Working together
for a safer world
Engineering dynamics
Machinery
dynamics
of
rotating
equipment
05
Operational modal analysis for engineering dynamic problems
06
Machinery dynamics of propulsion systems and auxiliary equipment
07
Noise
on
offshore
installations
08
Noise
&
vibration
on
ships
09
Risk managment
Being
a
safety
manager
11
Reliability
and
Safety
Integrity
Level
(SIL)
12
Human
Factors
Engineering
13
RAMS
-
EN
50126
14
CSM
RA
15
Quantitative
Risk
Analysis
(QRA)
16
Process
safety
17
Welcome to Lloyd’s Register Consulting technical training. We offer essential training courses in risk management and
engineering dynamics.
Our instructors are chosen specifically for their expertise areas, industry experience and proven results. As specialists in
their respective fields, they have confronted and resolved many of the problems you face daily. Our training is based on a
combination of theory, field-proven methods and case studies. Basic as well as cutting-edge concepts will be discussed.
In addition to our scheduled courses, we offer customised training designed for your individual needs and taught at your
premises.
When
15 - 18 September 2014
Where
Lloyd’s Register Consulting, Copenhagen Duration 4 days Language English Price
EUR 2,500 per person, excl. VAT, incl. course notes, lunch and dinner 1 night.
Contact
anna.dylander@lr.org
When
15 - 18 September 2014
Where
Lloyd’s Register Consulting, Copenhagen Duration 4 days Language English Price
EUR 2,500 per person, excl. VAT, incl. course notes, lunch and dinner 1 night
Contact
anna.dylander@lr.org
Engineering
dynamics
Dedicated courses in rotordynamics, machinery dynamics, noise &
vibration management, and modal analysis.
Basic as well as cutting edge concepts will be illustrated by detailed case studies and reviews of several projects from our consultancy, and some of the phenomena will be demonstrated on a test rig.
Upon completion you will... • be in a better position to
participate in troubleshooting of machinery dynamic problems • be able to evaluate API
rotordynamic analysis results and reports
• have a better understanding of the qualitative and quantitative influence of machine elements and operating conditions on the rotordynamic properties
Course content
• Frequency analysis • Basic machinery dynamics • Simple system demonstration • Modal analysis
• Torsional vibrations • Rotordynamics 101 • API rotordynamic analysis • Exercise: unbalance response • Machine elements affecting 1X
vibration (bearings, seals, support structure)
• Rotorkit demonstration
• Asynchronous forced vibrations (coupled torsional-lateral, rotating stall and surge, VSD control) • Rotordynamic stability (cross
coupled stiffness, mitigation of instability, case stories, exercise: stability)
• Standards
• Systematic failure analysis
Topics will be illustrated with numerous case studies.
Who should attend
Anyone who wants to understand rotating equipment dynamics and who has a responsibility for acquiring,
managing, designing, integrating, testing or troubleshooting rotating equipment and the surrounding systems. There are no requirements for academic background, but it is underlined that some topics will be covered in depth. Your instructors
Morten Theill Jensen, VP Engineering Dynamics
Anders Crone, Team Leader, Machinery Dynamics, Energy
Niklas Sehlstedt, Team Leader, Rotordynamics, Energy
The instructors have many years’ experience in analysis and
troubleshooting of complex rotating equipment problems in the oil & gas industry.
Machinery dynamics of
rotating equipment
The course gives a structured introduction to the dynamics of rotating equipment,
primarily focusing on turbomachinery used in the oil & gas industry. More than 200
engineers have participated in the course, many on recommendation from colleagues and
contacts.
When
1 - 2 October 2014
Where
Lloyd’s Register Consulting, Copenhagen Duration 2 days Language English Price
EUR 1,360 per person, excl. VAT, incl. course notes, lunch and dinner 1 night
Contact
anna.dylander@lr.org
Operational modal analysis for
engineering dynamic problems
This course will introduce the delegates to Operational Modal Analysis, especially to systems
with harmonic components, such as rotating machinery. This will be achieved by combining
theory and laboratory exercises. Numerous case studies from the Marine and Energy
business will be presented.
