Worldwide training programmes 2015 - Subsea engineering and training experts www.jee.co.uk
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Worldwide training programmes 2015
Subsea engineering and training experts
www.jee.co.uk
Welcome
Welcome to our learning and
development guide for 2015.
At Jee, we’re continually developing
our courses in response to
industry requirements and trends.
In this brochure we’re excited to
showcase our range of courses for
2015, including the new Advanced
design and stress analysis of
subsea equipment.
Jee courses and training programmes are built on the back of
our engineering capabilities. With over 26 years’ experience in
delivering integrated subsea engineering and training services
to the oil, gas and renewables industries, our expertise ensures
that Jee courses are of the highest calibre.
We are committed to being a centre of learning excellence. Our
courses are written by practising engineers; consequently all
training content remains current and informative, with practical,
real-world case studies. Each course is also supported with
comprehensive notes that can now be accessed anywhere in
the world using our Jeenius app.
Contents
page
We offer a variety of ways to complete our courses – from public
and in-company programmes in key locations around the world, Life-of-field3
to online courses for the ultimate flexibility. We can even create a How our courses span the whole life-of-field
completely customised course just for your company!
Our courses 4-5
Whatever course you choose, you can be assured it will be Our courses grouped into convenient
an enjoyable learning experience that will help develop your development programmes
company’s capabilities and facilitate your progression in the
oil, gas and renewables sector. In-company courses 6
Learn about our bespoke in-company options
Public courses 7
Find out why Jee public courses are so unique
Jenny Matthew
Head of Courses Online courses 8
Read about our online options
Blended learning programmes and course design9
Setting the benchmark in excellence -
find out how
Our courses 10-33
In-depth information on all our courses
including day-by-day content
Meet our tutors 34-37
Learn more about our team and how
to become a tutor
Engineering services 38-39
More information on our engineering capabilities
2 Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391
Our courses
Courses spanning the whole life-of-field
We have been delivering courses to the oil, gas and renewables
industries for nearly 20 years. During that time we have built
up an enormous portfolio of knowledge, below are an array of
courses we offer that span the whole life-of-field.
Engineering of flexibles
Polymers and composites
Onshore pipelines Offshore wind farms
Landfalls and marine terminals
Risers, umbilicals and flexibles
Flow assurance
Subsea power cables
Failure of deepwater Advanced design
pipelines of subsea pipelines
Installation calculations
Design of
subsea pipelines
Subsea pipelines
Subsea systems Integrity Rigid riser design
Subsea controls management
Construction of
Reeling design
subsea pipelines
Advanced design and stress Subsea hardware
analysis of subsea equipment
Free spans and
on-bottom stability Pigging and plugging
Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391 3
Our courses
We recognise the importance of finding the right course to expand your knowledge and meet your current and future
learning requirements. Our courses are developed in response to industry needs and segmented into introduction,
foundation and practitioner levels, to facilitate easy selection and integration into personal development plans.
The matrix below has been devised to allow you to quickly identify the right course to fulfil all your training needs.
Not sure which
Rigid flowlines
and terminals
course is for you?
and pipelines
production
and cables
Use this matrix to find
Risers and
Umbilicals
Landfalls
Flexibles
Onshore
controls
those most relevant.
Subsea
Subsea
Cables
See pages 10-33 for
full details.
Industry IO&G
IO&G IO&G IO&G IO&G IO&G IO&G IOW
overview
FA
Flow SS SC
FA FA SP FA FA
assurance FA FA
DSP
SP FS&S
SS P&C RUF
Design SC RUF DSP ADP LMT OP SPCI
SH EF RRD
ADS
LMT
Construction SS SC RUF
P&C RUF SP CSP
CSP OP SPCI
and installation EF RDC ICSP RDC
ICSP
P&C RUF
Operations RUF
SP P&P
and integrity SS SC P&P EF FS&S IMSP LMT OP SPCI
AIM
management IMSP AIM AIM
Decommissioning SS SC RUF RUF SP LMT OP SPCI
Code Course title Pg Code Course title Pg
IO&G Introduction to the oil and gas industry 10 ADP Advanced design including HP/HT and
Introductory Level Courses deepwater pipelines 13
IOW Introduction to the offshore wind industry 30
ADS Advanced design and stress analysis
Foundation Level Courses FA Flow assurance 28 of subsea equipment 18
Practitioner Level Courses LMT Landfalls and marine terminals 32 CSP Construction of subsea pipelines 23
OP Onshore pipelines 33 DSP Design of subsea pipelines 12
AIM Advanced integrity management of deepwater
P&C Polymers and composites 22
pipelines and risers 27
P&P Pigging and plugging 29 EF Engineering of flexibles 20
RUF Risers, umbilicals and flexibles 19 FS&S Free spans and on-bottom stability 14
ICSP Installation calculations for subsea pipelines 24
SC Subsea controls 16
IMSP Integrity management of subsea pipelines 26
SH Subsea hardware 17
RDC Reeling design calculations 25
SP Subsea pipelines 11 RRD Rigid riser design 21
SS Subsea systems 15 SPCI Subsea power cable installation 31
4 Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391
Suggested development programmes
For your ease we have put together a selection of training and development pathways which you may find of use.
For details on the course content please see pages 10-33.
