thyssenkrupp Marine Systems – Operating Unit Submarines...
Transcript of thyssenkrupp Marine Systems – Operating Unit Submarines...
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1 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
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April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Technology Development - New Technologies
FICCI Conference, New Delhi
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3 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Content
1. Introduction
2. Li Ion Batteries
3. Fuel Cell Methanol Reformer System
4. IDAS
5. Hydrodynamics, propeller development
6. Acoustic Coating
7. UUV integration concepts
8. Summary
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4 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
thyssenkrupp – Organizational overview
1) Continuing operations (after reclassification of Steel Americas) before consolidation. 2) Adjusted before consolidation, after definition changes
thyssenkrupp Business Areas
Industrial Solutions
Components Technology
Materials Services
Steel Americas
Elevator Technology
Sales (€ mill) 6,753
EBIT2) (€ mill) 313
Employees 29,627
Sales (€ mill) 7,208
EBIT2) (€ mill) 794
Employees 51,335
Sales (€ mill) 6,256
EBIT2) (€ mill) 424
Employees 19,388
Sales (€ mill) 14,254
EBIT2) (€ mill) 206
Employees 20,.226
Steel Europe
Sales (€ mill) 8,697
EBIT2) (€ mill) 492
Employees 27,601
Sales (€ mill) 1,773
EBIT2) (€ mill) (138)
Employees 3,725
Key indicators – fiscal year 2014/20151)
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5 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
thyssenkrupp Marine Systems – Operating Units
Business Unit thyssenkrupp Marine Systems
Atlas Elektronik
Submarines Surface Vessels Services
Kiel Hamburg/Emden Kiel/Hamburg/Emden
Operating Units
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6 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Generic Tasks of Research and Development
Enhancement of Customer Value
Cost Reduction
Risk Reduction
Mid- and Long-Term Enhancement of Competitiveness
Technology Leadership
Cost Leadership
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7 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Scope of Research and Development Activities
R&D - Activi- ties
Products
Components and Systems
Processes and Tools
500010000
15000
200000.005
0.01
0.015
0.02
-15-10-50
500010000
15000
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8 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Research& Development Expenditure
25
4333
212216
1,8
33,2
3
6
6
24 3
2
FY 10/11 FY 11/12 FY 12/13 FY 14/15
50
2
18 3
40
FY 13/14
28
FY 15/16
2
OU Services
OU Surface Vessels
OU Submarines Mio. EUR
More than 160 R+D projects running at present time
24 3
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9 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Long Lasting Developments1
1 From start of development to delivery of first submarine with this technology
Weapon Section
Torpedo Counter Measures
ISUS 90 Family
PERMASYN® Motor
Fuel Cell System
IDAS
Lithium Battery System
Class 212
Class 214
1988 - 1994 1999 - 2005
1990 - 2005 1985 - 2005 1980 - 2005 1996 - 2003 -
1987 - 2005 1996 - 2007
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10 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Lithium Ion Batteries - Introduction and Motivation
▪ Extend time submerged ▪ Increase speed spectrum while submerged
– Complement to the AIP-System designed to fulfill low power requirements
▪ Decrease indiscretion rate – Improved charging and discharging characteristics
▪ Increase availability – Decrease maintenance requirements
▪ Decouple submarine performance from battery characteristics (as much as possible) – High speed independent from State of Charge (SoC)
▪ Extend life time.
To Improve Operational Value of the Submarine
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11 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Technical Concept How about Performance?
0
20
40
60
80
100
120
140
100 80 60 40 20 0 Speed percent
Range percent
Lead Acid 80%
LIB 93%
▪ Under low load conditions: 20% more capacity
▪ Under high load conditions: 200% more capacity
▪ Performance independent of SoC
▪ Available capacity is not degrading during mission and can be charged using charging stage 1 only (leading to reduced indiscretion rate)
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12 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Comparison of Charging Times
• Boundary Conditions
− Both batteries are discharged with the same charging power
− Both batteries are discharged the same time (same discharged energy)
− Both batteries are charged with the same max. charging power
− Lead Acid Battery: Charging Step 1 with max. power, charging step 2 with max Voltage and reduced current (= reduced charging power)
− Li Ion Battery: Only charged in charging step 1
− The charging time of the Li Ion battery is approx. 28% less than the charging time of the lead acid battery. This means improved Indiscretion Rate
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13 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Optimization of Transit SOA
• Lead Acid Battery
− Case (0): Optimized transit SOA for Indiscretion Rate
• Li-Ion Battery
− Case (1): Same speed combination as in case (0)
− Case (2): Same SOA as in case (0)
− Case (3): Same IR as in case (0)
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14 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Major Integration Aspects System Safety is Critical!
