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StaVerDat
Inf
Fibr
WireCo
tus: rsion: te:
nfrastruc
re Rop
o WorldG
Mari
Draft 01 15‐Dec‐20
Infra
cture: U
pes forE
Group (LaTecno
ine Rene
014
EC
astructu
NEXE So
User‐Pro
r TautEnergy
ankhorstológico d
ewables
C FP7 “CapaResearch
ure Acc
outh W
oject: Fib
t Mooy Conv
t‐Euronetde Comp
s Infra
cities” Spech Infrastruct
cess Re
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breTaut 1
ring Liverter
te Portugonentes
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eport
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ure Net
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BOUTMRINET (Marinesearch centrgy ‐ wave, truns for fou
oss 11 EU cou
RINET offersmpanies and wave energyas such as polable to an eear initiative.
RINET partnelopment prous facilitiesrder to facilit
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s periods ofresearch groy, tidal energower take‐ofestimated 30.
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f free‐of‐chaoups can avagy, offshore‐ff systems, g00 projects a
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ork, HMRC (UCC_Coor
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versity of Exeter (
nergy Centre Ltd.
rathclyde (UNI_S
ity of Edinburgh (
University Belfas
Plymouth Univers
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B1‐Tech (1
01, 15‐Dec‐Page 2 of 22
ork for emeing togetheris funded th29 partners tion Partner C
to test facansnational Agy and enviroion, materiarnal users, w
nt common ove testing ce personnel change.
ities of test ble energy. S
Ireland _HMRC) rdinator
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enmark et (AAU)
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ingdom NAREC)
UNEXE)
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st (QUB)
sity(PU)
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ndation CNALIA)
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rging Energy to acceleratrough the ECwith 42 specCountry (Bra
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UseAuth
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01
02
OCUMEe
ribution
ument Refer
r‐Group Leadhor
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astructure A
astructure MMain Contac
VISIONH. Date
15/12/20
18/12/20
ENTINF
rence
der, Lead
mbers, uthors
Accessed:
Manager ct)
HISTORY
014
014
FORMAFibre Ropes
Public
MARINET‐TA
Jeroen DoreJeroenDoren
Jose CanedoAlberto LeaoRaúl RodríguÁlvaro RodríVerónica GleLars JohanniPhilipp ThiesDavid ParishSam Weller
UNEXE Sout
Lars Johanin
Description
First Draft
Final Report
Rev.
ATIONfor Taut Mo
A1‐FibreTaut
enbusch nbusch@wir
o o uez Arias Cíguez Ruiz Cez. De LenaCing Us Uh U
U
h West Moo
ng
Ro
Ro
01, 15‐Dec‐Page 3 of 22
ooring Lines f
t 1
WireCo Wrecoworldgro
Lankhorst‐EuLankhorst‐EuCentro TecnoCentro TecnoCentro TecnoUniversity ofUniversity ofUniversity ofUniversity of
oring Test Fac
Prepared
Raúl Rodríodríguez and
De
Raúl Rodríodríguez and
De
Infras
‐2014 2
for Marine E
WorldGroupoup.com
uronete Porturonete Portológico de Coológico de Coológico de Cof Exeter (UoEf Exeter (UoEf Exeter (UoEf Exeter (UoE
cility
by (Name)
guez, Álvarod Verónica GLena
guez, Álvarod Verónica GLena
tructure Acc
nergy Conve
tugaltugalomponentesomponentesomponentesE) E) E) E)
ApInf
lez.
lez.
La
cess Report:
erters
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pproved By frastructure Manager
rs Johaning
FibreTau
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us inal)
t
l
ABOneis thgenestateconf The thro
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LEGThe Comdatafor lthis purpmem
BOUTTHIe of the requhat the usererated undee that dissfidentiality o
aim of this rough this MA
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provide
provide
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avoid p
provide
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KNOWLEwork descrastructure Ac
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mmission is na from sourcloss or damadocument ispose. The umber of th
ISREPORirements of r group musr the projectemination aobligations an
report is theARINET infras
ss the state‐o
se resulting p
e evidence of
e due diligenc
essons learne
otential futu
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the user go may choosceptable and
DGEMENTribed in this ction under t
CLAIMERessed, and renot liable forces external tage suffered s provided “user thereofhe MARINET
RTthe EC in enst be entitlet in order to activities shnd the legitim
erefore to mestructure acc
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esponsibility r any use thato the MARIby any thirdas is” and nof uses the inT Consortiu
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abling a userd to dissemprogress thehall be commate interes
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for potential
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01, 15‐Dec‐Page 4 of 22
r group to beminate the foe state‐of‐thmpatible witsts of the ow
requiremenin an accessi
chnology/ind
he Structured
future inves
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tect some o normalised nd requirem
ed support fecific Program
ent of this pade of the inConsortiumresult of error warrantyat its sole rle for any
Infras
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enefit from foreground (ie‐art of the sth the protwner(s) of the
t of publicly ble format in
dustry
d Developme
stment and f
of this infor(non‐dimen
ment outlined
from MARINmme.
publication, linformation c. Members rors or inaccy is given tharisk and neituse that
tructure Acc
free‐of‐chargnformation sector. Notwtection of ie foreground
disseminatin order to:
ent Plan
financing
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NET, a Europ
ie solely withcontained heof the Consouracies in suat the informther the Eurmay be m
cess Report:
ge access to and resultswithstandingintellectual d.