For full details on putting together a comprehensive individual or group curriculum, please contact our courses
operations team on:
+44 1732 371 391 or email courseadmin@jee.co.uk
Subsea pipelines
Introduction to the oil and gas industry Subsea pipelines
Design of pipelines
Advanced design of subsea pipelines
Subsea pipelines Design of subsea pipelines
Free spans and on-bottom stability
Construction of pipelines
Installation calculations
Subsea pipelines Construction of subsea pipelines
Reeling design calculations
Advanced integrity of deepwater
Integrity management of pipelines pipelines and risers
Subsea pipelines Integrity management of subsea pipelines Flow assurance
Pigging and plugging
Onshore
Landfalls and marine terminals Onshore pipelines
Cables
Introduction to the offshore wind industry Subsea power cable installation
Subsea architecture
Subsea controls
Subsea systems
Advanced design and stress
Subsea hardware
analysis of subsea equipment
Risers Engineering of flexibles
Risers, umbilicals and flexibles Rigid riser design
Polymers and composites
Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391 5
In-company courses
Bespoke training packages at your location of choice
For larger groups we can send a tutor to you and you can select 24 Off-the-shelf courses covering the whole life-of-field
from our ‘off-the-shelf’ courses, choose to tailor a programme Choose from hundreds of modules
from hundreds of modules or have new topics developed. Our
A technical writing team on-tap to write new content on
writing and operations teams will create, plan and manage the
specific technology, methods or codes at your request
programme. Our tutors will deliver the course on a date and at
a location to suit you. Access to our library of technical videos – an important
learning tool to visualise key learning points
Our in-company programmes are renowned for the flexibility they
Real-life case-studies and lessons learned
afford in both tailoring to meet specific engineering technical
practices and project requirements and their convenience and A suite of worked examples and exercises designed to put
cost-savings. Our courses team will work closely with you to theory into practice
guarantee a first-class course every time. Assessments to monitor progress
Site visits to allow access to technology usually only seen
To ensure we meet your staff development requirements
on the seabed
and add real value, we have a huge selection of learning and
support materials, and components to choose from. A team of tutors with decades of industry experience
(please see pages 34-36 for details)
To find out more, please contact our courses operations team
at courseadmin@jee.co.uk.
Area of focus Select Choose course components
level
Subsea
architecture Introductory Controls Installation
Integrity
Subsea management of Integrity
Pipelines
pipelines pipelines management
Lifetime
Risers Foundation Risers extension
Design of Cables Systems Design
pipelines
Construction Practitioner Umbilicals Decommissioning
of pipelines
Onshore
Hardware Construction
pipelines
Flexibles
This is probably the best course I have attended in
7 years of training. Great instructor, great materials,
perfect level of detail.
Bobby West , Drilling Engineer, Chevron
6 Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391
Public courses
Face-to-face courses in global oil and gas hubs
Our classroom courses are held regularly around the world to
accommodate training needs as they arise. The 2014 and 2015
programmes are currently scheduled in Aberdeen and Houston.
New for 2015 we are excited to be running courses
in Norway.
At Jee we appreciate that course attendance is an investment
of time and money in an individual’s progression and personal
development. We pride ourselves on maximising every element
of the course to add value to every delegate. Our face-to-face
courses are created using blended learning techniques and are
designed to maximise time away from the office:
Site visits to major manufacturers and suppliers give visual
context, enabling participants to see equipment normally only
viewable on the seabed
Worked examples, case studies and exercises develop
understanding of the engineering principles applied
Videos and sample materials help to visualise the equipment
and processes used in the industry
Delegate drinks facilitate networking and knowledge sharing
in a less formal environment
Audience participation systems create an interactive, dynamic
and fun learning environment This course is amazing and the
Quizzes and assessments test knowledge retention and
aid recall
tutor was awesome in delivering
Tutors relate practical experiences to the subjects taught, the course contents.
giving first-hand experience of projects at every course Emeka Nwonu, Planning Engineer, Saipem Ltd
Every delegate receives a hard copy of our world-renowned course
notes, access to download their notes via our Jeenius app and a
certificate awarding their Continuous Professional Development
(CPD) points or Professional Development Hours (PDH).
Our up-to-date course schedule is available online at
www.jee.co.uk where you can also find out more about
our early bird and multi-booking discounts.
Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391 7
Online courses
Online learning, the ultimate in convenience Standard online courses
With all of the content and specialist knowledge of our
classroom courses, our online programmes allow for remote Introduction to the Introduction to the
learning from anywhere in the world. Guidance and technical oil and gas industry offshore wind industry
input from our range of expert tutors is just a click away. CPD and PDH points CPD and PDH points
Our online training is accessible, interactive and provides:
Anytime start dates – ideal for training between projects or
during projects as knowledge requirements arise
Accessible 24 hours a day, 7 days a week and from
anywhere in the world
A virtual classroom environment where delegates are guided
through their learning journey at their own pace Design of subsea Onshore pipelines
he option to select modules to create a custom course to
T pipelines CPD and PDH points
cater for specific training requirements CPD and PDH points
The opportunity for our professional co-ordinators to
synchronise training for an internationally located team
Online discussion forums to share experiences with
worldwide fellow delegates
An online tutorial forum to check on progress or ask questions
Access to download course notes via our Jeenius app
Industry recognised Continuous Professional Development
(CPD) points and Professional Development Hours (PDH) Subsea pipelines Construction of
CPD and PDH points subsea pipelines
We have developed online training course frameworks which CPD and PDH points
focus on ease of access, socialisation, information exchange,
knowledge construction, development and feedback.
Maintaining the motivation of the learner for the duration of the
course and ensuring engagement and retention of knowledge is
the priority of our programmes.
Create your own course
Delegates and companies can create their own online training
programmes by selecting specialised topics from more than Risers, umbilicals Advanced design
70 modules. To gain access to trial a complimentary module & flexibles including HP/HT &
and to find out about our multi-booking discounts, contact our CPD and PDH points deepwater pipelines
Course Co-ordinators at courseadmin@jee.co.uk CPD and PDH points
Subsea systems
CPD and PDH points
Request a
sample module
email
courseadmin@jee.co.uk
8 Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391
Blended learning programmes
and course design
Gain the benefits of online and classroom courses in a We use an established ADDIE-based (Analyse, Design, Develop,
Implement and Evaluate) methodology for developing training
combined programme
materials for our classroom, online and blended learning
If you like the benefits that online and classroom courses bring programmes.
to the learning experience, yet can’t decide which delivery
method to go for, we can help. Jee has developed a blended
learning offering that combines elements from both our online
and traditional classroom courses.
