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CENTRE FOR MARINE OPERATIONS
Centres for Research-based Innovation
Marine Operations
SFI - MOVE
Karl H Halse
Dept of Marine Technology and Operations
NTNUi Ålesund
Ålesund
Høgskolen
Vision
World Leading Centre for Marine Operations
•All year subsea operations –
installation & service
•Safer and more cost-efficient operations
•Support innovation in existing
and emerging ocean industries
CENTRE FOR MARINE OPERATIONS
Business areas
CENTRE FOR MARINE OPERATIONS
Demanding
offshore
operations
How to do all year
subsea installation
and service at ultra
deep water?
Industrialization
CENTRE FOR MARINE OPERATIONS
Offshore Wind Power
OW is a land-based
industry facing a
marine innovation
challenge.
How can we do
installation and
service at low cost?
Innovation
CENTRE FOR MARINE OPERATIONS
Seabed Mining
How to enable
mining at ultra
deep water?
Research
Strategy
World Leading Centre for Marine Operations
Response-based criteria
– from design to operations
Design
Engineering
Installation
Virtual Prototyping
– from planning to execution
Operations
Strategy
WORLD LEADING CENTRE FOR MARINE OPERATIONS
o Improved understanding of
complex physical phenomena
o Simulation and Virtual Prototyping as an
industrial standard
o Onboard decision support systems
o Improved crew performance
(training & assessment)
o Online environment monitoring
CENTRE FOR MARINE OPERATIONS
Research partners
Industrial /user partners
SFI MOVE work flow
GCE- Blue
Maritime
SFI
CHALLENGES
MODELLING
Innovation
plan
(RA α)
Sub-project
Enhanced physical
modelling
numerical methods
and tools
(RA 2)
SFI
DEVELOPMENT
Vessel performance
(RA 1)
On-board systems
(RA 3)
Sub-project
Sub-project
Integrated simulator
environment
(RA 4)
GCE- Blue
Maritime
USE/TESTING
Arena for
innovation by
virtual
prototyping
(RA Ω)
Innovation Plan 2016
The industrial advisory group are defining
the innovation plan and follow up results
CHALLENGES
Innovation
plan
(RA α)
Sub-project A
Sub-project B
Sub-project C
USE/TESTING
Arena for
innovation by
virtual
prototyping
(RA Ω)
Innovation Plan 2016
Sub-Projects
Sub-Project 1: OW
Low Cost Offshore Wind Installation and Maintenance of fixed
structures
Sub-project 5: OW
Installation of Floating Wind Power Systems
Sub-project 2: “Subsea”
Safe-All Year-Cost Efficient Subsea Operations
Sub-project 3: Mining
Exploration of Technologies to Develop Seabed Mining as a new
business area
Sub-project 4: Tool & platform
Simulation and Virtual prototyping as a common Approach from
Design to Operation
OW
Low Cost Offshore Wind Installation and
Maintenance of fixed structures
I dag blir turbiner typisk installert med
jack-up rigger. Målet er å kunne
installere vindturbiner fra skip og kunne
drive service og vedlikehold (uten
kontakt med havbunn) til en langt lavere
kostnad. Service og vedlikehold over
turbinens levetid er trolig viktigst. En
krevende operasjon må kunne:
• Shallow water 20-50 meters
• Lifting height 120 meters
• Weight 400 - 2000 t
Spesialisert/ny teknologi for
rulledemping (active roll damping)
Et aktivt verktøy på krana til å
kompensere skipsbevegelse (f.ex. the
Ulstein Colibri)
OW
Installation of Floating Wind Power Systems
En krevende operasjon må kunne:
•Water depth 100m – 700m
•Height >150-200m
•Weight 400-2000t
“Subsea”
Safe-All Year-Cost Efficient Subsea
Operations
Objectives to improve of
the operational limitations
are:
• Improve HSE by making
the operations more robust
vs. available weather
window.
• Make operations safer
and with required accuracy.
• Reduce total field
development costs by more
cost-efficient marine
operations.
• Increase operational
efficiency of subsea fields
by all year vessel operation.
Mining
Exploration of Technologies to Develop
Seabed Mining as a new business area
The seabed mining industry
• Significant mineral resources within the zone of
Norwegian interests, i.e along the mid-Atlantic
ridge starting outside Svalbard.
• Right now the resource estimates are uncertain,
however, there are parallel research initiatives
(Marmine project) that will start extracting
samples from 2017.
• NTNU study estimate low value 75 bn USD. No
upper limit.
Enable seabed mining to take place in a
commercial and cost-efficient manner
• at different water depths,
• with minimal impact on the
environment/marine ecosystem
• contribute to positioning the Norwegian
Maritime industry towards commercial
harvesting of subsea minerals.
Tool & platform
Simulation and Virtual prototyping as a
common Approach from Design to Operation
The idea is to implement a simulation oriented design approach in
the maritime industry, from design to performing the operation.