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ch they deeat or withho
pean Comm
h the authorerein. This wortium do nouch data. Thmation is fit fropean Commade of t
FibreTau
an infrastruc) that they g this, the ECproperty ri
wledge gener
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unity ‐ Rese
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cture have C also ghts,
rated
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earch
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EX Oneweigprob(see
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As wperf The extepros
XECUTI
e immediate ght problemblems of usine Figure 1).
o, compared erial properuirements. Sbuilt into rop
with any neformance req
testing infraensive testingspective inno
VESUM
challenge fs of mooringng steel lines
to steel, thrties. A synteveral matepes using a nu
ew applicatioquirements.
astructures ag of mooringovative fibre
MMARY
for the Marig lines in dees in deep wa
here are a lathetic rope rials have poumber of co
on, research
at the Univeg lines in seae rope moo
Rev.
Y
ne Renewabep water (>7ater offshore
Figure 1: Tau
arge numbercan therefootential for mnstructions,
Figure 2: Diff
h must be c
rsity of Exet water. Its tering line is
01, 15‐Dec‐Page 5 of 22
ble Energy C75m). Synthee oil and gas
ut mooring co
r of synthetiore be desimooring linesome of wh
ferent yarn co
conducted t
er (UoE) areesting infrastbest suited
Infras
‐2014 2
Converters (etic fibre ropinstallations
onfiguration.
ic fibre mategned to have applicationich are suite
onfigurations
to determine
e unique in ttructure will for deep w
tructure Acc
MRECs) indupes already os as they hav
erial composve propertie. Yarns of thd to particul
.
e how well
he MARINEThelp the con
water MECs.
cess Report:
ustry is solvoffer a solutive a very low
sitions with es that mathese synthetar fibres (see
the fibre r
T consortiumnsortium to Also, the te
FibreTau
ing the coston to the we
w weight in w
a wide rangtch the mootic materials e Figure 2).
ropes satisfy
m, as it allowdetermine wechnological
ut 1
t and eight water
ge of oring may
y the
ws for which and
sciefacil The Tecnobtasea
ntific suppoities.
present stunológico de aining knowlconditions.
rt offered b
dy of internComponentledge of the
by the well e
ational parttes ‐ CTC (S applicability
Rev.
experienced
ners, WireCopain), and Uy of fibre ro
01, 15‐Dec‐Page 6 of 22
staff is ano
o WorldGrouUniversity ofopes in Marin
Infras
‐2014 2
other reason
up (Lankhorsf Exeter ‐ Une Energy Co
tructure Acc
n to propose
st‐Euronete oE (UK) as onverters (M
cess Report:
e the acces
Portugal), Ffacility provMEC), both i
FibreTau
s to this kin
undación Cevider, focusen laboratory
ut 1
nd of
entro es on y and
CO
1
2
3
4
5
ONTENT
INTRODUCT
1.1 INTRO1.2 DEVEL1.2.1 Sta1.2.2 Pla
OUTLINE O
2.1 SETUP2.1.1 Pre2.1.2 Pre2.2 TESTS2.2.1 Tes2.3 RESUL2.4 ANALY
MAIN LEAR
3.1 PROG3.1.1 Pro3.1.2 Pro3.2 KEY LE
FURTHER IN
4.1 SCIEN4.2 WEBS
APPENDICE
5.1 STAGE
TS
TION & BAC
ODUCTION ......LOPMENT SO Fage Gate Proan For This A
F WORK CAR
P ...................eliminary woeparation of S ...................st Plan .........LTS ................YSIS & CONCLU
RNING OUTC
RESS MADE ...ogress Madeogress MadeESSONS LEARN
NFORMATIO
TIFIC PUBLICATSITE & SOCIAL
ES ................
E DEVELOPMEN
KGROUND .
....................FAR ...............ogress ..........ccess ...........
RRIED OUT .
....................ork to deployf the test sam............................................................USIONS ..........
COMES ........
....................e: For This Use: For MarineNED ...............
ON ...............
TIONS ...........MEDIA ..........
..................
NT SUMMARY T
Rev.
...................
....................
....................
....................
....................
...................
....................yment ...........mples (fabrica................................................................................
...................
....................ser‐Group or e Renewable....................
...................