Our blended learning programmes are designed by selecting
the most appropriate delivery method for each learning
outcome. A combination of online modules, videos, podcasts,
self-study sessions, tutor-led workshops and group discussions
are used to build each programme, which are then managed
and accessed via our central online learning platform.
Evaluate
Each programme supports the learner through a structured
programme and delivers the benefits of both online and We evaluate the results
face-to-face tuition:
Global accessibility and consistency in delivery
Collaborative peer learning through knowledge sharing Implement
Learner-paced programmes – participants work through
the materials at their own pace around their day-to-day Our expert facilitators
commitments deliver the course
Tutor-led sessions focus on complex topics and
practical application of what has been learnt
Group exercises reinforce understanding
Cost and time efficiencies
Develop
We develop the training
materials, implementing
blended learning
techniques to encourage
learner participation
Design
Rigorous course design
including kick-off and
scoping meetings
Analyse
Analyse the training/
learning needs and set Our courses are designed and written using two decades of
appropriate objectives course writing experience. Our technical content is underpinned
by academic learning theories to facilitate retention and
application of knowledge learnt.
To find out more about our blended learning programmes or to
have a course developed for you, please contact our courses
team at courseadmin@jee.co.uk or call +44 1732 371 391.
Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391 9
Must do course
Introduction to the
oil and gas industry IO&G
About the course
Course information
This course provides a complete overview of the oil and gas industry from its
origin, exploration methods and production processes, to commercial trends and Level: Introductory
technical terms. If you’re new to the industry or ever wondered how it all works, this Duration: 1 day
is the course for you!
CPD points/PDH points: 7
Key learning areas
Gain a non-technical overview of the oil and gas industry, the people
that work in it and key events that have shaped its development
Build a better understanding of how you and your company fit into
the bigger picture
Gain an understanding of industry terms and acronyms
Build an awareness of market drivers and commercial trends
The course was extremely informative.
Fernando Mendez, Project Engineer, Chevron
Did you know
Jee has been in the oil and gas industry for over 26 years
Course content
Day 1 – Morning Day 1 – Afternoon
Hydrocarbon formation Transportation systems Commercial trends
• Origin of oil and gas • Offshore transportation systems • History
• Migration of petroleum • Onshore pipeline spreads • Politics
• Accumulation of petroleum • Pipelines through difficult ground • Consumption and production
• Location of major offshore fields • Decommissioning • Reserves
• Prices
Exploration methods Gas treatment and uses
• New production
• Geological field mapping • Gas processing
• Geophysical prospecting • LNG
• Exploratory drilling • Gas distribution
• Power generation
Hydrocarbon production
• Onshore production wells Refining process
• Offshore platforms • Refining crude oil
• Offshore production drilling • Petroleum products
• Existing offshore infrastructure
• Subsea equipment
10 Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391Must do course
Subsea pipelines
SP
About the course
Course information
An essential course for subsea engineers, this course provides an understanding
of the lifecycle of a pipeline, from design and construction through to operation. Level: Foundation
Delegates benefit from a grounding in all key areas including: pipeline design Duration: 4 days
considerations, pipe manufacturing methods and materials selection, as well
Site visit*: 1
/2 day
as a knowledge of flow assurance, installation methods and pipeline integrity
management systems. CPD points/PDH points: 28
Key learning areas
An introduction to pipeline integrity, including flow assurance and inspection
Discuss instrumental considerations for pipeline design
Look at manufacturing methods and material selection
Consider installation processes and construction support
Study repairs and pipeline decommissioning
A great balance between coverage of theory,
applications and analysis, as well as practical
advice and anecdotes from the field.
Ivan Volzhskiy, Engineer, 2H Offshore Engineering
Did you know
Jee has carried out over 1000 projects related to subsea pipelines
Course content
Day 1 Day 2 Day 3 Day 4
Field layouts Materials Installation methods Introduction to pipeline integrity
• Example layouts • Selection for strength • S-lay • Failures: frequency and incidents
• Pipeline and cable uses • Selection for corrosion resistance • J-lay • PIMS
• Subsea equipment • Clad and lined pipelines • Reel-lay
• Platforms and floating production Flow assurance
• Titanium and composites • Bundles and towed installations
systems • Operational controls
External coatings • Flexibles and umbilicals
• Riser configurations • Additives
• External corrosion protection Construction support • Pigging
Route selection
• Cathodic protection • Landfalls
• Survey techniques Pipeline inspection
• Soil types • On-bottom stability • Trenching and burial
• Risk-based inspection plan
• Routing of pipeline • Thermal insulation • Pre-commissioning
• External survey
• Pipe-in-pipe systems
Pipe manufacture Tie-ins, spools and risers • Internal inspection
• Active heating of lines
• Rigid steel and flexible pipe • Tie-ins and spools • Anomaly assessment
Pipe design Common work • Rigid steel riser installation
Exercises
• Pressure • Construction survey • Flexible riser installations
• 13 scenarios
• Design approaches • Route preparation
• Diameter sizing • Welding Repairs, tie-ins and
• Wall thickness for bursting and • Non-destructive testing (NDT) decommissioning
hydrostatic collapse • Hot taps, tees and wyes
• Wall thickness for local buckling • Remedial works
• Global buckling • Decommissioning
*Available in Aberdeen and Houston.
Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391 11Design of pipelines
Design of subsea pipelines
(formerly Design of subsea pipelines – Part 1)
DSP
About the course
Course information
This course covers the techniques for basic subsea pipeline design, including
diameter, wall thickness and material selection, plus thermal and concrete weight Level: Practitioner
coating selection and sizing. Duration: 4 day
Delegates will also benefit from discussions around industry developments and CPD points/PDH points: 28
the latest technologies. The tutor will reinforce learning by talking participants
through design calculations using codes, as well as pragmatic approaches to
analysis techniques. This is a crucial programme to help engineers to understand
contractors’ output, design houses to apply calculations to projects, and
regulation bodies to follow up-to-date industry codes.