The purpose is to present methods and demonstrate the cycle from
design to virtual prototyping as shown in the figure. Explore
shortcomings and suggest improvement.



Transform the industry to a performance
oriented operation approach.
Increase innovation by fast prototyping
Reduce cost by reuse for models during the
process from preliminary investigations to
execution of operations
SFI MOVE Goals
1. Academic:
– 6 + 5 PhD
Alle PhD knyttes til
en eller flere bedrifter
– 8 post.doc.
64 publications
– nn Visiting professors/researchers
2. Innovation:
– 100 million in industrial projects / BIP
– 2 Horizon 2020 projects
3. Centre with an annual turnover of 40 million
4. International conference in Marine Operations
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SFI MOVE
Project organization
Centre Director:
Hans Petter Hildre (NTNU)
Research Area Leaders (RA)
 RA1 Hans Jørgen Rambech (MARINTEK)
 RA2 Svein Sævik (NTNU)
 RA3 Lars Tandle Kyllingstad (SINTEF F&H)
 RA4 Karl H. Halse (NTNU)
Sub Project Leaders
Sub-project
1: OW
2: Subsea
3: VP
4: Mining
5: OW
Project Leader
Karl H Halse, NTNU
Hans J Rambech, Marintek
Lars Tandle Kyllingstad, SINTEF
Svein Sævik, NTNU
Karl H Halse, NTNU
Deputy project leader
Zhen Gao, NTNU
Zhang Houxiang, NTNU
Henrique Gaspar, NTNU
Zhen Gao, NTNU
Status
PhD + PD
Forsinket oppstart av SFI medførte utfordringer i oppstart av PhD og PD
Vi er nesten i rute nå og blir i rute fra sommeren 2016
RA 2
Numerical tools
Sub Project 1: OW
Low Cost Installation and
Maintenance of fixed Offshore
Wind structures
Sub Project 2: Subsea
Safe-All Year-Cost Efficient
Subsea Operations
Sub Project 3: VP
Simulation Technology and
virtual prototyping as a
common Approach from
Design to Operation
Sub Project 4: Mining
Exploration of Technologies to
Develop Seabed Mining as a
new business area
Sub Project 5: OW
Innovative installation of
Floating Wind Power Systems
RA 1
Vessel Performance
RA 3
On-board systems
RA 4
Integrated simulator
PhD 3, Zhengru Ren,
Jan 16,
PhD 2, Sep. 15, Fredrik
Mentzoni, Aug 15 (NTNU)
PD 1, des 15, Mia Prisic
Jan 16
PhD 12, Jan 16
Tor Holan Marstein
PhD 15 Svenn Are
Værnø (AMOS)
PD 3 October 2016 Mats
Thorsen
PD4 October 2016 NN
PhD 14, Aug 15
Thor Huse Knudsen
PD 2, Aug 16, Ji Lin
PhD 4, Aug 16, NN
PhD 1, Aug 15, Martin
Friedwart Gutsch
PhD 13, Aug 2015
Jiafeng Xu
PhD 5, spring 16 (HiÅ)
CENTRE FOR MARINE OPERATIONS
Hjemmeside på vei opp:
https://www.ntnu.edu/web/move/move-marine-operations-center
Blue Ocean / Ocean Space
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SFF AMOS Autonomous Marine Operations and Systems
SFI MOVE Marine Operations
SFI Smart Maritime
SFI Exposed
SFI Offshore Mechatronics
GCE – Blue Maritime
Ocean Space Centre
We will set up a strategic group coordinating research and
activities (project leaders forum)
United Nations Millennium project
- global challenges
OECD
- the Future of the Ocean Economy
"New-new"
activities
"Unborn
industries"
New growing
industries
Established
industries
OECD focus :
New growing industries
• Deep/ultra-deep water oil & gas exploration
and extraction
• Renewables - off-shore wind, wave, tidal….
• Marine aquaculture
• Sea-bed mining
• Marine biotechnology
• Ocean monitoring, surveillance, control
• Ocean and coastal tourism
• Cross-sectoral implications/synergies with other
ocean-related economic activities - incl.
shipbuilding
25
European Union
- our Major Global Challenges
• Food
• Energy
• Raw materials
For a growing population and simultaneous
handle
• climate challenges
• environmental challenges
Vision for SFI MOVE
World Leading Centre for Marine Operations
Response-based criteria – from design to operations
Subsea Mining
Significant mineral
resources within
Norwegian zone of
interest
Exploration of
technology to enable
seabed mining
Focus: Research
Offshore wind
Fixed and floating
offshore wind projects –
Offshore Oil & Gas
All-year operations,
Installation, service and Safe operations and
maintenance methods Cost efficienct
operations
Focus: Innovation
Focus:
Industrialization
Virtual prototyping – from planning to execution