SOFTWARE TRAINING CATALOGUE. Offshore and maritime engineering. Sesam and Nauticus SAFER, SMARTER, GREENER

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1 SOFTWARE TRAINING CATALOGUE Offshore and maritime engineering Sesam and Nauticus SAFER, SMARTER, GREENER

2 02 SOFTWARE Software training catalogue The power of interaction. Our customers are the main drivers of innovation. DNV GL Software has many different ways of gathering customer feedback, while at the same time enabling customers to get the most out of our products and services. Global training. Our increased focus on global training, including basic and advanced user courses, and the high level of expertise of our team of instructors, benefit users in all regions. Our training catalogue lists our many and varied technical courses and workshops spread across all brands. In addition we run customer specific courses. Many of these courses are held jointly by our own software support team and by engineers from DNV GL, who bring essential domain expertise. Global user conferences and seminars DNV GL Software offers numerous user conferences and seminars in several locations worldwide. We also offer webinars. Users and potential users can gain insight, not only into the applications we offer, but also into the future trends. These user conferences provide us with a unique opportunity to communicate with our users, and to receive valuable feedback. Our goal is to make sure that conference participants in each region learn about the efficient use of our products and develop competence. Details and agendas for our conferences and seminars will be posted on Register online Check or contact us at software@dnvgl.com

3 Software training catalogue SOFTWARE 03 CONTENTS Course code Title Duration Page NAUTICUS NA-02 Nauticus Hull rule check analysis 2 days 05 NA-06 Nauticus Hull cargo hold FE analysis CSR Tank 3 days 06 NA-07 Nauticus Hull cargo hold FE analysis CSR Bulk 3 days 07 NA-08 Nauticus Hull 3D Beam 0.5 days 08 NA-09 Nauticus Hull PULS buckling 0.5 days 09 NA-10 Nauticus Machinery shaft alignment basic 1 day 10 NA-11 Nauticus Machinery shaft alignment advanced 3 days 11 NA-12 Nauticus Machinery torsional vibration basic 1 day 12 NA-13 Advanced shafting design for marine propulsion systems 2 3 days 13 NA-14 Nauticus Machinery shaft fatigue with ice class 1 day 14 NA-16 Nauticus Hull cargo hold FE analysis DNV 1A1 3 days 15 NA-17 Nauticus Hull cargo hold FE analysis CSR BC & OT 3 days 16 SESAM SE-01 Concept based FE modelling and analysis using Sesam GeniE Introductory 2 days 18 SE-02 Geometry based FE modelling and analysis using Patran-Pre Introductory 3 days 19 SE-03 Hull modelling for hydrodynamic analysis Introductory 2 days 20 SE-04 Concept based FE modelling of shell structures Advanced 2 days 21 SE-05 Hydrostatic analysis of offshore floaters 1 day 22 SE-06 Hydrodynamic analysis of offshore floaters frequency domain 2 days 23 SE-07 Non-linear hydrodynamics analysis of offshore floaters 2 days 24 SE-09 Jacket analysis 2 days 25 SE-10 Progressive collapse analysis 2 days 26 SE-11 Wind induced fatigue 1 day 27 SE-12 Installation analysis of jackets 2 days 28 SE-13 Semi-submersible analysis 4 days 29 SE-14 Hydrostatic and hydrodynamic analysis of ships 3 days 30 SE-16 FPSO cargo hold analysis 3 days 31 SE-18 Coupled motion analysis and riser design of offshore floating installations 3 days 32 SE-19 Riser analysis 2 days 33 SE-20 Mooring lines analysis 2 days 34 SE-21 Simulation of marine operations 3 days 35 SE-22 Sub-modelling analysis combined with plate/shell fatigue analysis 2 days 36 SE-23 FPSO global strength and spectral fatigue analysis 4 days 37 SE-24 Advanced use of the Sesam GeniE package 2 days 38 SE-25 Hull form modelling in Sesam GeniE Typ. 1 2 days 39 SE-26 JScripting in Sesam GeniE Typ. 1 2 days 40 SE-27 Fatigue and Eigenvalue analysis of offshore wind turbine support structures 1 day 41 SE-30 Sesam for jacket design from construction to installation 3 options 42 SE-31 Simulation-driven shape optimization with Sesam CAESES introductory 2 days 43 SE-32 Simulation-driven shape optimization with Sesam CAESES advanced 3 5 days 44 SE-33 Probabilistic fatigue analyses and inspection planning 2 days 45

4 04 SOFTWARE Software training catalogue NAUTICUS Getty Images

5 Software training catalogue SOFTWARE 05 NAUTICUS HULL RULE CHECK ANALYSIS Course code: NA-02 Duration: 2 days Basic understanding of ship structures and hull strength. The course is an introduction to the Nauticus Hull program for rule compliance checks on hull girder strength, and plate and stiffener scantling checks for a hull cross section. The main focus is on cross-section modelling and analyses executions. The course covers how to use the software for DNV Rules, DNV GL rules and Common Structural Rules for Bulk Carriers and Oil Tankers (CSR BC & OT). After the course, you should be able to use Nauticus Hull to carry out compliance checks on the hull girder and cross sections according to rule requirements. The following topics will be covered: Describing ship particulars and main data Describing tank plan, compartments and loads Scantlings modelling Prescriptive rule check analyses Fatigue analyses Results presentation Most of the procedures and methodology are common for all sets of rules. Where there are differences, the course will cover the alternatives for rules that are relevant for the participants. Naval architects, designers, hull structural engineers and approval engineers with no experience in using Nauticus Hull for rule check analyses.