Key learning areas
Understand issues affecting design, to appreciate why pipelines are made
the way they are
Practice calculations based on industry codes
Discuss industry developments and new technologies
This course comprehensively introduces the pipeline
engineering practise. Strongly recommend!
Sui Wang, Design Engineer, Wellstream International Limited
Did you know
Jee is currently performing the detailed design for a pipeline project off the shore of Canada
Course content
Day 1 Day 2 Day 3 Day 4
Route Materials specification Strength Stability
• Rules for routing • Material selection • Design principles • Review of fundamentals
• Route survey • Review of material properties • Bursting • Oceanography
• Alignment sheets • Specification of line pipe • Collapse • Hydrodynamics
• Buckling and combined stresses • Resistance
Diameter Corrosion
• Strain-based design • Stability analysis
• Sizing for flow • Introduction
• Exercise • Computational fluid dynamics
• Fluid properties • Types of corrosion
• Exercise
• Flow fundamentals • Control measures End expansion and spoolpieces
• Single phase flow • End force and expansion factors Bottom roughness
• End expansion • Bottom roughness analysis
Thermal design and insulation
• Temperature profile • Spans
• Need for thermal design
• Exercise • Intervention
• Fundamentals of heat transfer
• Spoolpieces
• Pipeline heat transfer
• Insulation design considerations
• Insulation systems
• Application of insulation
• Operational problems in deep
water
• Exercise
12 Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391Design of pipelines
Advanced design including HP/HT
and deepwater pipelines
(formerly Design of subsea pipelines – Part 2) ADP
About the course
Course information
To fast-track your professional development, ensure you consider this course. Our
expert tutor will impart decades of knowledge of the more complex design issues Level: Practitioner
affecting pipelines, such as deepwater, high pressure (HP), high temperature (HT) and Duration: 4 days
highly corrosive fluids and gases. Gain an informed approach to conflicting methods
CPD points/PDH points: 28
of mitigating HP and HT problems.
Participants will expand on their understanding of how to apply the correct codes
of practice, carrying out design calculations and worked examples for use in
future projects, in addition to learning about solutions to pipeline failures from
real-life case-studies.
Key learning areas
Learn how to apply design codes correctly
Look at methods to protect subsea pipelines, such as rock dumping and trenching
Analyse solutions to pipeline failures from real-life case-studies
Practice with worked design calculation examples
Very good, would highly recommend
the course to others.
Richard Wyness, Subsea Engineer, JP Kenny Caledonian Ltd
Did you know
Jee has performed advanced FE analysis to model lateral buckling and pipeline walking
Course content
Day 1 Day 2 Day 3 Day 4
HIPPS Lateral buckling Fatigue Pipeline Protection
• Introduction • Introduction • Principles of fatigue • Hazards
• Configuration and components • Virtual anchor spacing • Fatigue loadings • Pipeline loads
• Design • Design process • Design for fatigue • Pipeline load capacity
• Applications • Out-of-straightness surveys • Case studies • Risk and safety analysis
• Buckle mitigation • Pipeline coatings
Hydrostatic collapse Expansion, walking and anchoring
• Rock dump
• Need for buckle arrestors Upheaval buckling • End expansion
• Trenching for impact protection
• Buckle arrestors • Introduction • Pipeline walking
• Protection structures
• Worked example • Upheaval buckling mechanism • Walking modes
• ‘Soft’ protection options
• Collapse criteria • Upheaval buckling analysis • Pressure effects
• Exercise • Worked example • Exercise
• Kyriakides buckle arrestor design • Walking and lateral buckling
Strain-based design
• Anchoring
Further corrosion • What is strain-based design?
• Other prevention and mitigating
• Advanced corrosion mechanisms • Loading
measures
• Corrosion control • Low strain requirements
• Case study
• Corrosion rates • Moderate strain requirements
• Case studies • High strain requirements
Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391 13Design of pipelines
Free spans and
on-bottom stability FS&S
About the course
Course information
Through the use of worked examples, delegates will gain an appreciation of the
integrity issues associated with pipeline instability, spans and dents. Delegates will Level: Practitioner
also learn about assessment methods and their application, and review a series of Duration: 3 days
case-studies presenting real-life scenarios and the lessons learned in their solution.
CPD points/PDH points: 21
This course can be taken independently, or as an extension of the information
gained in the Design of subsea pipelines course, to include detailed Level 2 and 3
assessment to DNV RP F105 and F109. These detailed assessments can be used
for new pipelines as well as for existing pipelines.
Key learning areas
Learn about integrity issues associated with pipeline instability, spans and dents
Assess the methods and application
Gain an understanding of when remediation is required and the options available
Look at example assessments, based on industry codes and standards
Review case-studies with real-life problems, solutions and lessons learned
Jee has always been there for me as a reliable
technical resource in my training needs.
Michael Knudsen, Subsea Engineer, Chevron
Did you know
Jee has developed and field-tested a span monitoring system which is proven to reduce span remediation costs
Course content
Day 1 Day 2 Day 3
External inspection Buoyant span case study Span assessment software
• What to look for • Background to the problem • DNV FatFree
• Inspection methods • Buoyant span • Plus-One
• Inspection examples • Remedial works • SAGE Profile
• Lessons learned • FEA
On-bottom stability
• Calculations
• Fundamentals of pipeline stability Dent assessment
• Comparison
• Analysis methods • Dent properties and behavior
• Data requirements • Causes of dents in subsea pipelines Span assessment exercise
• Force balance approach • Methods of assessment • Typical span assessment problem
• DNV RP F109 approach • Worked example • Span assessment exercise
• Stabilisation options • Exercise • Scope for remedial action
• Exercise • Protection methods
• Case-study • Case-study
Spans
• Span detection
• Assessment of spans
• Stress and buckle checks
• Vortex-induced vibrations
• Remediation
14 Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391Subsea architecture
Subsea systems
SS
About the course
Course information
Subsea systems are integral in fitting all the elements of the subsea puzzle together.