When
8 - 9 October 2014
Where
Lloyd’s Register Consulting, Stockholm Duration 2 days Language English Price
EUR 1,360 per person, excl. VAT, incl. course notes, lunch and dinner 1 night
Contact
anna.dylander@lr.org Upon completion you will...
have gained insight and knowledge of Operational Modal Analysis applicable for vibration problems of machinery and processes.
Course content Day 1
• Differences and similarities between Operational Modal Analysis and Experimental Modal Analysis
• Introduction to Frequency Domain Decomposition (FDD) techniques • Introduction to Stochastic
Subspace Identification (SSI) techniques
• How to apply the co-variance driven Stochastic Subspace Identification technique to industrial problems
• Experiments: comparing FDD, SSI and EMA
Day 2
• Influences of harmonic components
• Experimental and Operational Modal Analysis of rotating machinery
• Experiments: influence of harmonic components, rotating machinery
• Complex and non-linear systems Case studies
Ships:
• Panel cracking
• Resonance of the accommodation block
Tall structures:
• Power station chimney – long term monitoring and verification of damper performance
• Large ship unloader Bridges:
• Natural frequency of cable stays • Variation of natural frequency of
deck with temperature
Machinery:
• Diesel engines – on a ship • Generators – offshore platform • Nuclear Power Generator • FE model updating
• Dynamic absorber application • Bow thruster
Who should attend
Rotating equipment engineers, noise & vibration engineers, project managers and anyone who would like to learn about Operational Modal Analysis. Your instructors
Peter Carden, Senior Consultant, Machinery Dynamics, Energy
René Smidt Lützen, Senior Consultant, Noise & Vibration, Energy
Henrik Samuelsson, Country Lead, Engineering Dynamics, Sweden The instructors have many years’ experience in OMA.
Basic as well as cutting edge concepts will be illustrated by detailed case studies and reviews of several projects from our consultancy, and some of the phenomena will be demonstrated on a test rig.
Upon completion you will... • be in a better position to
participate in troubleshooting of machinery dynamic problems • understand the basics of
machinery dynamics in order to evaluate basic machinery dynamic calculation results
Course content
• Vibration measurements • Frequency analysis • Basic machinery dynamics • Modal analysis
• Engine dynamics
• Torsional vibration, the role of couplings, damping devices, tuned absorbers, etc.
• Lateral vibration (including shaft whirling)
• Introduction to advanced topics • Examples and exercises
Topics will be illustrated with numerous case studies.
Who should attend
Anyone who has a responsibility for acquiring, managing, operating or repairing propulsion systems and who wants to know a bit more about the dynamics and design basis of such systems.
There is no requirement for academic background, but it is underlined that some topics will be covered in depth. We believe that both someone with an academic background and someone with years of hands-on experience will benefit from attending.
Your instructors
Per Tellefsen is Team Leader of the Machinery Dynamics group, Marine department. Per has more than 20 years of experience in analysis and troubleshooting of vibration problems.
Henning Hartmann is Technical Lead, with particular expertise within the field of machinery dynamics. Henning has more than 20 years of experience with structural and machinery vibration problems.
Machinery dynamics of propulsion
systems and auxiliary equipment
The course gives an introduction to the machinery dynamics of main propulsion systems and
auxiliary equipment. After introducing the relevant theory and concepts, emphasis will be on
detailed case studies from our consultancy.
Noise on offshore
installations
This course gives you a structured introduction to the generation, the propagation and the
control of noise, with emphasis on the conditions prevailing on offshore installations. It
includes hands-on exercises in our laboratory.
When
29 - 31 October 2014
Where
Lloyd’s Register Consulting, Copenhagen Duration 3 days Language English Price
EUR 1,950 per person, excl. VAT, incl. course notes, lunch and dinner 1 night.
Contact
anna.dylander@lr.org Upon completion you will...
