. More in-depth coverage for technical, offshore facilities). The exercise is developed in materials selection, and NACE requirements.
interested parties, such as geologists, reservoir production, and processing personnel is stages as the material is covered. Participants
engineers, procurement professionals, and sales available in our 10-day course, G4 LNG, Gas will develop a comprehensive process DES IGNED FOR
or business development staff; related specialists Conditioning and Processing - LNG emphasis. simulation that includes a dew point control Production and processing personnel involved
like environmental staff, operational staff, and process, a mechanical refrigeration process with with natural gas treating and sulfur recovery,
shift foremen; those new to the industry, such as DESI GN ED FOR economizers, hydrate inhibition using MEG, and requiring an understanding of the principles of
entry-level (1-2 year) engineers; or anyone Commercial and managerial staff looking for a NGL liquid product stabilization with recycle. these process operations. This course is for
interested in a general, technically-oriented concise overview; engineers new to the LNG facilities engineers, process engineers,
overview of the gas processing industry. industry; operations supervision staff and senior NOTE: The individual exercises include operations personnel, and field supervisors, as
plant personnel; specialists looking to broaden condensed gas processing fundamentals drawn well as others who select, design, install,
YOU W IL L L E A R N their general knowledge of LNG; and staff from the internationally famous Campbell Gas evaluate, or operate gas sweetening and sulfur
• An overview of natural gas and world energy involved in LNG commerce and interested in Course® textbooks Volumes 1 & 2. recovery facilities.
trends LNG technical fundamentals.
• Natural gas sources, makeup, properties, DES IGNED FOR Y OU WILL LEA R N
specifications, and related oil and gas YOU W I LL L EARN Engineers that require practical in-depth training • Evaluation and selection of processes to
terminology • What is LNG, why it is produced, and what is on natural gas processing and NGL recovery remove acid gases (H2S, CO2, COS, CS2,
• Markets and uses for NGL, LPG, ethane, the current status of the industry processes, with emphasis on the use and mercaptans, etc.) from gas and NGLs
propane, and butane • LNG facilities world-wide benefits of a simulation package. • The advantages and disadvantages of available
• Summary of gas processing costs, and • The LNG chain and impact of contractual gas treating technology and processes
issues on LNG plant design and operation; Y OU WILL LEA RN • How to estimate solvent circulation rates,
commercial and contract issues in liquids
LNG pricing • To determine the water content and hydrate energy requirements, and equipment sizes
extraction
• A survey of commercial and contractual issues formation conditions for gas streams using • To recognize and evaluate solutions to
• How gas is transported and sold
• Project costs, feasibility, development, and issues both a commercial process simulator and common operating and technical problems
• Overview of the common equipment used
• Some technical fundamentals of gas hand calculation methods • Sulfur recovery technologies, including an
in the oil and gas industry, including heat
processing, such as molecular weight, heating • Techniques to inhibit hydrate formation, overview of the Claus Sulfur process
exchangers, pumps, and compressors
value, Wobbe Index, vapor pressure, multi- including injection of equilibrium inhibitors • How to select among the proper sulfur
• Options for various basic gas conditioning
component mixtures, thermodynamics such as methanol and MEG recovery process given differing process
and processing steps, including acid gas
• Refrigeration: single and multi-component • Preliminary design and evaluation of TEG conditions
removal, dehydration, liquid extraction,
refrigeration cycles dehydration processes using quick hand • Tail gas cleanup
product fractionation, LNG overview,
• Technologies used in the production of LNG calculations
pipelines, sulfur recovery, and acid gas
for base-load and small scale production, • Process design used to control the COURS E CONTE N T
injection
issues relating to technology selection, and hydrocarbon dew point of sales gas streams Fundamentals of sour gas processing,