6 06 SOFTWARE Software training catalogue NAUTICUS HULL CARGO HOLD FE ANALYSIS CSR TANK Course code: NA-06 Duration: 3 days Basic understanding of ship structures and hull strength and use of FE analyses for strength calculations. Knowledge in Nauticus Hull as covered in NA-02. It is beneficial if the participants have attended SE-01. The course is an introduction to programs for FE analyses of the cargo hold area in accordance with the IACS Common Structural Rules for Oil Tankers (CSR Tank). This includes modelling, analysis, post-processing yield and buckling strength checks. Focus is put on extruding a cross section from section scantlings, 3D modelling and mesh control in Sesam GeniE, applying loads, corrosion additions and boundary conditions according to CSR Tank, running a Sestra analysis and post-processing using Xtract. Yield and buckling strength checks according to CSR Tank are covered. The course will be a combination of lectures and hands-on training. The hands-on example consists of building a cargo hold model, analysing it and perform stress level assessment. The cross section for the cargo hold model is extruded from a midship section modelled in section scantlings in the NA-02 Nauticus Hull rule check analysis course. The course will also provide a presentation of the CSR Tank rules and their requirements to strength assessment analyses of the cargo hold area. After the course you should be able to use Nauticus Hull for cargo hold modelling and execute FE analyses for strength and stress level assessment. Naval architects, designers, hull structural engineers and approval engineers with no or limited experience using Nauticus Hull for the Common Structural Rules for Oil Tankers.

7 Software training catalogue SOFTWARE 07 NAUTICUS HULL CARGO HOLD FE ANALYSIS CSR BULK Course code: NA-07 Duration: 3 days Basic understanding of ship structures and hull strength and use of FE analyses for strength calculations. Knowledge in Nauticus Hull as covered in NA-02. It is beneficial if the participants have attended SE-01. The course is an introduction to programs for modelling and FE analyses of bulk carriers in accordance with the IACS Common Structural Rules for Bulk Carriers (CSR Bulk). Focus is put on extruding a cross section from section scantlings, then 3D modelling of a cargo hold model and mesh control in Sesam GeniE, applying loads, corrosion additions and boundary conditions according to the CSR Bulk rules, running a FE analysis and post-processing using Xtract. Yield and buckling strength checks according to CSR Bulk are covered. The course will be a combination of lectures and hands-on training. The hands-on example consists of building a cargo hold model, analysing it and perform buckling and stress level assessment. The cross section for the cargo hold model is extruded from a midship section modelled in section scantlings in the NA-02 Nauticus Hull rule check analysis course. The course will also provide a presentation of the IACS Common Structural Rules for Bulk Carriers and their requirements to strength assessment analyses of the cargo hold area. After the course you should be able to use Nauticus Hull and Sesam GeniE for cargo hold modelling and execute FE analyses for buckling control and strength and stress level assessment according to the CSR Bulk rules. Naval architects, designers, hull structural engineers and approval engineers with no or limited experience using Nauticus Hull for the Common Structural Rules for Bulk Carriers.

8 08 SOFTWARE Software training catalogue NAUTICUS HULL 3D BEAM Course code: NA-08 Duration: 0.5 days Basic understanding of the FE method and strength calculations. The course is a presentation of the 3-dimensional frame structure analysis program 3D Beam. This program can be used at an early stage for evaluation of strength of ship frames, as well as grid structures and frame structures in general. The course will describe how to create geometry, apply profiles, material, loads etc., and present the analyses results in way of displacements and beam forces and stresses. The course will be a combination of lectures and hands-on training. The hands-on training will be a detailed step-by-step description of the modelling and analysis process. After the course you should be able to carry out beam element analysis using 3D Beam. Naval architects, designers, hull structural engineers and approval engineers with no or limited experience using Nauticus Hull.

9 Software training catalogue SOFTWARE 09 NAUTICUS HULL PULS BUCKLING Course code: NA-09 Duration: 0.5 days Basic understanding of structural strength and plate buckling theory. The course is an introduction to the PULS program for buckling and ultimate strength capacity assessments of stiffened and unstiffened panels based on non-linear large deflection plate theory. PULS can be used in typical planar building blocks in ship hull structures as well as in general planar stiffened, unstiffened or corrugated plate structures. The course will mainly be based on hands-on training, presenting some typical problems where PULS can be used for assessment and understanding of the buckling and non-linear behaviour. After the course you should be able to use PULS to calculate ultimate buckling capacities of stiffened or unstiffened plates. Naval architects, designers, hull structural engineers and approval engineers with no or limited experience using Nauticus Hull.

10 10 SOFTWARE Software training catalogue NAUTICUS MACHINERY SHAFT ALIGNMENT BASIC Course code: NA-10 Duration: 1 day Some understanding of shaft alignment analysis and verification methods. The course covers the basic parts of Nauticus Machinery Shaft Alignment intended for shaft alignment in direct coupled or geared propulsion systems. The following topics are covered: Basic geometry modelling, shaft- and bearing wizards Applying materials, buoyancy corrections, loads Modelling propeller, bearings, shrink fits, gears and engines Calculation and reporting Optimization and reverse engineering features Verification methods such as gap/sag, strain gauge or hydraulic jacking We focus on use of the software in this basic course. It means that general theory or Classification Rules are not covered. Throughout presentations and hands-on training you will learn how to use Nauticus Machinery Shaft Alignment effectively. The design, verification and troubleshooting ( reverse engineering ) aspects will be covered. You will also learn how to optimize the alignment using the more advanced features of the software. Naval architects, designers, ship yards and approval engineers with no or limited experience using Nauticus Machinery.