Level: Foundation
Focussing on subsea systems from design and installation through to operation, this
course explains how the whole system works in conjunction. Gain an awareness of Duration: 4 days
the equipment used and the drivers behind equipment selection. Delegates will get Site visit*: 1
/2 day
to grips with industry terminology, learn about market drivers and discuss issues
CPD points/PDH points: 28
affecting subsea production.
Various teaching techniques are applied including a site visit* to maximise your
learning experience through seeing equipment first hand.
Key learning areas
Gain an appreciation of issues affecting subsea production
Learn about the structures and equipment involved in a system
Analyse the design and installation of subsea equipment
Discuss decommissioning regulations
Get to grips with industry terminology
A great course that provides extensive
knowledge.
Lee Tae-hwan, Associate, Daewoo Shipbuilding & Marine Engineering
Did you know
Jee designed all the subsea structures for the Davy East field in the North Sea
Course content
Day 1 Day 2 Day 3 Day 4
History of subsea production Spoolpieces Structural design Workover
• Introduction • Design considerations • Template design • Workover equipment and vessels
• Onshore development • Metrology and construction • Seabed interface • Minor workover operations
• Offshore development • Connection methods • Fabrication and testing • Major workover operations
• Subsea development • Case studies
Subsea production Subsea abandonment
• Future development control equipment Installation and commissioning • Subsea abandonment regulations
Drilling and completing • Introduction • Installation issues • History and future of subsea
a subsea well • Subsea trees • Installation methods abandonment
• Introduction • Subsea control systems • At the seabed • Abandonment of subsea wells
• Drilling sequence and components • Umbilicals • Installation videos
• Well logging and testing • Subsea manifolds • Commissioning
• Completion sequence and • System vulnerabilities • New technology
components
Subsea processing Intervention
Subsea system configurations • Subsea multiphase flow meters • Diving and saturation diving
• Template configuration • Subsea pumps and compressors • ROV types and tools
• Cluster configuration • Subsea separation and water • ROV operations and deployment
• Daisy chain configuration reinjection • ROV manufacture
• Hybrid configuration • Subsea HIPPS • AUVs
• Satellite configuration
*Available in Aberdeen and Houston.
Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391 15Subsea architecture
Subsea controls
SC
About the course
Course information
An in-depth approach looking at how control systems operate, the engineering
principles involved and identifying the key areas that are often overlooked, such as Level: Foundation
managing availability and the reliability of controls. Duration: 2 days
Delegates will have the opportunity to see what different parts of the system look CPD points/PDH points: 14
like, get an independent comparison of the kit and equipment available, and gain a
greater insight into this specialist area.
Key learning areas
Differentiate the types of subsea control systems and identify different subsea
equipment and functionality
Gain an in-depth understanding of how subsea control systems operate
Understand the issues when overseeing the design and manufacturing of
subsea controls equipment
Take a look at future technologies
A professionally raw course with relevant
up-to-date material presented with examples
and enthusiasm.
David Kinnear, Technical Engineer, Bifold Fluidpower Ltd
Did you know
Jee provides integrated engineering services spanning the whole life-of-field
Course content
Day 1 • Uninterruptible power supply (UPS) Day 2 • Environmental legislation
Design Criteria • Hydraulic power unit (HPU) Operation of system • Cleanliness: Manufacturing
• Topside umbilical termination unit • Cleanliness: Offshore operations
• Oil or gas • System options
(TUTU) • Cleanliness: Standards
• Type of platform • Hydraulic
• Chemical injection unit (CIU) • Measuring cleanliness
• Water depth • Electrical
• Filters
• Reservoir pressure and Systems equipment • Communications
• Wear mechanisms
temperature • Umbilical • Redundancy
• Number of functions • Signal commands Intervention of system
• Subsea umbilical termination unit
• Project life expectancy (SUTU) • DCV operation • Safety and environment
System interfaces • Installation and workover control
• Subsea distribution unit (SDU)
Selection of system system (IWOCs)
• Jumpers/flying leads • S upervisory control and data
• Direct hydraulic • Emergency quick disconnect (EQD)
• Electrical/hydraulic connectors acquisition (SCADA)
• Piloted hydraulic • Divers/ROVS
• Subsea control module (SCM) • S creen mimics
• Sequence hydraulic • Cleanliness standards
• Subsea electronic module (SEM) • L ogging on/off
• Electro hydraulic • Inspection, repair and maintenance
• V alve opening/closing
• Valves
• Multiplex electro hydraulic • V alve foot printing Future developments
• All electric • P age selection • Obsolescence
• T rending and reports • Future developments for systems
Topside equipment
•C alculations and interlocks • Subsea processing
• Master control station (MCS) • Better well management
• Remote operator workstation Fluid types
• Electrical power unit • Synthetic fluid
• Water-based fluid
16 Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391Subsea architecture
Subsea hardware
SH
About the course
Course information
As an independent company, we are in a unique position to provide completely impartial
training on hardware. Our subsea hardware programme provides a comprehensive and Level: Foundation
complete understanding of the equipment used in subsea production systems. You Duration: 4 days
will distinguish why trees are not all the same and get to grips with interactions. Each
Site visit*: 1
/2 day
piece of equipment is covered in detail, explaining the evolution of design, current best
practice and the differences between each proprietary design. CPD points/PDH points: 28
Key learning areas
Independent overview of subsea equipment
Analyse the components of subsea equipment and how they interface with
one another
Pros and cons of equipment from each original equipment manufacturer (OEM)
Participate in a site visit* to see some of the equipment being discussed
Jee’s Subsea hardware course is excellent training
that provides a detailed overview of subsea
hardware used in today’s Oil and Gas industry.