COUR S E CO N T E N T operation by removing NGLs using mechanical sweetening, etc. • Overview of gas treating and
Natural gas and world energy trends • • Equipment used in the production of LNG: refrigeration processes sulfur recovery, terminology • Gas specifications
Hydrocarbon components and physical heat exchangers, compressors and drivers • Various techniques to optimize mechanical and process selection criteria • Generic and
used for LNG, pumps, and turbo expanders refrigeration systems specialty amine treating • Common operating
properties • The role of gas processing in the
• To apply knowledge of LNG gas pretreatment, • How to use the process simulator to evaluate and technical problems • Proprietary amine
natural gas value chain • Heat transfer
drying, and refrigeration the impact that pressure and temperature solvents, such as Sulfinol and Flexsorb •
equipment • Pumps and compressors • Acid
• About LNG storage, shipping, and terminals, changes have on the sizing of process Carbonate processes • Physical absorption
gas removal • Gas dehydration • NGL sizing basis, and small scale tanks
extraction • Fractionation and stabilization • equipment and levels of NGL recovery processes, e.g. Selexol • Metallurgical issues
• Types of LNG carriers, marine management • How to use short-cut distillation calculations
LNG • Pipelines and storage • Sulfur recovery (corrosion) • Other technologies and new
issues, and LNG transfer to provide input to rigorous distillation
and acid gas injection developments • Selective treating, acid gas
• LNG importing, regasification of LNG and simulations in order to obtain faster enrichment • Solid bed and non-regenerable
distribution to consumers, basis for sizing, convergence
technology selection, and energy integration treating; scavengers • Liquid product treating •
• Which thermodynamic property correlations Sulfur recovery processes (including degassing)
• New developments: development of off- are appropriate for various gas processing
shore LNG operations to regasification and • Tail gas clean-up (SCOT-type, CBA, and
systems others) • Acid gas injection • Membranes •
liquefaction; coal seam gas project issues
• Limitations associated with commercial Emerging and new technologies • Course
• Site selection and HSSE considerations
simulation packages and how the results can workshop and summary
C OU RSE C ON T EN T be quickly checked for relative accuracy
What LNG is and where it comes from •
COURS E CONTENT
Physical properties of LNG • Vapor-liquid
Physical properties of hydrocarbons •
equilibrium behavior of LNG and refrigerants •
Qualitative phase behavior • Vapor-liquid
Gas pre-treatment • Heat exchangers •
equilibrium • Water-hydrocarbon equilibrium •
Refrigeration • Rotating machinery •
Basic thermodynamic concepts • Separation
Liquefaction processes • LNG storage • LNG
equipment • Heat transfer • Pumps •
shipping • LNG importing
Compressors • and more...
2020 Schedule and Tuition (USD) 2020 Schedule and Tuition (USD) 2020 Schedule and Tuition (USD)
HOUSTON, US 29 SEP-1 OCT $3250 HOUSTON, US 24-28 AUG $4310 DUBAI, UAE 18-22 OCT $5770+VAT 2020 Schedule and Tuition (USD)
KUALA LUMPUR, MYS 15-17 JUNE $4120 KUALA LUMPUR, MYS 5-9 OCT $5470 HOUSTON, US 8-12 JUNE $4950 HOUSTON, US 23-27 MAR $4640
LONDON, UK 16-18 MAR $3790+VAT LONDON, UK 20-24 APR $5035+VAT * plus computer charge LONDON, UK 28 SEP-2 OCT $5360+VAT
Any course is available in-house at your location. Contact us today. +1.918.828.2500 | petroskills.com | +1.800.821.5933 (toll free North America)
8 PROCESS FACILITIES
Introduction to Oil Choosing the Right Oil Well Pad Facilities Oil Production and
and Gas Production Facilities Equipment for (for non-Facilities Processing Facilities –
Facilities – PF2 the Reservoir – PF3 Engineers) – OWPF-nFE PF4
BASIC 3-DAY BASIC 5-DAY BASIC 3-DAY FOUNDATION 10-DAY
The scope of the discussion ranges from an This course is similar to Introduction to Oil and NEW The emphasis of this course is on oil production
overview of the oil and gas industry, Gas Production Facilities (PF-2), but is facilities - from the wellhead, to the delivery of a
This course provides a comprehensive overview
hydrocarbon phase behavior characteristics, and presented in the context of concept selection and specification crude oil product, to the refinery.