11 Software training catalogue SOFTWARE 11 NAUTICUS MACHINERY SHAFT ALIGNMENT ADVANCED Course code: NA-11 Duration: 3 days Detailed knowledge about marine propulsion systems and basic understanding of shaft alignment analysis, verification methods and measurements. The course covers DNV GL s theoretical and practical experience within the fields of shaft alignment, whirling and axial vibrations and relates these to good practice for carrying out calculations utilizing the Nauticus Machinery Shaft Alignment tool. Basic theory will be taught, and the course will give an insight into new technology gained by DNV GL through several comprehensive research and troubleshooting projects. The main objective is to learn best practice for shaft alignment by learning theory, analysis methods and use of the software. Each component in the system (propeller, bearing, couplings, gear, engines) will be covered in detail with extensive presentation material, know-how and experience from state-of-the-art research projects. Naval architects, designers, ship yards and approval engineers with no or limited experience using Nauticus Machinery, but with some experience within the field of shaft alignment.

12 12 SOFTWARE Software training catalogue NAUTICUS MACHINERY TORSIONAL VIBRATION BASIC Course code: NA-12 Duration: 1 day Some understanding of torsional vibration analysis inclusive excitation models for engine and propeller. The course covers all parts of Nauticus Machinery Torsional Vibration intended for steady-state torsional vibration analysis in direct coupled or geared propulsion systems. The course will include hands-on training with relevant models. Different types of propulsion systems such as electric, gas turbine, diesel engine and geared systems are covered. The following topics are covered: Create mass elastic model Stiffness and damping calculators Acceptance criteria Define load cases Calculation and reporting We focus on use of the software in this basic course. It means that general theory or Classification Rules are not covered. Throughout presentations and hands-on training you will learn how to use Nauticus Machinery Torsional Vibration effectively. Naval architects, designers, ship yards and approval engineers with no or limited experience using Nauticus Machinery.

13 Software training catalogue SOFTWARE 13 ADVANCED SHAFTING DESIGN FOR MARINE PROPULSION SYSTEMS Course code: NA-13 Duration: 2 3 days Knowledge about propulsion components such as propeller, shafts, couplings, dampers, gears and engines. Some knowledge about shaft fatigue analysis and frequency domain analysis of propulsion systems. The course covers the following topics: Steady state and transient vibrations (frequency and time domain analysis) IACS unified requirements for shaft fatigue DNV GL s detailed shaft design method Simulation of transient load responses Calculation cases and design options The course is primarily focusing on technology, but will cover the Nauticus Machinery Torsional Vibration and Nauticus Machinery Shaft Fatigue tools. Learn how to optimize your shafting design using DNV GL s detailed shaft design approach and relevant Nauticus Machinery tools. Naval architects, designers, ship yards and approval engineers with detailed knowledge about overall design of marine shafting systems.

14 14 SOFTWARE Software training catalogue NAUTICUS MACHINERY SHAFT FATIGUE WITH ICE CLASS Course code: NA-14 Duration: 1 day Some understanding of shaft fatigue analysis and ice class requirements of the propulsion system. The course covers DNV GL s detailed shaft design method and strength capacity requirements on shafting according to Finnish-Swedish Ice Class and IACS Polar Ice Class. The following topics are covered: DNV GL s simplified and detailed shaft design method Ice class strength requirements on shafting Estimate ice impacting torque and its response on the shafting Blade failure load check Cumulative fatigue strength analysis Parameter studies for stress concentration factors The main objective is to learn DNV GL s simplified and detailed shaft design method and code check of ice class strength requirements on the shafting by using Nauticus Machinery Shaft Fatigue. Throughout presentations and hands-on training you will learn how to use Nauticus Machinery Shaft Fatigue and how to check the additional ice class strength effectively. Naval architects, designers, ship yards and approval engineers with no or limited experience using Nauticus Machinery and limited understanding of ice class rules.

15 Software training catalogue SOFTWARE 15 NAUTICUS HULL CARGO HOLD FE ANALYSIS DNV 1A1 Course code: NA-16 Duration: 3 days Basic understanding of ship structures and hull strength and use of FE analyses for strength calculations. Knowledge in Nauticus Hull as covered in NA-02. It is beneficial if the participants have attended SE-01. The course is an introduction to programs for FE analyses of the cargo hold area in accordance with the Nauticus Newbuildings rules (DNV 1A1). Focus is put on extruding a cross section from section scantlings, 3D modelling and mesh control in Sesam GeniE, applying loads, corrosion additions and boundary conditions according to DNV 1A1, running a Sestra analysis and post-processing using Xtract. The course will be a combination of lectures and hands-on training. The hands-on example consists of building a cargo hold model, analysing it and performing stress level assessment. The cross section for the cargo hold model is extruded from a midship section modelled in section scantlings in the NA-02 Nauticus Hull rule check analysis course. The course will also provide a presentation of the DNV 1A1 rules and their requirements to strength assessment analyses of the cargo hold area. After the course you should be able to use Nauticus Hull for cargo hold modelling and execute FE analyses for strength and stress level assessment. Naval architects, designers, hull structural engineers and approval engineers with no or limited experience using Nauticus Hull for the DNV 1A1 rules.

