Power and renewables

Floating Wind (online)

Wind Turbine Power Performance IEC61400

Floating wind introduction course from the global experts

DNV is presenting a half day introduction course about floating offshore wind covering the market, the technology and project phases from design to operation. 

The next phase of the energy transition demands committed implementation of new technologies. Floating offshore wind is opening new possibilities for wind power locations and will play a critical role in the transition to a cleaner energy supply, contributing significantly to an increase in offshore wind power. According to DNV, the technology is predicted to grow worldwide, rising from the around 100 MW today to more than 10 GW in 2030 and 260 GW in 2050. 

Led by our team of world leading experts in floating offshore wind and augmented by DNV’s 13 years’ experience in this area, this half day course will provide attendees the basic knowledge to succeeded with this new and promising technology.

The training will be “inter-active” meaning that participants are asked to send their questions in advance of the course and have further opportunities during and at the end of the sessions to file questions to the trainers.

On completion, attendees should get a good understanding of the market and how floating wind differs from bottom fixed with regards to the components and the various project phases. For more details, see the agenda further down.

Speakers
Magnus Ebbesen, Kimon Argyriadis, Tore Hordvik, Benjamin Child, Oddrun Steinkjer.

Magnus Ebbesen

Magnus Ebbesen

  

Magnus Ebbesen holds a Master of Science in Engineering Science and Computer Science from NTNU and has worked in DNV since 2009. He is the Segment Lead for floating wind advisory in the nordics and UK. Magnus has since 2013 worked primarily with managing and contributing to technical due diligence, market assessment and cost- and risk- assessments for offshore wind. Magnus has in this period led technical due diligences for bottom fixed offshore wind projects in UK, Germany and Taiwan and numerous floating offshore wind projects. He has also conducted floating wind market- and cost studies for many of the leading floating wind developers.

Kimon Argyriadus

Kimon Argyriadis


Kimon Argyriadis is floating wind energy director in Renewables Certification. He has a Naval Architect Degree (Dipl. Ing.) from Hamburg University (1990). After a period in marine engineering consultancy, he joined Germanischer Lloyd (GL) wind energy certification business in 1994. There he performed load and site-specific analysis of several offshore wind turbines and wind farms. He has also participated in research projects, international standardization and published several technical papers in his field of expertise. He is member of IEC TC88 MT 3-2 standard maintenance team for floating wind turbines. He has acted as member of the International Ship and Offshore Structures Congress (ISSC) committees "Loads“ and "Ocean Wind and Energy Utilization". In 2013 and 2018 he received the IEC 1906 award. After the merger between, DNV and GL in 2013, Kimon served as innovation manager in DNV Renewables Certification, having responsibility for service document development (service specifications, standards and recommended practices) as well as planning and control of internal and collaborative research and development projects.

Tore Hordvik

Tor Hordvik

  
Tore Hordvik holds a Master of Science in Marine Technology from NTNU with specialization in Hydrodynamics. He has worked in DNV since 2011. Tore is working as a principal engineer within Renewables mainly focusing on issues related to floaters and mooring in services such as verification projects, due diligence projects and market-/feasibility studies. He is involved in the development of the DNV Standards and Recommended Practices within floating wind and floating solar. Tore has been involved in several floating wind farm developments as well as demonstrator projects. In addition to renewables, Tore has vast experience from hydrodynamics and mooring within industries such as O&G, fish farming and infrastructure.

Benjamin Child

Benjamin Child

  
Benjamin Child is currently Technical Lead for Floating Wind Energy, coordinating research, business development and strategy in this area, as well as Offshore Team Lead, managing a group of ten interdisciplinary engineers within the Turbine Engineering section. An engineer with 15 years’ experience in the offshore renewables sector, he initially explored numerical modelling through an MSc dissertation project and later a PhD, where he established novel hydrodynamic analysis and optimisation techniques. After joining DNV (formerly Garrad Hassan), Ben applied his research to consultancy work as well as leading software development related to hydrodynamics and wave energy farms. Since then, he has continued to have deep involvement in research and development, addressing some of the key challenges facing floating wind energy system design. However, with a rapidly growing floating wind industry, his focus in recent years has primarily been on commercial projects, providing expert advice, analysis and design services to help get the first full-scale system concepts into the water and ensure that the next generation of concepts meet ambitious targets on performance and cost.