of onshore oil well-pad facilities as typically
different reservoir types, to product front-end field development planning. Both onshore and offshore facilities are
utilized for the development of shale/tight oil
specifications and the processes used to meet discussed. Produced water treating and water
DESI GN ED FOR fields. The course is focused on the purpose,
these. Other facilities considerations are injection systems are also covered. Solution gas
This course is intended for those working on function, and operation of the facilities - what,
addressed, such as process safety and handling processes and equipment will be
field development teams, as well as those who why, how - not on the more detailed engineering
downstream processing that may impact the discussed at a relatively high level. In addition to
need to better understand how surface facilities aspects which are covered in a companion
production facility selection and operation. the engineering aspects of oil production
are selected and how subsurface characteristics course OWPF-FE (for Facilities Engineers). A
facilities, practical operating problems will also
D E S IG NE D F O R affect facility design and specification. major aspect of the non-Facilities Engineers
be covered, including emulsion treatment, sand
Those interested in an overview of production course is how the pad facilities integrate with the
handling, dealing with wax and asphaltenes, etc.
facilities, including subsurface professionals, YOU W I LL L EARN wells/subsurface and also the product (oil, gas,
Exercises requiring calculations are utilized
line managers, sales or business development • How to develop the project framework and produced water) export systems. This course
throughout the course. The course is intended to
staff, environmental personnel, operations staff, decision making strategy does not contain many calculations; instead the
complement the G-4 Gas Conditioning and
and those new to the industry. • How the specification of production/ intent is to generate discussion and better
Processing course, focused on the gas handling
processing facilities is influenced by reservoir understanding of the issues involved with
side of the upstream oil and gas facilities area.
YOU W IL L L E A R N type, drive mechanism, fluid properties, design, operation and maintenance of the pad
• How the reservoir type, drive mechanism, location, and contractual obligations facilities, and their role in providing value to the DESIGNED FO R
fluid properties, location, and product • Operating conditions that affect the development as a whole. Process/facilities engineers and senior operating
specifications influence the selection and specification of the production facilities from personnel involved with the design and operation
design of the production facilities the wellhead through initial separation DES IGNED FOR
of oil and produced water processing facilities.
• How to do quick ‘back of the envelope’ • Parameters that affect the design and This course is aimed primarily at non-Facilities
calculations to better understand equipment specification of oil stabilization and Engineers, e.g. production/reservoir engineers, YOU WILL LEARN
sizing and capacity dehydration equipment operations personnel, environmental staff, etc, or • Well inflow performance and its impact on
• Parameters that affect the design and • The design and specification of produced anyone who needs a basic understanding of oil production/processing facilities
specification of oil stabilization and water systems appropriate for the rate and well pad facilities – what they do and how they • About oil, gas, and water compositions and
dehydration equipment composition of the produced water to meet work. properties needed for equipment selection
• Awareness of the parameters that determine the required environmental regulations and/or and sizing
Y OU WILL LEA RN
flowline/gathering system capacity injection well capacity • How to select and evaluate processes and
• The different types of process flow schemes
• The purpose of separators in a production • The design and specification of gas handling equipment used to meet sales or disposal
typically used for oil well pad facilities
facility and familiarity with the typical facilities, including compression dehydration specifications
• The various types of engineering drawings
configurations and sweetening • To apply physical and thermodynamic
used to describe facilities and how to interpret
• Typical design parameters, operating • The impact of artificial lift systems and property correlations and principles to the
them
envelopes, common operating problems of secondary/tertiary production projects on design and evaluation of oil production and
• How well production characteristics/
oil and gas production equipment, and the facilities selection and design processing facilities
performance should be integrated into the
effect of changing feed conditions over the • The principles of asset integrity and inherently • How to perform equipment sizing calculations
facilities design
life of a field safe design given the rate, composition, for major production facility separation