16 16 SOFTWARE Software training catalogue NAUTICUS HULL CARGO HOLD FE ANALYSIS CSR BC & OT Course code: NA-17 Duration: 3 days Basic understanding of ship structures and use of FE analyses for hull strength calculations. Knowledge in Nauticus Hull as covered in NA-02. Basic knowledge in Sesam GeniE as covered in SE-01. The course is an introduction to programs for FE analyses of the cargo hold area in accordance with the IACS Common Structural Rules for Bulk Carriers and Oil Tankers (CSR BC & OT). Prepare cargo hold model Transfer of rule loads, boundary conditions and corrosion additions Hull girder load adjustment Verify model Yield strength assessment coarse mesh Buckling assessment Screening and reporting Local structural strength Fine mesh models Hot spot fatigue The course will be a combination of lectures and hands-on training, including applying of loads to a cargo hold model, analysing it and carry out stress and buckling assessment including hot spot fatigue, according to CSR BC & OT. The course will also provide a brief presentation of the IACS Common Structural Rules for Bulk Carriers and Oil Tankers. After the course you should be able to use Nauticus Hull for cargo hold analysis and execute FE analyses and code check for direct strength, buckling and fatigue assessment. Naval architects, designers, hull structural engineers and approval engineers with no or limited experience using Nauticus Hull for CSR BC & OT.

17 Software training catalogue SOFTWARE 17 SESAM Getty Images

18 18 SOFTWARE Software training catalogue CONCEPT BASED FE MODELLING AND ANALYSIS USING SESAM GENIE INTRODUCTORY Course code: SE-01 Duration: 2 days Basic knowledge in FE analysis is required. No previous experience in the use of Sesam is necessary. This is an introductory course to Sesam focusing on the concept modelling, structural analysis and results presentation features of Sesam GeniE. Exercises in concept modelling, analysis and results presentations for a topside structure composed of beams and plates are included. Code checking of topside members is included. Learn how to use the concept modelling technique of Sesam GeniE to create finite element (FE) models, perform analysis, present results and perform member code checking. Structural engineers performing design engineering of fixed and floating offshore structures built up of beams and plates.

19 Software training catalogue SOFTWARE 19 GEOMETRY BASED FE MODELLING AND ANALYSIS USING PATRAN-PRE INTRODUCTORY Course code: SE-02 Duration: 3 days Basic knowledge in FE analysis is required. No previous experience in the use of Sesam is necessary. This is an introductory course to Sesam focusing on the geometry and finite element (FE) modelling features of Patran-Pre, structural analysis in Sestra and general results processing in Xtract. Exercises in modelling of a hatch coaming and a floating structure are included. Learn how to create FE models using Patran-Pre and analyse them using Sestra. Learn how to perform general results presentation in Xtract. Structural engineers performing design engineering of fixed and floating offshore structures built up of beams, plates and shells.

20 20 SOFTWARE Software training catalogue HULL MODELLING FOR HYDRODYNAMIC ANALYSIS INTRODUCTORY Course code: SE-03 Duration: 2 days Basic knowledge in hydrostatic and hydrodynamic analysis is required. No previous experience in the use of Sesam is necessary. This course focuses on panel modelling of floating shell structures for the purpose of hydrostatic and hydrodynamic analysis. Mass modelling will be briefly discussed. The modelling tool will be Sesam GeniE. Exercises in panel modelling of a barge and a semi-submersible are included. There will also be a session on importing data from CAD. Learn how to create panel models for use in hydrostatic and hydrodynamic analysis in Sesam HydroD. Structural engineers and naval architects involved in hydrostatic and/or hydrodynamic analysis of fixed and floating offshore structures.

21 Software training catalogue SOFTWARE 21 CONCEPT BASED FE MODELLING OF SHELL STRUCTURES ADVANCED Course code: SE-04 Duration: 2 days SE-01 or equivalent. The participants should also be knowledgeable in the importance of FE mesh qualities. This course focuses on concept modelling and analysis of floating shell structures and other shell structures for the purpose of structural analysis. Sesam GeniE is the modelling tool. Exercises in concept modelling of a tubular joint, a crane pedestal and/or a semi-submersible are included. The course also covers advanced results presentation using Xtract. Learn how to use the concept modelling technique of Sesam GeniE to create FE models of complex curved shell structures. Emphasis is put on how to create and tune the FE mesh. Also learn how to extract analysis results for inclusion in a report. Structural engineers involved in detailed design of fixed and floating offshore structures built up by plates/shells and stiffeners. The course is also relevant for engineers involved in FEED studies.