Rodrigo Braceras, Quality Team Leader, BP
Did you know
Jee is independent from any manufacturers, banks or contractors
meaning we provide completely impartial engineering services
Course content
Day 1 • Tubing design Controls Day 3
Overview of subsea equipment • Downhole safety valves • Overview
Subsea valves
• Subsea components • Intelligent completions • Equipment
• Overview
• Subsea configurations • Gas lift valves • Proprietary designs
• Choke valves
• Downhole chemical injection • Fail-safe shutdown
Subsea wellhead assemblies • Gate valves
• Fibre optic sensors • Regulations
• Selection considerations • Ball valves
• Wellhead design Day 2 Manifolds • Check valves
• Casing string design Subsea trees • Manifold types • Multi-port valve blocks
• Proprietary designs • Overview • Manifold piping design • Valve position indicators
• Design considerations for • Dual-bore vertical tree • Manifold structural frame design • Valve testing
intervention • Mono-bore vertical tree • Manifold foundations
Jumpers and connectors
• Horizontal tree • Injection manifold design
Blow-out preventers • Rigid jumpers
• Tree selection • Retrieval of components
• Overview • Flexible jumpers
• Valve functions • Proprietary designs
• Annular type blow-out preventer • Flanges
• Proprietary designs • Installation
• Ram type blow-out preventer • Other mechanical connections
• Proprietary design • Injection of chemicals • Actuated connections
• Flow meters • Hydraulic and electrical connections
Completions • Retrievable components • Systems ‘integration’ testing
• Overview • Tree installation
• Tubing hangers
*Available in Aberdeen and Houston.
Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391 17Subsea architecture
Advanced design and stress analysis
of subsea equipment
Also known as Designing to API 6A/ 16A/ 17D requirements ADS
About the course
Course information
New course for 2015, this course provides an intensive overview for design engineers
working to the rules of API specifications 6A, 16A and 17D (ISO 10423, ISO 13533 and Level: Practitioner
ISO 13628-4). These codes are the standard approach for the design of valve bodies, Duration: 3 day
hubs, clamps, wellhead and tree equipment for both normal and HT/HP usage.
CPD points/PDH points: 21
The tutor begins with basic stress analysis principles and reviews standard and non-
standard materials used for these specifications. Topics covered include the concepts
of membrane and bending stress, as well as primary, secondary, and peak stresses.
To add context to your knowledge base, the history and logic of the specifications are
covered, in addition to techniques and formulas for analysis of stresses from pressure,
external loads, and thermal gradients. Linear and non-linear finite-element analysis and
the interpretation of finite-element results are incorporated.
Key learning areas
A comprehensive overview of API specifications 6A, 16A and 17D
Learn about stress analysis principles and review their importance in context
with their development
Review and gain an understanding of the specialist techniques involved
Very interesting course, global view on onshore
pipeline design from routing to repair.
Pierre Baptiste, Project Engineer, Doris Engineering
Did you know
Jee has executed over 0.6 million engineering man-hours
Course content
Day 1 Day 2 Day 3
• Basic requirements of design • Procedure for stress • Subsea equipment design
• Introduction to API design categorisation • Designing for external pressure
requirements • Thermal stress • Mudline equipment
• Appropriate material selection • Fatigue design • S tructural components and lifting
• API design rules • Stress concentrations devices
• Analysis of wall thickness criteria • Fatigue analysis • Design documentation principles
• Membrane stress intensity • High temperatures design • Design verification files
• Bolting and screw threads • Finite-element analysis • Traceability
• Bearing and direct shear stresses • Linearizing stress distributions • Design report contents
• Bending stress from linear elastic models
• Primary and secondary stresses • Interpreting post-processor output
• Bending stress calculations • Non-linear finite-element analysis
18 Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391Risers
Risers, umbilicals and flexibles
RUF
About the course
Course information
As one of Jee’s most popular courses, this programme provides a comprehensive
understanding of risers, umbilicals and flexibles, and how they operate within the Level: Foundation
subsea environment. Utilising different teaching techniques including a site visit,* Duration: 4 days
to enable delegates to see equipment normally only viewable on the seabed.
Site visit*: 1
/2 day
This extensive course covers all the different types of risers, umbilicals and
CPD points/PDH points: 28
flexibles, their uses and design, installation and operational considerations.
Delegates will also learn about FPSOs and how they impact on the design and
layout of risers and umbilicals.
Key learning areas
Identify design, installation and operational considerations
Learn about the latest developments in riser systems
Understand how FPSOs impact on the design and layout of risers and umbilicals
Get to grips with key industry terms and confidently apply them to projects
An introduction to riser integrity management
A great course for developing a deeper
understanding of riser, umbilical and flexible
system components
Peter Schaefferkoetter, Subsea Engineer, ExxonMobile
Did you know
Jee designed the replacement rigid risers for the Forties Charlie platform in the North Sea
Course content
Day 1 Bonded hoses Flexible and umbilical system Fixed rigid risers
Riser types and uses • Types of bonded hoses design and installation • Types of rigid riser
• Introduction • Offloading hose configurations • System design • Design of rigid risers
• Production vessel selection • Manufacture • Storage and load out • Installation of rigid risers
• Production risers • Handling and storage • Flexible and umbilical installation Production top-tensioned risers
• Export risers • Installation • Riser installation
• Design analysis of TTRs
• Drilling risers • Operation and maintenance • Pre-commissioning
• Installation of production TTRs
• Completion and work-over risers Day 2 Day 3
Day 4
• Generic issues and exercises Flexible and umbilical
Flexible design and manufacture Steel catenary risers
Introduction to FPSOs • Riser configurations integrity management
• Design
• Overview of FPSOs • Design • Monitoring
• Manufacture
• Types of FPSOs • Components • Inspection
• Installation
• Mooring and turret arrangement • Manufacture • Damage assessment
• Repair Hybrid risers
FPSO vessel motions Umbilical design and manufacture
• Types of hybrid riser
• Components of motion • Cross-section design Rigid riser design
• Fabrication and installation
• Types of vessel motion • Manufacture • Design approaches
• Wave frequency motion • Fittings • Riser sizing design Drilling and top-tensioned risers
• Drift and higher order motions • Dynamic loading • Monitoring
• Analysis methods • Inspection
FPSO interfaces • Fatigue loadings • Damage assessment
• Overview of FSPO interfaces • Design for fatigue • Repair
• Risers and umbilicals
• Processing and storage
• Offloading and export
*Available in Houston only.
Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391 19Risers
Engineering of flexibles
(formerly Flexibles, risers and flowlines)
EF
About the course
Course information
This programme provides a specialist level of understanding of flexible risers and
flowlines. The tutor will teach you the skills required to write accurate specifications Level: Practitioner
for flexibles, and enable you to develop an understanding of how the different wire Duration: 4 days
profiles affect the performance of a flexible, as well as how flexibles are affected by
CPD points/PDH points: 28
installation and operational loads.
We have gained permission from Orcina to facilitate the use of OrcaFlex during this
course, to allow delegates to get hands-on with the software.
Key learning areas
Gain a comprehensive understanding of flexible flowlines and risers
Build knowledge of the materials and equipment used
Understand how FPSO and SPM design affects the choice of riser system
Apply theories to real-life projects through case-studies and group discussions
Understand the different types of software available
More than a year of work in a subsea
engineering office hasn’t given me as much
as 4 days of this course.
Francesco Fuganti Pedoni, Engineer, GE
Did you know
Jee has a team of engineers that perform installation and in-place analysis using OrcaFlex
Course content
Day 1 Day 2 Day 3 Installation of flexibles
Flexibles introduction Manufacturing and testing • Storage and handling
Flexible analysis
• Flexible risers • Manufacture • Flexible flowline installation
• Static analysis
• Application of flexibles • Testing • J-tube installation
• Installation analysis
• Riser installation
Materials selection Oceanography and • Extreme analysis
• Polymers hydrodynamics • Fatigue analysis Day 4
• Insulation • General overview Flexible analysis software Post-lay trenching and burial
• Metals • Waves • Introduction • Soils and seabeds
• Composites • Currents • Software available • Trenching considerations and
• Material specification • Hydrodynamics • OrcaFlex walkthrough specs
vessels • OrcaFlex dos and don’ts • Trench transitions
Design
• Vessel configuration and motion • OrcaFlex exercise • Trenching analysis
• Code requirements
• FPSO moorings • Backfilling
• Carcass and pressure armour Case study
design • Swivel stack • Background Integrity of flexibles
• Tensile armour • RAOs • Theory • Inspection techniques
Design of ancillary equipment • Analysis • Monitoring and testing methods
• Bend stiffeners and restrictors • Conclusions • Design and installation incidents
• Bell-mouths • Operational deterioration and
damage
• Mid-water arches
• Buoyancy modules
20 Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391Risers
Rigid riser design
RRD
About the course
Course information
With the increase in deepwater developments, more and more deepwater rigid riser
systems are required. This course teaches delegates about the design of various Level: Practitioner
types of rigid risers, including steel catenary risers (SCRs), hybrid risers and more Duration: 3 days
conventional shallow water risers.
CPD points/PDH points: 21
Key learning areas
Identify the different riser types and uses, from drilling risers to hybrid risers
Understand the engineering principles and approaches to riser design
Learn how to recognise fatigue, assess it and improve fatigue life
Gain an understanding of riser behaviour, failure theories and which sections
are most at risk
Excellent! A must do to understand
risers, pipelines and flowlines.
Lionel Richard, Engineer, 2H Offshore Engineering Ltd
Did you know
Jee performs riser design and analysis using a variety of different
software packages including Abaqus, FS2000 and OrcaFlex
Course content
Day 1 Day 2 Fatigue and fracture Global bending
Rigid riser types • Recognising fatigue • Catenary curves
Riser design approaches
• Riser types and uses • Riser fatigue • Catenary equations
• Safety risk and reliability
• Drilling risers • Assessment • Pipe stresses
• Limit state approach
• Completion/workover risers • Fracture mechanics • Failure theories
• Deriving safety factors
• Production risers and export risers • Improving fatigue life • Worked example
Site and strength • Corrosion • Exercise
Lifecycle • Drilling risers
• Drilling and developing wells vortex-induced vibrations
• Analysis approach Day 3
• Design • Sections of risers at risk
• Sample analysis
• Manufacture vessel response • Modeling VIV
• Production and export riser sizing
• Installation methods • What are RAOs? • General design approach
Waves and currents • OrcaFlex checks • Tank trial comparisons
• Completion and workover
operations • Metocean reports • Exercise
Design basis and riser analysis
• Maintenance • Tides
Soil-riser interaction • Design considerations
• Abandonment and disposal • Wind
• Soils and soil types • Typical development of design
• Currents
Components and fitments • Pipeline survey methods • Input verification
• Waves
• Common components • Deriving soil properties • Modeling on non-linerarities
• Hydrodynamic loadings
• Vessel fitments • Riser behaviour • Design connectors
• Coatings
• VIV suppression devices
• Connection methods
Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391 21Risers
Polymers and composites
P&C
About the course
Course information
Polymers and composites offer the benefits of being lightweight and corrosion
resistant and are being increasingly used offshore. This one day course provides Level: Foundation
an understanding of polymers and composites, from the manufacturing process Duration: 1 day
right through to failure, and includes real-life examples for delegates to analyse.
CPD points/PDH points: 7
Key learning areas
Learn about the latest materials, manufacturing methods and project costings
Gain an understanding of relevant industry codes and standards
Build knowledge of materials selection, testing and installation considerations
Study real-life case-studies
The course is amazing and the
tutor was awesome in delivering
the course content.