• The range of fluid compositions and
• To describe oil dehydration/desalting process temperature, and pressure of the production equipment
properties typically encountered in the newer
options and equipment stream • To evaluate processing configurations for
shale/tight oil developments and their impact
• Produced water treating options and the • About midstream facilities required different applications
on facilities design and operation
dependence on surface vs. subsurface, downstream of the primary production facility • How to recognize and develop solutions to
• The main processing requirements and
offshore vs. onshore disposal to deliver saleable products to the market, and operating problems in oil/water processing
associated equipment types typically required
• Compressor performance characteristics and how these facilities are affected by production facilities
• How the various processes and equipment
how they affect production rates and facility rates, composition, and production facility
types work with focus on the requirements COURSE CONTE N T
throughput performance
of typical onshore shale/tight oil well pad Reservoir traps, rocks, and drive mechanisms
• Gas dehydration process options, with a
C OU RSE C ON T EN T facilities • Phase envelopes and reservoir fluid
particular emphasis on glycol dehydration
Reservoir types, fluid properties, and typical • Effects of third party gas gathering system classification • Well inflow performance •
• The principles of asset integrity and inherently
product specifications • Flowlines, gathering design and operation on the well pad facilities Artificial lift • Gas, oil, and water - composition
safe design given the rate, composition,
temperature, and pressure of the production systems, flow assurance, and production and properties • Oil gathering systems •
COURS E CONTENT
stream separation • Oil dehydration and stabilization • Gas-liquid separation • Emulsions • Oil-water
Engineering drawings • Oil well pad process
• About midstream facilities required Produced water treating and water injection separation • Oil treating • Desalting • Oil
flow diagrams • Well production characteristics
downstream of the primary production facility systems • Gas handling, including stabilization and sweetening • Oil storage and
• Fluid compositions and properties •
to deliver saleable products to the market, and compression, dehydration, and sweetening • vapor recovery • Sand, wax, asphaltenes, and
Separation equipment • Oil treating • Oil
how these facilities are affected by production The effect of artificial lift systems, and secondary scale • Transportation of crude oil • Produced
stabilization • Storage tanks and vapor recovery
rates, composition, and production facility and tertiary recovery projects • Midstream water treatment • Water injection systems •
• Facility piping systems • Compressors •
performance facilities - gas processing, pipelines, product Solution gas handling
Sand handling • Produced water handling •
storage, and LNG • Other facility considerations
Flow measurement
COUR S E C O N T E N T - utility systems, process safety and asset
Overview of oil and gas industry • Qualitative integrity, and environmental regulations
phase behavior and reservoirs • Hydrocarbon
properties and terminology • Typical sales/
disposal specifications • Flowlines, piping and
gathering systems • Production separation •
Oil processing • Water injection systems
(including pumps) • Gas handling -
compression, dehydration • Measurement and
storage • Other facilities considerations - 2020 Schedule and Tuition (USD)
utilities, process safety • Midstream facilities
BAKERSFIELD, US 20 APR-1 MAY $9020
- gas processing, pipelines, LNG DENVER, US 11-22 MAY $9120
DUBAI, UAE 6-17 DEC $9715+VAT
HOUSTON, US 10-21 FEB $9115
9-20 NOV $9115
2020 Schedule and Tuition (USD) KUALA LUMPUR, MYS 29 JUNE-10 JULY $9935
2020 Schedule and Tuition (USD) 2020 Schedule and Tuition (USD) DENVER, US 12-14 OCT $3235 KUWAIT CITY, KUWAIT 13-24 SEP $9715
HOUSTON, US 28-30 SEP $3250 HOUSTON, US 4-8 MAY $4310 HOUSTON, US 7-9 DEC $3250 LONDON, UK 17-28 AUG $9115+VAT
+1.918.828.2500 | petroskills.com | +1.800.821.5933 (toll free North America) Any course is available in-house at your location. Contact us today.PROCESS FACILITIES 9
Fundamentals of Process Safety Process Safety Risk Based Process
Process Safety – PS2 Engineering Engineering – PS4 Safety Management
Principles – PSE – HS45
FOUNDATION 5-DAY BASIC 40 HOURS FOUNDATION 5-DAY FOUNDATION 5-DAY
The course will cover the fundamentals of This is a competency driven, fundamental course This course introduces process safety
Process Safety for all staff levels of processing covering the broad scope of process safety management in the oil and gas industry, the
facilities in the upstream and downstream oil, engineering. Other topics relevant to process elements and benefits of process safety
gas, and petrochemical industry. To identify how
PetroAcademy safety are introduced, showing how process safety management systems, and tools for
TM
different disciplines and roles can have an engineering fits into the broader context of risk implementing and managing a system. In this