22 22 SOFTWARE Software training catalogue HYDROSTATIC ANALYSIS OF OFFSHORE FLOATERS Course code: SE-05 Duration: 1 day It is required that the participants are familiar with hydrostatic analysis and key stability parameters. Since this course does not cover the creation of models used in hydrostatic analysis it is beneficial if the participants have knowledge of Sesam GeniE, as covered in either of the courses SE-01, SE-03 or SE-04. This course focuses on hydrostatic analysis and stability checking of floating structures based on relevant code check standards. The course is based on Sesam HydroD. Exercises in hydrostatic analysis of a barge, a ship and a semi-submersible are included. Learn how to create different loading conditions by filling compartments, perform hydrostatic analysis, assess key decision factors and perform stability code checks. Naval architects involved in conceptual studies and detailed engineering of offshore floating structures. Getty Images

23 Software training catalogue SOFTWARE 23 HYDRODYNAMIC ANALYSIS OF OFFSHORE FLOATERS FREQUENCY DOMAIN Course code: SE-06 Duration: 2 days It is required that the participants are familiar with hydrodynamic analysis. Since this course does not cover the creation of models used in hydrodynamic analysis it is beneficial if the participants have knowledge of Sesam GeniE, as covered in either of the courses SE-01, SE-03 or SE-04. This course introduces the participants to the Sesam programs for wave load analysis of offshore floaters based on the frequency domain methodology. The course addresses hydrodynamic analysis, short- and long-term statistics, and transfer of wave loads to structural analysis. Sesam HydroD is the main tool, supported by Wadam, Postresp and Xtract. Learn how to perform global hydrodynamic response analysis, transfer loads to structural analysis, compute short- and long-term statistics, and animate results. The exercise is based on a semi-submersible or FPSO. Naval architects involved in conceptual studies and detailed engineering of any offshore floating structure.

24 24 SOFTWARE Software training catalogue NON-LINEAR HYDRODYNAMICS ANALYSIS OF OFFSHORE FLOATERS Course code: SE-07 Duration: 2 days It is required that the participants are familiar with hydrodynamic analysis. In particular it is assumed that the participants are familiar with the topics covered by SE-06. This course introduces the participants to the Sesam programs for wave load analysis of offshore floaters based on time domain methodology. The course covers some theory description, numerical challenges in a time domain analysis, description of the non-linear effects included, various types of environmental data that can be used as input, execution and animation of the time domain simulations, and load transfer of hydrodynamic results to structural analysis. Sesam HydroD is the main tool, supported by Wasim and Xtract. You will also learn how to create panel models using Wasim. Learn how to perform non-linear global hydrodynamic response analysis, transfer loads to structural analysis, and animate results. The exercise is based on a semi-submersible. Naval architects involved in conceptual studies and detailed engineering of any offshore floating structure.

25 Software training catalogue SOFTWARE 25 JACKET ANALYSIS Course code: SE-09 Duration: 2 days It is required that the participants have attended SE-01 or have similar experience. This course focuses on analysis of jackets including the environment (hydrodynamic environment and pile-soil foundation). Concept modelling of the jacket and environment is done in Sesam GeniE, wave load analysis in Wajac, non-linear pile-soil analysis in Splice, linear static analysis in Sestra and, finally, code checking of beams and tubular joints in Sesam GeniE. The course also covers re-design of members. Fatigue analysis in Framework is briefly presented. Learn how to model jackets with tubular joints, compute wave and wind loads, perform structure-pile-soil interaction analysis, code check the results (member check and punching shear check) and perform fatigue analysis. The exercise is based on a jacket structure including environment. Structural engineers performing design engineering of jackets and jackups.

26 26 SOFTWARE Software training catalogue PROGRESSIVE COLLAPSE ANALYSIS Course code: SE-10 Duration: 2 days It is required that the participants have attended SE-01 and SE-09 or have similar experience. The participants should also have basic knowledge in nonlinear structural analysis. This course covers ultimate strength and progressive collapse analysis of steel space frame structures using Usfos. Focus is put on plastic limit state analysis of jackets subjected to accidental loads (ship collision, dropped objects, fire and explosion) and extreme environmental loads (wave, wind and current). Learn how to import models created by Sesam GeniE into Usfos and add non-linear data necessary to perform progressive collapse analysis. You will also learn how to present and understand the results. The exercise is based on a jacket. Structural engineers performing ultimate strength, accidental and life exten sion analysis of jackets.

27 Software training catalogue SOFTWARE 27 WIND INDUCED FATIGUE Course code: SE-11 Duration: 1 day It is required that the participants have attended SE-01 and preferably also SE-09 or have similar experience. This course covers gust wind and vortex shedding induced fatigue analysis of beam structures. The main tool is Framework. Structure modelling is performed in Sesam GeniE, and computation of static wind loads is performed in Wajac. Learn how to create static wind loads in Sesam GeniE including Wajac, and how to use these loads in a gust wind and vortex shedding induced fatigue analysis in Framework. The exercise is based on a flare tower. Structural engineers performing wind fatigue analysis of topside structures.

28 28 SOFTWARE Software training catalogue INSTALLATION ANALYSIS OF JACKETS Course code: SE-12 Duration: 2 days It is required that the participants have attended SE-01 or have similar experience. This course covers installation analysis of jacket structures. Focus is on launching and upending analysis based on Installjac. Preparation of the jacket model in Sesam GeniE, with respect to the installation analysis and subsequent structural analysis, is also addressed. Learn how to do launching and upending analysis and how to create loads for given time steps for use in a structural analysis. The exercise is based on a jacket launched from a barge. Hydrodynamic and structural engineers assessing jacket installations.