• understand the fundamental terminology, methods and parameters of noise topics • gain knowledge about good
practice of offshore noise control • be able to understand and
interpret legislation
• use creative thinking for practical solutions
• have an overview of how to manage noise on newbuild and existing installations
Course content
• Basic acoustics (sound pressure, sound power, the dB scale, noise exposure, calculation exercises • Hearing damage/hearing
protection, vibration exposure • Noise measurements (basic sound
pressure measurements, signal analysis)
• In the lab (measurements, equipment, sound pressure exercise)
• Noise sources
• Sound radiation and propagation (airborne, structure borne, reduction, radiation, outdoor propagation)
• Noise management • Legislation and standards
Topics will be illustrated with numerous case studies including engine room noise control, gas compressor noise control, accommodation sound insulation, valve and pipe noise reduction and others. Who should attend
The course is aimed at people working with noise in the oil & gas industry as well as people who would benefit from knowing more about noise on offshore installations. The course will start with
the basic concepts of noise and pre-knowledge of noise is not required to participate.
Your instructors
Per Trøjgaard Andersen is Senior Consultant and Technology Leader in the Noise & Vibration group, Energy department. Per has many years’ experience with noise & vibration control in the oil & gas sector and has given more than 100 courses on the subject.
Martin Lommer Olsen is Team Leader of the Noise & Vibration group, Energy department. Martin has a broad experience managing projects involving noise & vibration prediction, troubleshooting and control.
Noise & vibration
on ships
On this course, you will be introduced to the fundamentals of noise & vibration
measurement, analysis and control techniques.
Upon completion you will... • be able to do basic noise
calculations
• be able to write precise and clear noise specification for vessels • be better equipped to assess and manage noise & vibration generation, propagation and control in vessel designs Course content
• Fundamental noise • Fundamental vibration
• Building specifications for noise & vibration – what should be considered in a newbuild specification
• Low-noise design • Noise & vibration sources • Global and local vibration
prediction and measurements • Problems – demonstrations • Exercises – demonstrations Topics will be illustrated with numerous case studies including: singing propeller, propeller vibration problems,
noise control in engine rooms,
accommodation sound insulation and others.
Who should attend
Ship designers, ship operators, ship builders, naval architects and service engineers within the marine industry or people who have a general interest in quality marine designs with respect to noise & vibration.
A general understanding of
fundamental physics will be beneficial but is not a prerequisite.
Your instructors
Henrik Thrane is Senior Consultant and Technology Leader in the Marine department. He has been with the company for more than 30 years.
Søren Dahl is Team Leader of the Noise & Vibration group, Marine department. Søren has more than 15 years’ experience with noise & vibration control.
When
4 - 5 November 2014
Where
Lloyd’s Register Consulting, Copenhagen Duration 2 days Language English Price
EUR 1,360 per person, excl. VAT, incl. course notes, lunch and dinner 1 night
Contact
Risk
management
Dedicated courses in safety management, RAMS, Human Factors
Engineering, CSM, and risk analysis.
Upon completion you will... • be able to prepare a safety
management program • have the basic knowledge to
implement and manage the program in a project or in operations
Course content
• Overview of applicable
regulations, codes and standards • Principles for safety management • Role and duties of the safety
manager
• Responsibilities of key positions in a project management/plan operation team, discipline leads, contractors and other parties • An overview of activities to be
carried out, including studies, analyses, reviews, audits and inspections
• The objective/detail scope of these activities and possible pitfalls • The timing of the activities and
their interdependence
• Use of results as an input to the decision process
• Site safety, requirements and follow-up of own organisation and contractors
• Incident reporting and use of the reported data
• Emergency preparedness plans and training
Topics will be illustrated with numerous case studies. Who should attend
The course is aimed at HSE managers and safety engineers aspiring to develop their skills in project execution. Your instructors
Your instructors will be safety specialists with relevant practical experience as safety professionals working on international projects and operations.
Being a safety
manager
This course will give the delegates an introduction to safety management and operations.
This will be achieved through lectures and case studies. The course is applicable to both
offshore and onshore industries.
When
On request
Where
Lloyd’s Register Consulting offices as requested Duration 2 days Language English Price
EUR 1,200 per person, excl. VAT, incl. course notes and lunch
Contact
When
On request
Where
Lloyd’s Register Consulting offices, as requested Duration 2 days Language English Price
EUR 1,200 per person, excl. VAT, incl. course notes and lunch
Contact
training.consulting@lr.org
Reliability and Safety
Integrity Level (SIL)
The course will give the delegates an introduction to the basics of reliability
engineering and the principles applied for how to reduce risk through safety
layers and the application of SIL. This will be achieved through lectures and case
studies.