Oddrun Steinkjer

Oddrun Steinkjer


Oddrun Steinkjer has a Master of Science from NTNU (NTH) and has worked in DNV GL since 1991. She has her whole working career worked with dynamic slender systems including dynamic power umbilicals and cables in both Oil & Gas and renewable market. She has worked with floating wind since 2008. She is working on behalf of both manufacturers, EPCI contractors and operators providing technical advice, analyses or assessments for safe design, installation and operation of cable systems. She has expertise in global dynamic analyses of floating platform systems including various floating wind concepts. Her main expertise is within the structural and mechanical part of both static and dynamic cable systems; global response and fatigue of dynamic cables, seabed stability, freespan and VIV, protection systems. She has been part of the development team in DNV and has extensive experience with analyses software Helica for complex cross sections with helix elements including fatigue.


For whom?
The target group for this training are professionals working in the wind industry (or wants to become part of it), developers, investors, insurance, OEM’s and regulators – who aims a fast learning of floating wind technology.

Full Q&A-note and presentation materials will be  become available after the course.

For more information please contact:
Magnus Ebbesen at Magnus.Ebbesen@dnv.com | + 47 41630570

Neem contact op:

Magnus Ebbesen
Magnus Ebbesen

Segment Lead floating wind

Contact

Register here

Datum:

23 november 2021

Toevoegen aan kalender 2021/11/23 09:00 2021/11/23 18:00 Floating Wind (online) Floating wind introduction course from the global experts
https://www.dnv.nl/training/floating-wind-online--200355
This only adds the event to your calendar, please remember to register for this event.
false YYYY/MM/DD akeGphYOczrmtQTfhmEQ22349
Available dates and venues

Duration:

1 day 4,5 hours

Location:

Online

Language:

English

DNV is presenting a half day introduction course about floating offshore wind covering the market, the technology and project phases from design to operation. 

The next phase of the energy transition demands committed implementation of new technologies. Floating offshore wind is opening new possibilities for wind power locations and will play a critical role in the transition to a cleaner energy supply, contributing significantly to an increase in offshore wind power. According to DNV, the technology is predicted to grow worldwide, rising from the around 100 MW today to more than 10 GW in 2030 and 260 GW in 2050. 

Led by our team of world leading experts in floating offshore wind and augmented by DNV’s 13 years’ experience in this area, this half day course will provide attendees the basic knowledge to succeeded with this new and promising technology.

The training will be “inter-active” meaning that participants are asked to send their questions in advance of the course and have further opportunities during and at the end of the sessions to file questions to the trainers.

On completion, attendees should get a good understanding of the market and how floating wind differs from bottom fixed with regards to the components and the various project phases. For more details, see the agenda further down.

Speakers
Magnus Ebbesen, Kimon Argyriadis, Tore Hordvik, Benjamin Child, Oddrun Steinkjer.

Magnus Ebbesen

Magnus Ebbesen

  

Magnus Ebbesen holds a Master of Science in Engineering Science and Computer Science from NTNU and has worked in DNV since 2009. He is the Segment Lead for floating wind advisory in the nordics and UK. Magnus has since 2013 worked primarily with managing and contributing to technical due diligence, market assessment and cost- and risk- assessments for offshore wind. Magnus has in this period led technical due diligences for bottom fixed offshore wind projects in UK, Germany and Taiwan and numerous floating offshore wind projects. He has also conducted floating wind market- and cost studies for many of the leading floating wind developers.

Kimon Argyriadus

Kimon Argyriadis


Kimon Argyriadis is floating wind energy director in Renewables Certification. He has a Naval Architect Degree (Dipl. Ing.) from Hamburg University (1990). After a period in marine engineering consultancy, he joined Germanischer Lloyd (GL) wind energy certification business in 1994. There he performed load and site-specific analysis of several offshore wind turbines and wind farms. He has also participated in research projects, international standardization and published several technical papers in his field of expertise. He is member of IEC TC88 MT 3-2 standard maintenance team for floating wind turbines. He has acted as member of the International Ship and Offshore Structures Congress (ISSC) committees "Loads“ and "Ocean Wind and Energy Utilization". In 2013 and 2018 he received the IEC 1906 award. After the merger between, DNV and GL in 2013, Kimon served as innovation manager in DNV Renewables Certification, having responsibility for service document development (service specifications, standards and recommended practices) as well as planning and control of internal and collaborative research and development projects.