29 Software training catalogue SOFTWARE 29 SEMI-SUBMERSIBLE ANALYSIS Course code: SE-13 Duration: 4 days It is required that the participants have attended SE-01 and are familiar with hydrodynamic analysis. This course focuses on design analysis of semi-submersibles. Modelling the structure for FE analysis and the panel model for hydrodynamic analysis is done in Sesam GeniE. The hydrodynamic environment modelling is done in Sesam HydroD and the hydrodynamic analysis in Wadam. Hydrodynamic loads are transferred to the FE model for structural analysis in Sestra. Hydrodynamic and structural results are presented in Xtract. Code checking of beams and plates is performed in Sesam GeniE. Sub-modelling using Submod, and fatigue analysis of plates/shells using Stofat, are also briefly discussed. You will learn to perform all basic steps of structural and hydrodynamic analysis of a semi-submersible and similar floating structures. Hydrodynamic and structural engineers working with design of offshore floaters.

30 30 SOFTWARE Software training catalogue HYDROSTATIC AND HYDRODYNAMIC ANALYSIS OF SHIPS Course code: SE-14 Duration: 3 days It is required that the participants are familiar with hydrodynamic analysis and free surface problems. This course introduces the participants to our stability and hydrodynamics tool Sesam HydroD, supported by Wasim, Postresp and Xtract. The course includes both hydrostatic and hydrodynamic analysis of ships, and statistical post-processing animation. Learn how to perform hydrostatic analysis of a ship. Learn how to perform a global hydrodynamic analysis and transfer loads to a structural analysis using both linear frequency domain and non-linear time domain methods. You will also learn how to do short-term statistical analysis in frequency domain and how to create animations of time domain simulations. Naval architects involved in conceptual studies and/or detailed engineering of any type of ship.

31 Software training catalogue SOFTWARE 31 FPSO CARGO HOLD ANALYSIS Course code: SE-16 Duration: 3 days Basic understanding of ship structures and hull strength and use of FE analyses for strength calculations. Knowledge in Nauticus Hull as covered in NA-02. It is beneficial if the participants have attended SE-01. The course is an introduction to programs for modelling and FE analyses of FPSOs according to the DNV Offshore Standard OS-C102. Focus is put on extruding a cross section from section scantlings, 3D modelling and mesh control in Sesam GeniE, applying loads, corrosion additions and boundary conditions according to OS-C102 and RP-C102, running a Sestra analysis and post-processing using Xtract. The course will be a combination of lectures and hands-on training. The hands-on example consists of building and meshing a cargo hold model, analysing it and performing stress level assessment. The cross section for the cargo hold model is extruded from a midship section modelled in section scantlings in NA-02 Nauticus Hull rule check analysis. The course will also provide an introduction of the DNV Offshore Rules and their requirements to strength assessment analyses of the cargo hold area. After the course you should be able to create FPSO cargo hold models and execute FE analyses for strength and stress level assessment. Structural engineers working with design of FPSOs.

32 32 SOFTWARE Software training catalogue COUPLED MOTION ANALYSIS AND RISER DESIGN OF OFFSHORE FLOATING INSTALLATIONS Course code: SE-18 Duration: 3 days It is required that the participants are familiar with hydrodynamic analysis, riser design and non-linear analysis. No previous experience in use of Sesam is mandatory, but it is beneficial to have knowledge of Sesam HydroD equivalent to SE-06. The course introduces the Sesam DeepC tool for carrying out both coupled floater motion analysis and analysis of individual lines in time domain. Modelling of the slender structure, set-up and execution of the analysis, as well as post-processing the analysis results, will be covered. The following topics will be covered: Concept modelling of riser/mooring system and vessels Environmental load modelling Coupled analysis, set up and execution The seamless interaction with Sesam HydroD, Simo and Riflex Static configuration of vessel/mooring system Post-processing of time series results Fatigue analysis of lines ULS code checking of steel risers Structural engineers/naval architects involved in design or verification of floating offshore installations and the interaction with their risers and moorings.

33 Software training catalogue SOFTWARE 33 RISER ANALYSIS Course code: SE-19 Duration: 2 days No previous experience in use of Sesam is required. However, some basic knowledge in riser design and non-linear FE analysis is required. For extension to coupled analysis of riser systems, see SE-18. The course introduces the Sesam DeepC tool for carrying out riser analysis in time domain without the effects from a coupled analysis. Learn how to analyse marine risers. The following topics will be covered: Concept modelling of risers Environmental load modelling Analysis of individual lines based on floater RAOs or time series from file Use of Riflex through Sesam DeepC Post-processing of time series results Fatigue analysis LS code check of steel risers Structural engineers involved in design or verification of marine risers.

34 34 SOFTWARE Software training catalogue MOORING LINES ANALYSIS Course code: SE-20 Duration: 2 days It is required that the participants are familiar with hydrodynamic analysis. No previous experience in use of Sesam is mandatory, but it is beneficial to have knowledge of Sesam HydroD equivalent to SE-06. The course introduces the Mimosa tool for frequency domain analysis of mooring lines. Learn how to analyse mooring lines. The following topics will be covered: Modelling of vessel data and mooring lines Environmental load modelling Static and dynamic motion response analysis Transient motion analysis Dynamic positioning with thrusters Interaction with the Sesam suite of programs (Sesam HydroD/Wadam) Statistical post-processing of results Naval architects/structural engineers involved in design of mooring lines.