When
On request
Where
Lloyd’s Register Consulting offices, as requested Duration 1 day Language English Price
EUR 900 per person, excl. VAT, incl. course notes and lunch
Contact
training.consulting@lr.org Upon completion you will...
• understand the principles of reliability engineering
• know how to reduce risk through different safety layers as well as how to apply SIL for safety instrumented functions Course content
• Overview of applicable
regulations, codes and standards • Introduction to IEC 61508 and IEC
61511
• Objectives and scope of reliability analysis and SIL analysis
• Mitigating hazards through safety layers and allocating the correct SIL to the safety instrumented function(s)
• General principles and methods used within reliability engineering such as Fault Tree Analysis and FMEA
• The basic principles of reliability regularity analysis. When to apply it and how to use it to increase production uptime, maintenance planning and spare part
optimisation
Topics will be illustrated with numerous case studies.
Who should attend
The course is aimed at technical safety/ instrument/process loss engineering in projects and operation.
The course is applicable to both offshore and onshore industries, with a special focus on subsea applications. Your instructors
Your instructors will be safety specialists with relevant practical experience as safety professionals working on international projects and operations.
Upon completion you will... • understand the fundamental
terminology, design specifications, analysis and industry best practice related to HFE
• deepen your knowledge of HFE studies and how they can be used to save time and expenses related to asset design and improve efficient operation after commissioning
Course content
• Introduction to general HFE roles and responsibilities
• Developing HFE strategies using a systematic approach
• Understanding HFE integration including people, plan and process • Understanding the methodology
of HFE studies including task analysis, job hazard identification, valve criticality, etc.
• Understanding key HFE activities conducted during Concept, FEED and DD phases
• Developing HFE design specifications to support and validate activities/issues
• Ability to screen HFE issues and select the right approach • Maintaining quality assurance
through reviews, audits and inspections
• Overview of legislations, regulations and industry-recognised best practices
• Examples of inadequate HFE input in design and corrective measures Topics will be illustrated with numerous case studies.
Who should attend
Project engineers, HSE managers and engineers, discipline leads and others involved in the design of assets. Your instructors
Your instructor(s) will be HFE specialists with relevant practical experience working on international projects.
Human Factors
Engineering
This course will provide an overview of the Human Factors Engineering (HFE)
support to the design lifecycle with emphasis on FEED and Detailed Design (DD)
phases. It will highlight key specifications and analyses through lectures and case
studies. The course is applicable to both offshore and onshore industries.
When
On request
Where
Lloyd’s Register Consulting offices, as requested Duration 1 day Language English Price
EUR 900 per person, excl. VAT, incl. course notes and lunch
Contact
training.consulting@lr.org
RAMS - EN 50126
The course will equip the participant to implement RAMS in an organisation. In
addition to RAMS, the course covers the requirements given in the common safety
method on risk evaluation and assessment as per the Commission Regulation (EC)
No 352/2009.
When
On request
Where
Lloyd’s Register Consulting offices, as requested Duration 4 days Language Swedish / Norwegian Price
SEK 15,000 per person, excl. VAT, incl. lunch
and dinner 1 night A discount of SEK 2,000 is given to clients with frame agreements
Contact
training.consulting@lr.org Upon completion you will...
• have an understanding of the EN 50126 RAMS
• understand the governing principles and methods for analysis and processes for follow-up and improvement of safety, availability, reliability and maintainability of railway systems Course content
• RAMS as a governing tool for safety, availability and maintenance
• Procedures and principles • Use of acceptance criteria • EN 50126 - principles for RAMS in
projects
• Safety management and follow-up in projects
• Risk analysis
• FMECA (Failure Mode, Effects and Criticality Analysis)
• SIL (Safety Integrity Level) • RAMS in operations and
maintenance • Human Factors
Topics will be illustrated with numerous case studies.