Tore Hordvik

Tor Hordvik

  
Tore Hordvik holds a Master of Science in Marine Technology from NTNU with specialization in Hydrodynamics. He has worked in DNV since 2011. Tore is working as a principal engineer within Renewables mainly focusing on issues related to floaters and mooring in services such as verification projects, due diligence projects and market-/feasibility studies. He is involved in the development of the DNV Standards and Recommended Practices within floating wind and floating solar. Tore has been involved in several floating wind farm developments as well as demonstrator projects. In addition to renewables, Tore has vast experience from hydrodynamics and mooring within industries such as O&G, fish farming and infrastructure.

Benjamin Child

Benjamin Child

  
Benjamin Child is currently Technical Lead for Floating Wind Energy, coordinating research, business development and strategy in this area, as well as Offshore Team Lead, managing a group of ten interdisciplinary engineers within the Turbine Engineering section. An engineer with 15 years’ experience in the offshore renewables sector, he initially explored numerical modelling through an MSc dissertation project and later a PhD, where he established novel hydrodynamic analysis and optimisation techniques. After joining DNV (formerly Garrad Hassan), Ben applied his research to consultancy work as well as leading software development related to hydrodynamics and wave energy farms. Since then, he has continued to have deep involvement in research and development, addressing some of the key challenges facing floating wind energy system design. However, with a rapidly growing floating wind industry, his focus in recent years has primarily been on commercial projects, providing expert advice, analysis and design services to help get the first full-scale system concepts into the water and ensure that the next generation of concepts meet ambitious targets on performance and cost.

Oddrun Steinkjer

Oddrun Steinkjer


Oddrun Steinkjer has a Master of Science from NTNU (NTH) and has worked in DNV GL since 1991. She has her whole working career worked with dynamic slender systems including dynamic power umbilicals and cables in both Oil & Gas and renewable market. She has worked with floating wind since 2008. She is working on behalf of both manufacturers, EPCI contractors and operators providing technical advice, analyses or assessments for safe design, installation and operation of cable systems. She has expertise in global dynamic analyses of floating platform systems including various floating wind concepts. Her main expertise is within the structural and mechanical part of both static and dynamic cable systems; global response and fatigue of dynamic cables, seabed stability, freespan and VIV, protection systems. She has been part of the development team in DNV and has extensive experience with analyses software Helica for complex cross sections with helix elements including fatigue.


For whom?
The target group for this training are professionals working in the wind industry (or wants to become part of it), developers, investors, insurance, OEM’s and regulators – who aims a fast learning of floating wind technology.

Full Q&A-note and presentation materials will be  become available after the course.

For more information please contact:
Magnus Ebbesen at Magnus.Ebbesen@dnv.com | + 47 41630570

Course details

Date Location Language Fee Register
Date
23 November 2021
Location
online via Microsoft Teams,
2 sessions of 2 hours
from 09:00 - 11:00 hours CET and 11:30 - 13:30 hours CET
Language
English
Fee
NOK 5 500
Register
Register here

Agenda

Draft course outline

Day 1 

 

Introduction

▪ Agenda
▪ Introduction of speaker

Floating Wind Overview

▪ Why floating wind?
▪ Global market overview
▪ Technology overview
▪ State of the art
▪ Costs and risks
▪ Relevant experience

Subsea cables

▪ Cable design considerations
▪ Cable components
▪ Array versus export cable
▪ Challenges
▪ Standards
▪ Failure rates

Floating Substructure Technology

▪ Floating wind applicability
▪ The main floaters concept including experience to date
▪ Spar vs semi-submersible/barge vs Tension Leg Platform
▪ Concrete versus steel
▪ The long list of concepts

Mooring and anchoring

▪ Mooring concept types
▪ Anchor types
▪ Mooring line types – materials
▪ Appendages
▪ Concept selection
▪ Challenges and environmental considerations
▪ Mooring technology on the horizon
▪ Mooring risk & Integrity Management

Q&A

Day 2 

 

Introduction

▪ Agenda
▪ Introduction of speaker

Design process overview

▪ Design method
▪ Control system
▪ Coupled load analysis
▪ Model testing
▪ Stability

Certification

▪ Why certification
▪ Service description
▪ Certification levels and modules
▪ Concept, prototype, and project certification

Supply chain and fabrication

▪ Component overview and dependencies
▪ Concrete vs steel fabrication
▪ Serial production
▪ Fabrication challenges

Installation

▪ Port operations
▪ Mooring and anchoring pre installation
▪ Towing and hook-up 

Operations

▪ Differences between floating wind and bottom fixed wind
▪ Major component replacement
▪ Mooring and cable failure
▪ Performance implications

Q&A

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