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....................
...................
TABLE ...........
01, 15‐Dec‐Page 7 of 22
...................
....................
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....................
....................
...................
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Infras
‐2014 2
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....................ests set‐up ...................................................................................
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tructure Acc
...................
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...................
....................
....................
...................
....................
cess Report:
...................
....................
............................................................
...................
............................................................................................................................................
...................
................................................................................
...................
....................
....................
...................
....................
FibreTau
...................
....................
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....................
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....................
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....................
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....................
....................
....................
....................
...................
....................
....................
...................
....................
ut 1
..... 8
...... 8
...... 8
..... 8
... 10
... 11
.... 11
... 11
... 13
.... 16
... 16
.... 16
.... 17
... 18
.... 18
... 19
... 19
.... 19
... 19
.... 19
.... 20
... 20
.... 20
1
1.1The and the projwas labo PropProp The of th To a
ThisSWM
1.2
1.2
STA
Stag
LinFinHuRePrtuni
Inv
INTRO
1 INTRODcompany WdistributionFundación Cect FIBRETAto obtain kn
oratory and s
posal #182 (Fposal #219 (F
overall ideahe buoy of th
achieve this,
- Performcontrol e
- Determiloads.
- Developcharacte
- Validate- Verify th- In the l
applicathelp adv
- Contribuenvironm
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report sumMTF.
2 DEVELO
2.1 Stage
GE GATE CR
ge 1 – Conce
near monoch
nite monoch
ull(s) sea wor
estricted deg
ovide the emng)
vestigate ph
ODUCTI
DUCTIONWireCo Worldn of steel cabCentro TecnAUT (Fibre Ronowledge ofsea condition
FibreTaut1): FibreTaut2):
a was to acquhe SWMTF a
several proje
m tests of thenvironmentine strength
p a base lineristics. e the model whe applicabilong‐term, itions for the vance the Mution to the ment test. on of comm
mmarises the
OPMENT
GatePro
ITERIA
pt Validatio
hromatic wav
romatic wav
rthiness in re
grees of freed
mpirical hydr
hysical proce
ION&B
dGroup (Lankbles, synthetnológico de opes for Tauf the applicans. For this re
UNEXE SoutUNEXE Dyna
uire real loand replicate
ect developm
e fibre ropet at the labolimits and t
e numerica
with real datity of fibre rot is expecteemerging MREC industryimprovemen
unication an
e research a
SOFAR
ogress
n
ves to valida
ves to include
eal seas (scal
dom (DofF) i
rodynamic co
ess governin
Rev.
BACKGR
khorst‐Eurontic rope cabComponentet Mooring Libility of fibreeason, the fo
th West Mooamic Marine
d time seriesimilar load
ment objecti
es in two enratory. the stiffness
l model of
ta: meta‐oceopes for mared to develoMREC industry further intont of the cor
nd dissemina
activities dev
ate or calibra
e higher ord
led duration
f required by
o‐efficient as
ng device r
01, 15‐Dec‐Page 8 of 22
ROUND
nete Portugables, cable ases (CTC) havines for Mare ropes in Mollowing two
oring Test Fae Component
s measured s at differen
ves are desc
nvironments,
and dampin
the moorin
ean conditionrine energy cop cost‐effery. This woulo the deeperrrelation bet
ation of findi
veloped with
ate numerica
er effects (2
at 3 hours)
y the early m
ssociated wi
esponse. M
Infras
‐2014 2
D
al), a world lssemblies, ave received rine Energy CMarine Renewo different pr
cility (SWMTt Test Facility
from load ct rates at DM
cribed below
, one in rea
ng propertie
ng system a
ns and measuconverter apctive fibre rd provide a r and more etween accele
ngs among E
hin the prop
al models of t
5 –100 wave
mathematica
th the devic
ay not be
tructure Acc
eader in thend electromsupport froConverters). wable Energyroposals wer
TF). y (DMaC).
ells implemeMaC to comp
.
l open wate
s of fibre ro
nd rope be
ured loads atpplications. rope taut mnew marketnergetic waverated labor
European cen
posal #182 (
the system (
es)
l models
e (for mathe
well defined
cess Report:
e manufactumechanical caom MARINETThe objectivy Convertersre presented
ented in thepare the fatig
er condition
opes with cy
haviour bas
t sea.
mooring linest for rope mave environmratory tests a
ntres and co
(FibreTaut1)
PreviouslPlanned f
25 – 100 wa
ematical mod
d theoretica
FibreTau
ring, engineeables, along T to developve of this prs (MREC), bod:
mooring sysgue damage.
s and other
cling at diffe
sed on the
s in deep wanufacturers
ments. and real offs
mpanies.