Who should attend
People working within traffic safety, engineering, design, projects,
operation/maintenance, infrastructure and operators of rolling stock, as well as manufacturers to the railway industry. Your instructors
Your instructors will be RAMS specialists with relevant practical experience working on international projects.
Upon completion you will...
• understand the background and framework of CSM RA
• be able to run the risk management process required Course content
• CSM RA framework • Change management • Risk management in CSM RA • Independent assessment Topics will be illustrated with numerous case studies.
Who should attend
Managers, project leaders and other personnel responsible for change management on all levels within the railway industry.
Your instructors
Your instructors will be CSM RA specialists with relevant practical experience working on international projects.
CSM RA
The course gives an introduction to CSM RA and its effects on change management
in the railway industry (technical, operational and organisational changes).
When
On request
Where
Lloyd’s Register Consulting offices Duration 1 day Language English Price
EUR 900 per person, excl. VAT, incl. course notes and lunch
Contact
training.consulting@lr.org
Quantitative Risk Assessment (QRA)
The course gives an introduction to Quantitative Risk Assessments and how these
are carried out for oil & gas installations to optimise design and improve safety in
the operational phase.
When
On request
Where
Lloyd’s Register Consulting offices, as requested Duration 2 days Language English Price
EUR 1,200 per person, excl. VAT, incl. course notes and lunch
Contact
training.consulting@lr.org Upon completion you will...
• understand the process of a QRA and how the different subtasks in a QRA are linked together • have an overview of different
methodologies and approaches to a QRA
• understand how the results of a QRA should be interpreted and used in operations and / or design Course content
• Objectives and scope of a QRA • Defining risk acceptance criteria;
examples from the industry • Deterministic and probabilistic
analysis principles – advantages and limitations
• How to choose the right approach • Introduction to principles for
executing risk analysis; HAZID, choice of methods, software tools for consequence assessment including CFD tools for leaks, dispersion, fire and explosion study, dropped object study, TR impairment study, data bases • DAL – Design Accidental Load
• Introduction to fire and explosion studies
• Both qualitative and quantitative analysis methods will be presented • The timing of the activities and
interdependence to other analyses in an oil & gas design project The topics will be illustrated by examples and case studies. Who should attend
• Risk and safety engineers
• Participants in design projects for oil & gas developments
• Anyone with an interest in quantifications of risks in the oil & gas sector
Your instructors
Your instructors will be safety
specialists with extensive experience in quantitative risk assessments in the oil & gas industry, with experience both from the Norwegian Continental Shelf and from international projects and operations.
Upon completion you will...
• have a basic understanding of the principles of process safety • have an overview of relevant
legislation, regulations and standards
• understand the most common problem areas encountered in process safety
• have a background and basis to apply sound engineering judgement and be able to identify and mitigate potential process risks
Course content
• Principles of process safety • Legislation, regulations and
standards • ESD, PSD, HIPPS
• Examples of process safety for different types of equipment, such as separators and scrubbers,
compressor systems, heat exchangers, pumps, drain, vent and flare systems
• Introduction to HAZOP techniques and guide words
Topics will be illustrated with numerous case studies.
Who should attend • Process engineers • Risk and safety engineers
• Others with an interest in process safety
Your instructors
Your instructors will be process safety specialists with extensive experience from the industry working on international projects and operations.
Process safety
This course will give the delegates an introduction to process safety. This will be
achieved through lectures and case studies. The course is applicable to both oil &
gas, petrochemical and chemical industries as well as other process industries
handling hazardous substances.
We reserve the right to cancel a course due to insufficient enrolment
About Lloyd’s Register Consulting
Lloyd’s Register Consulting provides independent risk management and engineering dynamics services to
a wide range of international clients. Our service portfolio represents the union between Scandpower and
Lloyd’s Register ODS. Together, we work to advance safety and technical excellence.
Our broad experience covers the full life cycle of activities in industries like oil and gas, marine, nuclear energy,
transportation, power generation and chemical industries.
Main office
Lloyd’s Register Consulting - Energy AS Instituttveien 10 P.O. Box 3 N-2027 Kjeller Norway T +47 40 00 35 00 E info.consulting@lr.org