35 Software training catalogue SOFTWARE 35 SIMULATION OF MARINE OPERATIONS Course code: SE-21 Duration: 3 days It is required that the participants are familiar with hydrodynamic analysis. No previous experience in use of Sesam is mandatory, but it is beneficial to have knowledge of Sesam HydroD equivalent to SE-06. This course introduces the participants to Sesam Marine for simulation of marine operations, e.g. heavy lifting, side-by-side mooring and floatover. Learn how to simulate marine operations like for example deck mating, lifting of large deck structures and modules, lift installation of subsea templates and towing by using Sima as a graphical front end to Simo and Riflex. The following topics will be covered: Modelling marine simulation in a visualized Sima environment Modelling of multibody systems Flexible force models for complex marine operations Environmental loading due to wind, waves and current Interaction with Sesam suite of programs (Sesam HydroD/Wadam) Post-processing of results Naval architects and marine engineers involved in analysis of marine operations. Statoil/Øyvind Hagen

36 36 SOFTWARE Software training catalogue SUB-MODELLING ANALYSIS COMBINED WITH PLATE/SHELL FATIGUE ANALYSIS Course code: SE-22 Duration: 2 days SE-01. The participants should also have knowledge of the principles of stochastic (spectral) fatigue analysis. The course introduces the sub-modelling technique which allows a refined analysis of a detail of the whole structure. Displacements extracted from an analysis of the whole structure are subjected to the sub-model boundaries together with local loads on the sub-model. Such local sub-model loads may be hydrodynamic loads. A sub-model analysis facilitates stochastic (spectral) fatigue analysis of a plate/shell detail. Learn how to create sub-models in Sesam GeniE and use Submod to perform a sub-modelling analysis. Also learn to use Stofat for stochastic fatigue analysis of plate/shell type structures. Structural engineers involved in detailed design of fixed and floating offshore structures built up by plates/shells and with attention to fatigue problems.

37 Software training catalogue SOFTWARE 37 FPSO GLOBAL STRENGTH AND SPECTRAL FATIGUE ANALYSIS Course code: SE-23 Duration: 4 days It is required that the participants have attended SE-04 alternatively SE-05, SE-06 or SE-16 or have similar knowledge in Sesam GeniE and Sesam HydroD. The course focuses on direct hydrodynamic and strength analysis methods, global structural analysis and spectral fatigue calculations. You will go through the process of carrying out global analysis with direct calculated loads using Sesam GeniE and Sesam HydroD. Ultimate strength, local analysis and stochastic fatigue calculations are covered with practical examples using Cutres, Xtract, Puls, Submod and Stofat. The course focuses on practical use of the software tools in the analysis workflow. You will learn how to perform all necessary steps of assessing the structural integrity of an FPSO. Structural engineers working with design of FPSOs.

38 38 SOFTWARE Software training catalogue ADVANCED USE OF THE SESAM GENIE PACKAGE Course code: SE-24 Duration: 2 days SE-01 and preferably SE-04. The course covers advanced use of the modules in the Sesam GeniE package. Topics include: Scripting in Sesam GeniE Superelement technique: Jacket inplace analysis Superelement technique: Dynamic analysis Mesh control and rigid links Managing work flow using Sesam Manager Tension/compression only elements- transportation analysis (optional) Analysis with different boundary conditions Modelling errors in Sesam GeniE Model import from Rhino3d/DXF Curves (optional) To be agreed by the participants and DNV GL Software. Advanced Sesam GeniE users. Getty Images

39 Software training catalogue SOFTWARE 39 HULL FORM MODELLING IN SESAM GENIE Course code: SE-25 Duration: typically 1 2 days SE-01 and preferably SE-04. Guidelines for modelling and meshing typical hulls, including: Import surfaces from CAD and Sesam Hull Translator Import curves from CAD or offset tables Model checking Idealizing geometry Meshing Local models Learn hull form modelling in Sesam GeniE. Advanced Sesam GeniE users.

40 40 SOFTWARE Software training catalogue JSCRIPTING IN SESAM GENIE Course code: SE-26 Duration: typically 1 2 days SE-01 and SE-04 or SE-08 or SE-09. Learn how to become more efficient using JScript in Sesam GeniE. Agree with DNV GL Software on which topics to cover. To be agreed by the participant and DNV GL Software. Advanced Sesam GeniE users.

41 Software training catalogue SOFTWARE 41 FATIGUE AND EIGENVALUE ANALYSIS OF OFFSHORE WIND TURBINE SUPPORT STRUCTURES Course code: SE-27 Duration: 1 day It is required that the participants are familiar with modelling in Sesam GeniE, hydrodynamic analysis and pile/soil analysis. Previous experience of Sesam is required equivalent to SE-01 and SE-09. The course focuses on fatigue analysis and Eigenvalue analysis of offshore wind turbine support structures. It focuses on jacket-based support structures in particular. You will use Sesam GeniE and Framework for carrying out a deterministic fatigue analysis of cyclic loads. You will also be introduced to Sesam Wind, to carry out fatigue analyses using time series of wave and wind turbine loads. Performing an Eigenvalue analysis on a jacket will be covered as well. The following topics will be covered: Defining cyclic loads Fatigue analysis using cyclic loads The interaction with Sesam Wind Fatigue analysis using time series of wind turbine loads using rainflow counting Eigenvalue analysis of jacket structures Agenda: Deterministic fatigue analysis of load cycles Introduction to Sesam Wind Time series fatigue analysis Eigenvalue analysis of a jacket Structural engineers involved in design or verification of fixed offshore wind turbine support structures.