, concerning
y completedor this proje
Sta
ves)
delling
ally or
ut 1
ering with p the oject oth in
stem .
in a
erent
rope
water s and
shore
g the
d: ect:
tus
STA
num
ReIniShsign
EvIni
Stag
AcPeSuAcDeMo
DaEnSitOv
Stag
ToToTocorr
ToToMa
Pr
Stag
HuMo
PTCoEleApPrSeAc
Stag
EcMDePoEn
GE GATE CR
merically solv
eal seaway p
itially 2‐D (flu
ort crested ificantly affe
vidence of th
itial indicatio
ge 2 – Design
ccurately sim
erformance in
rvival loadin
ctive dampin
evice design
ooring arran
ata for propo
ngineering De
te Review fo
ver topping r
ge 3 – Sub‐Sy
o investigate
o employ a re
o qualify envrosion, winda
o validate ele
o quantify su
anufacturing
oject plannin
ge 4 – Solo D
ull seaworthi
ooring and c
TO performan
omponent an
ectricity supp
pplication in
oject manag
rvice, mainte
ccepted EIA
ge 5 – Multi‐
onomic Feas
ultiple units
evice array in
ower supply i
nvironmenta
ITERIA
vable
roductivity (
ume) test pr
seas need oected by them
e device sea
on of the full
n Validation
mulated PTO
n real seawa
ng and extrem
g control (m
changes and
ngements an
osed PTO des
esign (Protot
r Stage 3 and
rates
ystems Valid
physical pro
ealistic/actua
ironmental fage and curr
ectrical suppl
rvival condit
g, deploymen
ng and mana
Device Valida
iness and sur
cable connec
nce and relia
nd assembly
ply quality (a
local wave c
gement, man
enance and
Device Dem
sibility/Profit
performanc
nteractions
interaction &
l impact issu
scaled durat
ogramme
nly be run am
worthiness
system load
characteristi
ays (long and
me motion b
may be deferr
d modificatio
d effects on
sign and ben
type), feasib
d Stage 4 de
dation
operties not w
al PTO and g
factors (i.e. tent drag
ly quality and
tions, moorin
nt, recovery
agement, inc
ation
rvival strateg
ction issues,
ability
longevity
absorbed/pn
climate cond
nufacturing, d
operational
monstration
tability
e
& quality
es
Rev.
tion at 20‐30
t this early s
d regimes
ics
d short creste
behaviour.
red to Stage
ons
motion
nch testing (S
ility and cost
ployments
well scaled &
enerating sy
the device on
d power elec
ng behaviour
and O&M (c
cluding licens
gies
including fai
eumatic pow
itions
deployment,
experience [
01, 15‐Dec‐Page 9 of 22
0 minutes)
stage if the d
ed)
3)
Stage 3)
ting
& validate pe
ystem & deve
n the enviro
ctronic requi
r and hull sea
component r
sing, certifica
lure modes
wer‐converte
, recovery, e
[O&M]
Infras
‐2014 2
devices antic
erformance f
elop control
nment and v
irements.
aworthiness
reliability)
ation, insura
ed/electrical
tc
tructure Acc
cipated perfo
figures
strategies
vice versa) e
nce etc.
power)
cess Report:
ormance wo
.g. marine g
FibreTau
Sta
uld be
rowth,
ut 1
tus
STA
FuCo
1.2The The for tropedeveThe finaFinadisse Acco
For been‐ KP
‐ KP
GE GATE CR
ll technical a
ompliance of
2.2 PlanFcomplete prPhase 1 is dthe South We propertieselopment of Phase 2 willly testing at lly, during emination ac
ording to the
the developn considered1: Definition
2: Tests at th
ITERIA
and econom
f all operatio
ForThisAroject was pldevoted to tWest Moorings in terms othe numericl be devoted sea in the SWfour monthctivities are o
e above, the
PHASE 1.
Task 1
Task 2
Task 3
PHASE 2.
Task 4
Task 5
Task 6
PHASE 3.
Task 7
Task 8
pment of thed: n of the base
Figur
he SWMTF a
ic due diligen
ns with exist
Accesslanned to behe specificatg Test Facilitof breaking cal model ford to the preWMTF. hs, the corongoing.
tasks for thi
Specificatio
T1. Specifica
T2. Definitio
T3. Modellin
Developme
T4. Preparat
T5. Tests at
T6. Accelera
Analysis, co
T7. Analysis
T8. Dissemin
e tests plans
line load cas
re 3: Example
nd collection
Rev.P
nce
ting legal req
e developed otion of the mty (SWMTF) load, stiffn
r the base linparation and
responding
s project are
ns and mode
ation of the m
on of the rop
ng activities (
nt of the tes
tion of the te
SWMTF
ted test at D
nclusions an
of the tests,
nation activit
Table 1:
within the p
ses and the n
of a numeric
n of the data
01, 15‐Dec‐Page 10 of 2
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Inffrastructure Accesss Report: FibreeTaut 1
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