impact on Process Safety performance, there is a management and process safety management, but course the participant will learn to use tools and
rolling case study (Project COLEX) throughout BLEN DED LEARNING the emphasis is on the technical content. While techniques for managing process safety. The
the course that involves the installation of a many of the examples are drawn from upstream Center for Chemical Process Safety’s (CCPS)
separator vessel. The associated Process Safety and midstream oil and gas facilities, the principles book titled “Guidelines for Risk Based Process
considerations and implications are explored This course will be delivered virtually through are applicable across the hydrocarbon processing Safety” or “RBPS Guidelines” will be the text for
and discussed at the various stages, from design PetroAcademy providing participants with the industries. The course is designed to accelerate this course. Participant-centered exercises and
to full operation. knowledge they need at their convenience. the participants process safety learning curve. selected case studies will be used to build on the
Serious process safety incidents occur somewhere concepts that CCPS advocates for risk based
D E S IG NE D F O R in the industry nearly every week, and few if any process safety.
The course will benefit all staff associated with This Process Safety Engineering Principles are new; essentially the same ways of going wrong
the operation, maintenance, and governance in Blended Program provides an overview of Throughout the course, participants will be
are found repeatedly, in different operating
production and processing facilities. It is relevant process safety engineering fundamentals for challenged to think how their process safety
contexts. One of the main objectives of PS-4 is to
to roles, including senior management, project hydrocarbon processing facilities. The focus of management system can be enhanced and
develop knowledge of the more common ways of
and engineering support teams, HSE support, this course is on the engineering/design modified to meet the concepts of risk-based
going wrong, and one of the ways of doing that is
supervisors, and operator and maintenance aspects of Process Safety Management. decision making. An individual action plan will
discussion of major incidents, including some of
technicians. An understanding is provided of the Frequent reference is made to historical be developed to apply the information from the
those that have affected our regulatory
design basis and essentials for safe operations, incidents and recurring problem areas. course to the workplace.
environment. PS-4 graduates should be able to
without addressing the more detailed calculation Techniques for analyzing and mitigating see their facilities and projects with a new
process safety hazards applicable to oil and gas DESIGNED FO R
aspects covered in Process Safety Engineering perspective, a new sense of not only how things
processing will also be reviewed. This program HSE professionals, operations and maintenance
PS4. work, but also of how things fail.
integrates the concepts covered to achieve a technicians, engineers, supervisors and project
YOU W IL L L E A R N H O W TO measured approach to Process Safety DESIGNED FOR
managers requiring a basic foundation in
• Identify the systems and processes required Engineering. Anyone who needs to work with process safety developing and managing process safety. The
to enhance process safety in a high hazard engineers; this would include facilities engineers, more technical aspects of process safety
installation DESI GN ED F OR operations and maintenance supervisors, project engineering are covered in PS4, Process Safety
• Identify and choose appropriate techniques Anyone who has to deal with concepts of engineers and managers, entry level process safety Engineering.
and tools to qualitatively assess process process safety engineering, including facilities engineers, experienced professionals new to oil and
engineers, process engineers, design YOU WILL LEARN H O W TO
hazards gas, and anyone who needs a general
engineers, new safety/loss engineers, project • Identify processes applicable to Process
• Determine appropriate risk reduction understanding of the breadth of the process safety
engineers, operations supervisors, maintenance Safety Management (PSM) and describe
strategies and identify effective risk reduction engineering discipline. Technical staff from
supervisors, and representatives from relevant terms used
measures to prevent, control, and mitigate insurance companies and regulatory agencies have
insurance companies or regulatory agencies. • Identify which standards are to be applied for
process safety risk found the course useful. Those requiring a less managing process hazards
• Recognize and develop systems to manage technical course may be interested in PS-2,
YOU WI L L L EARN • Apply programs and tools for managing a
Process Safety in operations through Fundamentals of Process Safety; and risk-based
• How to analyze and assess different types of PSM system
operating procedures and operating limits, process safety management is the subject of HS45.