42 42 SOFTWARE Software training catalogue SESAM FOR JACKET DESIGN FROM CONSTRUCTION TO INSTALLATION Course code: SE-30 Duration: Option 1: 12 weeks per week, one evening training + homework Option 2: 5 days of intense training Option 3: 10 days of training Requires basic skills in Sesam, course SE-01 or similar, and jacket design. This workshop is meant to guide an engineer through the various analysis tasks required for a jacket design. The workshop is built up in lectures focusing each analysis task this means that the attendee should have basic skills in Sesam and jacket design from before. The workshop material is built up to guide users though all steps required in addition there is a general introduction to the subject jacket design and there are more explanations on the reason behind some of the design stages. The workshop is divided into the following sections: Introduction Defining the workflow Modelling structure, loads, environment, pile and soil Linear analysis with wave and non-linear pile/soil Code checking of members (jacket and topside) Code checking of tubular joint Dynamic analysis (including eigenvalue) Fatigue analysis (spectral) Load-out analysis Jacket transportation analysis (centripetal accelerations) Deck lifting analysis Jacket launch analysis Un-piled condition Learn how to design, model and install a jacket. Structural engineers performing design engineering of jackets.

43 Software training catalogue SOFTWARE 43 SIMULATION-DRIVEN SHAPE OPTIMIZATION WITH SESAM CAESES INTRODUCTORY Course code: SE-31 Duration: 2 days Good knowledge of CAE simulation is preferred as well as basic knowledge of CAD modelling. No previous experience using Sesam CAESES is required. The course gives you an introductory overview of the major functions and features found within Sesam CAESES. You will learn how to create parametric models which are ready to be used in the automation process. A general introduction to the software connector will be given in order to provide guidelines on how to couple Sesam CAESES with your simulation software of choice. Optimization algorithms, DoE, and post-processing will also be touched upon. Learn the basic principles of using Sesam CAESES for automated shape optimization studies. Typical industrial applications include reducing the resistance of your hull-form, maximizing the efficiency of your pump, lowering the pressure losses through your duct or manifold, or improving the sea-keeping behavior of your offshore platform. CAE engineers who have a solid background in simulation (e.g. CFD, FEA, seakeeping) and are using these codes to drive their mechanical or hydrodynamic designs.

44 44 SOFTWARE Software training catalogue SIMULATION-DRIVEN SHAPE OPTIMIZATION WITH SESAM CAESES ADVANCED Course code: SE-32 Duration: 3 5 days Good knowledge of CAE simulation is preferred as well as basic knowledge of CAD modelling. Some experience using Sesam CAESES is required, and it is preferred that you have completed the introductory course SE-31 or that you have gone through the first two sections of tutorials. This course includes advanced topics relevant to your specific application. Examples include advanced meta-surface modelling (such as for ship hulls, turbomachinery blades and volutes, aerodynamic bodies, etc.), transformation of existing geometries, feature scripting, coupling to your specific CFD or CAE tools, and setting up the automation process. By the end of the course, you will have the ability to create the automatic optimization set-up for your industrial project. Learn how to use advanced techniques in Sesam CAESES to perform automated shape optimization studies. Typical examples include reducing the resistance of your hull-form, maximizing the efficiency of your pump, lowering the pressure losses through your duct or manifold, or improving the sea-keeping behavior of your offshore platform. CAE engineers who have a solid background in simulation (e.g. CFD, FEA, seakeeping) and are using these codes to drive their mechanical or hydrodynamic designs.

45 Software training catalogue SOFTWARE 45 PROBABILISTIC FATIGUE ANALYSES AND INSPECTION PLANNING Course code: SE-33 Duration: 2 days SE-09 or similar knowledge of wave induced fatigue analysis is very relevant for this course, but not essential. This course is intended for users seeking to perform inspection planning optimizations or wave induced probabilistic fatigue analysis using either SN fatigue or a fracture mechanics approach. You will learn the theoretical bases behind the features available in Profast, as well as how to set up wave induced fatigue analyses and/or optimized inspection planning. Model creation inside of Profast or import of a previous Sesam model will be dealt with in the workshops, in addition to the necessary input for the different types of analyses. Users who want to perform more detailed SN fatigue analysis using reliability methods or who want to perform fatigue analysis using fracture mechanics approach. Users who want to perform optimized inspection planning or update reliability of the structure based on inspection findings.

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48 SAFER, SMARTER, GREENER DNV GL AS NO-1322 Høvik, Norway Tel: DNV GL Driven by our purpose of safeguarding life, property and the environment, DNV GL enables organizations to advance the safety and sustainability of their business. We provide classification and technical assurance along with software and independent expert advisory services to the maritime, oil and gas, and energy industries. We also provide certification services to customers across a wide range of industries. Combining leading technical and operational expertise, risk methodology and in-depth industry knowledge, we empower our customers decisions and actions with trust and confidence. We continuously invest in research and collaborative innovation to provide customers and society with operational and technological foresight. With our origins stretching back to 1864, our reach today is global. Operating in more than 100 countries, our 15,000 professionals are dedicated to helping customers make the world safer, smarter and greener. The trademarks DNV GL and the Horizon Graphic are the property of DNV GL AS. All rights reserved. DNV GL 04/2016 Design: Coormedia.com Volume 500 Cover photo: Getty Images