Emeka Nwonu, Planning Engineer, Saipem Ltd
Did you know
Jee has performed engineering analysis for new types
of polyurethane bend stiffeners and restrictors
Course content
Day 1 – Morning Day 1 – Afternoon
Material production Design and fabrication
• Fibres and resins • Standards and codes
• Manufacturing methods • Materials selection
• Prices • Effect of anisotropy
• Fire and static electricity
Properties
• Parts consolidation
• Strength and stiffness
• Jointing
• Fatigue, creep and impact
resistance • Non-destructive examination
• Chemical resistance • Installation considerations
• Thermal properties Case studies
• Electrical properties • Whole topsides in composites
• Fire resistance • Repair and strengthening
• Downhole tubing and casing
• Development of flexibles
• Subsea structures and protection
• Composite risers
22 Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391Construction of pipelines
Construction of subsea pipelines
CSP
About the course
Course information
This practitioner course delivers an expert level of understanding of the processes,
equipment and vessels involved in offshore pipe-lay, and the different pipe-lay Level: Practitioner
methods used. Duration: 4 days
Improve your appreciation of the size and nature of the latest offshore pipe-lay vessels CPD points/PDH points: 28
and equipment, and gain confidence in identifying the best choice for pipe-lay.
Areas covered include trenching, hydrotesting, surveys and tie-ins, making this course
a ‘must’ for delegates whom wish to speak technically about pipeline construction.
Key learning areas
Understand how to identify the best pipe-lay options via comparing methods
Discuss issues affecting pipeline installation
Gain the confidence to talk technically about pipeline construction
Acquire an understanding of trenching, hydrotesting, surveys and tie-ins
Offshore projects are very complex and Jee’s
courses help engineers to get global vision of
their complexity.
Tomislav Niksic, Offshore Field Engineer, Saipem Croatia
Did you know
Jee has carried out extensive studies into rock berm optimisation for many clients
Course content
Day 1 • Towhead structures Tie-ins • Protection
S-lay • Towing methods • Flanged connection by diver • Rock dump
• S-lay vessel types • Insulation and heating systems • Hyperbaric welding • Concrete mattresses
• S-lay process • Deep-water bundles • Diverless tie-ins • Protection structures
• S-lay market and vessels • Advantages of bundles Pre-commissioning • Crossings
• Insulated lines • Surface tow Post-lay trenching and burial
• Gauging and flooding
• Lay curve control Installation of flexibles • Hydrotesting • Ploughing
Pipe supply, welding, NDT and ECA • Unbonded flexibles installation • Dewatering, air and vacuum drying • Jetting
• Line pipe supply and process • Testing of valves and controls • Cutting
specifications • Umbilical cables • Cable trenching
Management systems
• Welding methods and procedures • Bonded hoses • Trench transitions
• Law, QA and Commercial
• NDT and ECA Reel-lay • Backfilling
Health, safety and environment
Day 2 • Reel-lay process Diving and ROV operations
• Health and safety management
• Reel-lay market and vessels • Diving and equipment
J-lay • Risk assessment
• Special considerations • ROV operations
• J-lay sequence, projects and • Technical analysis supplement Survey
vessels Decommissioning and
• Survey methods and operations
• Rapid pipe welding Day 3 abandonment
• Mechanical connectors Landfalls Day 4 • Legislation
• J-lay from drilling rig Seabed modification • Decommissioning in-situ
• Pull ashore into cofferdam
• Sweeping • Recovery and re-use
Bundles and towed installation • Pull offshore
• Rock removal • Costs
• Bundle design and fabrication • Directionally – drilled landfalls
Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391 23Construction of pipelines
Installation calculations
for subsea pipelines ICSP
About the course
Course information
Installation calculations can be daunting. This course provides detailed knowledge
of the installation calculations required for all stages of a pipeline’s lifecycle, from Level: Practitioner
pipe-lay to abandonment and recovery. Duration: 4 days
Delegates have the opportunity to practice installation calculations, with tutor CPD points/PDH points: 28
support, using worked examples. This hands-on experience is the perfect platform
to boost understanding of industry standards and codes. Learn how they are
applied in real-life scenarios and gain the confidence to independently assess and
verify calculations used in subsea projects.
Key learning areas
nderstand industry standards and codes and how they are applied to
U
pipeline installation
Practice installation calculations using worked examples
Assess and verify calculations used in subsea projects
ain an awareness of the American Institute of Steel Construction (AISC)
G
methodology
Relevant topics, excellent course notes,
very informative class.
Adeolu Ariyo, Installation Team, Chevron Upstream Europe
Did you know
Jee performs a variety of installation activities such as the lifting analysis of structures and pipework, the recovery
and redeployment of damaged umbilicals, and the dynamic installation analysis of flexibles using OrcaFlex
Course content
Day 1 Day 2 Day 3 Day 4
Catenaries Sagbend buckling Lifting Pipe pull forces
• Catenary curves • Local buckling criteria • Static and dynamic loads • Landfall setup
• Pipe lay catenary equations • Prediction of buckling in catenary • Lifting in air • Exercise
• Pipe stresses • Exercise • General wave parameters • Alternative pull set ups
• Exercise • Buckle propagation • Lifting through wave zone • Background information
• Control by tension Barge stability • Lowering through water column Anchors and piles
Bending • Stable floating bodies • Lowering onto seabed • Anchors
• Bending during S-lay • Determining vessel stability • Exercise • Exercise
• Exercise • Free liquid surfaces and Rigging design and analysis • Piles
• Break-over lengths suspended loads • Rigging equipment • Sheet pile anchorage
• Concrete-coated pipe • Modular craft and local barges • Rigging analysis • Exercise
• Horizontal lay curve radii • Exercise • Exercise
Abandonment and recovery
Reeling • Background information
Lugs, deck layouts and • A&R overview
• Reeling operations Dynamics sea fastenings • A&R equipment
• Strain concentration • Vessel motions • Lugs and stiffeners • Case study
• Material qualification • Dynamics during pipe-lay • Exercise • A&R analysis
• Ovalisation and buckling • Code criteria • Foundations and deck fittings • Exercise
• Exercise • Software • Deck layouts and sea fasteners
• Exercise
• Output analysis
• Fatigue assessment
24 Book a course: www.jee.co.uk e: training@jee.co.uk t: +44 1732 371 391You can also read
