Emmo Safety Engineering As

EMMO Safety Engineering AS
services for
offshore and shipping actors
19. Januar 2010

Page 1/10 EMMO Safety Engineering AS

EMMO Safety Engineering AS capabilities: Offshore and shipping actors engagements:

1: Definitions of design and fabrication Construction
premises based on government and/or class development premises
regulations and project specific needs

2: Structural design/verification for misc. Global and detail design
vessel structures, offshore structures (jacket,
rig, semisubmersible, FPSO, windmills etc.)
and modules

3: Fabrication follow-on; services for Construction fabrication
evaluations for ”fit-for-purpose” or
modification/strengthening

4: Operation optimalisation; services for
evaluations for minimum in-service cost wrt Construction in-service
inspections and failure risk (RBI/RCM), ”fit-for- operation optimalisation
purpose” due to deviations or modification and
strengthening for upgrade of structure capacity


EMMO Safety Engineering AS engineering support capabilities :
Examples of areas covered by EMMO Safety Engineering:

1: Definitions of design and fabrication premises based on regulations and project experiences
a) Design Class and material selection
b) Welding selection
c) Tolerences for fabrication; general specification
d) Tolerences for fabrication; module connections towards vessel based on design for maximum mismatch allowances
e) Alternative tasks

2: Structural design/verification for vessel structure, topside modules and topside supports onto vessel
a) Global structural design for vessel based on DnV Ship Rule Design principles
b) Local structural FE/handcalc. design of topside module, crane structure, flare structure, etc
c) Local structural FE/handcalc. design of vessel structure at e.g. supports of modules, risers, crane, flare or mooring structure
d) Local structural FE/handcalc. design of support stools for topside modules
e) Interface and detail engineering of structures between vessel conversion and topsides, risers, mooring, flare etc.
f) Alternative tasks
3: Fabrication follow-on; services for evaluations for ”fit-for-purpose” or modification/strengthening
a) Mismatches in fabrication
b) Weld defect evaluations
c) Evaluations due to increased/changed load levels
d) Evaluations due to deviations in material quality

4: Operation optimalisation; services for evaluation of minimum in-service cost wrt inspections and failure risk
a) Cost-optimal solutions for modifications
b) Cost-optimal solutions for in-service inspection findings
c) Risk / Reliability (RCM / RBI) methods for cost-optimal inspection for structural / fatigue damages
d) Risk / Reliability (RCM / RBI) methods for cost-optimal inspection for corrosion damages


1: Definitions of design and fabrication premises based on regulations and project experiences

ULCC ship Deck footing Vessel
modification mismatch equipment/
requirements requirement mooring/riser
wrt fatigue support
and material requirements

Vessel plate thicknesses and corrosion protection requirements


2: Structural design/verification for vessel structure, topside modules and topside supports onto vessel

Topside
module
support
design

Topside module design

Moonpool egde
Longitudinal
bulkhead Duct’s in vessel
12000 off CL
acting as Curved transverse bulkhead
Longitudinal bulkhead 5250 off CL acting as support
support Cut-out in vessel support-box

3: Fabrication follow-on; services for evaluations for ”fit-for-purpose” or modification/strengthening

Mismatches in fabrication
Weld defect evaluations
Evaluations due to increased/changed load levels
Evaluations due to deviations in material quality


4: Operation optimalisation; services for evaluations for minimum in-service cost wrt inspections and failure risk

Material composition evaluation CTOD testing for brittle material control



Standard NDT performance - Class rule approach

PROBABILITY OF FAILUR PF
7
RELIABILITY INDEX βr

6
Required
5 minimum
safety level
4 = Reliability
10-4
3

2

1

0 0.5

0 10 20 30 40

1.st inspection
1. inspection 2.nd inspection
2. inspection 3.rd inspection
3. inspection 4. 4.th inspection
inspection
after 57 years
after years after 10 years
after 14 years after 15 years
after 28 years
E.g. case with E.g. case with E.g. case with E.g. case with
inspection inspection inspection inspection
extent 100%. extent 100%. extent 100%. extent 100%.

Page 8/10 In this case, the sum of inspection extent is 400%. EMMO Safety Engineering AS


Risk based NDT performance – Detailed fatigue and risk calculation approach (RCM)
RCM = Risk Centred Maintenance
RBI = Reliability Based Inspection
Approach for optimalisation of inspection extent:

7
RELIABILITY INDEX βr

6
Required
5 minimum
safety level
= Reliability
4 10-4
3

2

1

0 0.5

0 10 20 30 40
1.st inspection 2.nd inspection 3.rd inspection 4.th inspection
1. inspection
after 5 years 2. inspection
after 10 years 3. inspection
after 15 years 4. after 20 years
inspection
after 7 years after 14 years after 21 years after 28 years
E.g. case with E.g. case with E.g. case with E.g. case with
inspection inspection inspection inspection
extent 100%. extent 60%. extent 60%. extent 40%.

Page 9/10 In this case, the sum of inspection extent is 260%. EMMO Safety Engineering AS

Reliability based NDT performance – Detailed fatigue and risk calculation approach (RBI)
RCM = Risk Centred Maintenance
NDT (1) performance and RBI (2) updating
RBI = Reliability Based Inspection
Approach for optimalisation of inspection intervals:

RELIABILITY INDEX βr 7

6

5
Required
4 minimum
10-4 level
safety
= Reliability
3

2

1

0 0.5

0 10 20 30 40
25 year
1.st inspection 2.nd inspection
1.st inspection 2.nd inspection
E.g. case with E.g. case with
inspection inspection
extent 100%. extent 80%.
RBI approach
In this case, the sum of inspection extent is 180%.

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