risk analyses • Choose appropriate decision making methods
ensuring plant integrity through maintenance
• How to utilize models that are associated and tools to identify process hazards
and inspection YOU WILL LEA RN
with risk management • Types of equipment and process systems • Describe and use techniques available for
• Use a management of change process to
• The importance of building safety into that have historically been problematic in the control of hazards associated with process
minimize risk of change
processes Upstream and Midstream oil and gas industry designs
• Identify and monitor key performance
• How Inherently Safer Design can be applied • Basics of risk analysis • Describe the criteria and methods of selecting
measures and verifications to maintain and
• and more... • Thinking in terms of Inherently Safer Design equipment and safeguarding controls
improve safety performance
• Most common process hazard analysis • Research and apply the performance
COUR S E C O N T E N T C OU RSE C ON T EN T methods and where they are used parameters for the safety systems in
Business context for Process Safety • Risk Process Safety Risk Analysis and Inherently • Layers of Protection concept - what the different operations
assessment (hazard identification, hazard Safer Design • Process Hazards Analysis and layers are and how they are applied • Explain the role of all disciplines and their
scenarios, consequence and likelihood analysis, Layers of Protection analysis techniques • • Detection and mitigation methods for different contribution to the management of potential
and risk analysis and tools and techniques) • Leakage and dispersion of hydrocarbons • types of hazards HSE hazards
Risk reduction measures (barriers) • Combustion behavior of hydrocarbons •
Sources of ignition and hazardous area COURSE CONTENT COURSE CONTE N T
Management of process safety in operations
classification • Specific plant systems and Historical incidents and problem areas • Risk Process safety culture and competency •
(operating procedures, design and operating
equipment • Relief and flare systems • analysis basics • Process hazards analysis Compliance with standards • Understand
limits, human factors, inspection and
Historical incident databases, plant layout and techniques - overview • Layers of protection • hazards and risk • Operating procedures and
maintenance, and emergency response) •
equipment spacing • Fire protection systems • Inherently safer design • Hazards associated with safe work practices • Asset integrity and
Management of change • Learning from
SIS, monitoring and control process fluids • Leakage and dispersion of reliability • Management of change • Conduct
previous incidents and near misses • Self-
hydrocarbon releases • Combustion behavior of of operations • Incident investigation
verification and measurement • Process safety
hydrocarbons • Sources of ignition • Hazards (associated with plant failures) • Measurement
key performance indicators • Management
associated with specific plant systems • Plant and metrics • Management review and
review and auditing • Process safety leadership layout and equipment spacing • Pressure relief continuous improvement
(governance and culture) and disposal systems • and more...
Self-paced, virtual course
- start anytime.
Tuition US$4325
2020 Schedule and Tuition (USD)
DOHA, QATAR 12-16 APR $5710
DUBAI, UAE 22-26 NOV $5710+VAT 2020 Schedule and Tuition (USD)
2020 Schedule and Tuition (USD) HOUSTON, US 24-28 AUG $4525 DENVER, US 26-30 OCT $4405
DENVER, US 1-5 JUNE $4405
FOR MORE INFORMATION, VISIT KUALA LUMPUR, MYS 30 MAR-3 APR $6015 DUBAI, UAE 13-17 SEP $5550+VAT
19-23 OCT $6015 HOUSTON, US 13-17 APR $4410
HOUSTON, US 28 SEP-2 OCT $4410 PETROSKILLS.COM/PSONLINE LONDON, UK 14-18 DEC $5265+VAT KUWAIT CITY, KUWAIT 6-10 DEC $5550
LONDON, UK 23-27 NOV $5135+VAT PERTH, AUSTRALIA 29 JUNE-3 JULY $6605+GST LONDON, UK 27-31 JULY $5135+VATYou can also read