A damage and risk assessment lead to high safety integrity level (>= SIL4) requirement for the control electronics when NCA/NMC/NCO is used.
▪ There are intrinsically safe chemistries – LFP – Lithium-Iron-Phosphate.
▪ Overcharge ▪ Overload
▪ Overheat ▪ Mechanical Damage
▪ Internal Short
Risk
▪ Thermal Runaway and the chain reaction within the battery compartment ▪ High Energy Chemistries bear the risk of open fire in the battery compartment
– NCA – Nickel-Cobalt-Aluminum – NMC – Nickel-Manganese-Cobalt – NCO – Nickel-Cobalt-Oxide
Trigger
A manufacturer’s quality assurance issue with a remaining risk
To be handled by mechanical integration
To be handled by control electronics
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15 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Battery Development at thyssenkrupp Marine Systems
Decision
▪ Selection of well established cell manufacturer with system development competency
▪ Standard cell as core element
▪ Selection of LFP (blend) as the cell chemistry
▪ Focus on system integration as thyssenkrupp Marine Systems expertise.
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16 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Lithium-Ion Battery Integration into the Submarine
Cl. 214
Number of modules transversal 12
Number of modules longitudinal 2 x 16
Module voltage [V] 89 - 125
Energy per module [kWh] 38
Total number of modules 384
Number of modules per string 6
String voltage range [V] 535 - 752
Engine voltage range [V] 520 - 830
Number of strings 64
Total number of cells 101376
Energy [MWh] 14,5
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17 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Methanol Reformer – Why start the Development
Fuel cell with methanol reformer
Fuel cell with metal hydrides
Weight/Volume of energy storage and conversion
AIP energy to store
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18 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Power Supply
surface- / snorkel operation submerged operation
fuel oil
air
diesel generator battery propulsion
system &
hotel load
FC
reformer O2 H2
Source: Siemens, Gaia, MTU, Piller
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19 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Hydrogen Generation by Methanol Steam Reforming
▪ Simple alcohol CH3OH
▪ Lowest reforming temperatures of 250° - 300°C
▪ Cheap and easily available worldwide (like LOX)
▪ Methanol steam reforming is a proven technology in the process industry
CH3OH + H2O 3H2 + CO2
Best choice for hydrogen generation on submarines
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20 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Fuel Cell Methanol Reformer System
The Fuel Cell Methanol Reformer System (FCMRS) combines the advantage of the existing, proven Fuel Cell System with the advantage to utilize a liquid fuel with high energy density. A first demonstrator has been operated since the year 2000 The reformer prototype system has been set into operation in the test field at thyssenkrupp Marine Systems premises in Kiel in summer 2015. The system has already successfully produced ultra-pure hydrogen. Furthermore the Fuel Cell Modules have been operated on hydrogen produced by the reformer system.
Fuel Cell Modules Methanol Reformer
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21 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
IDAS at a Glance
• IDAS – Changing the paradigms of anti submarine warfare!
− Active self defence against airborne ASW for submerged submarines
− High precision through Human in the Loop Concept
− Coastal and small surface targets attack capability
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22 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Operational Concept
The IDAS Target Spectrum
Defensive Role Offensive Role
Weapon of choice for targets which are too fast or not accessible for a heavy weight torpedo, or for which a torpedo is over dimensioned
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23 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Technical Concept
• IDAS Submarine Integration
Operator controlled during the whole mission
Very easy integration, handling with existing equipment for standard heavy weight torpedoes
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24 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Technical Concept
• IDAS Launching Container System
− Four (4) missiles per launching container
− All launching subsystems in container (autonomy)
− Weight/ dimensions comparable to heavy weight torpedo, easy retrofit to all standard torpedo tubes
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25 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
• Main Technical Data
− Launching Mass: 138 kg
− Length: 2800 mm
− Diameter / Caliber: 180 / 240 mm
The IDAS Missile
− Mass of Warhead: 15-20 kg
− Range: approx. 20 km
− Cruising Speed: approx. 230 m/s
IIR Seeker & Guidance Section
Warhead Section
Rocket Motor & Wing Section
Sustainer Booster
Control Section
Bobbin System Section
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26 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Unmanned Underwater Vehicles on Submarine
• What is the original purpose of unmanned underwater vehicles?
• Normally
− AUVs bring sensors from the surface
− down in the ocean
− close to the targets
− away from disturbing noise and vibrations
• Submarines
− AUVs bring sensors from down into the ocean
− away from the submarine
− to areas of very shallow waters
− to the surface
− to areas with a high risk for Manned Underwater Vehicles.
Reference: Kongsberg Maritime AS
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27 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Tasks of UUVs Deployed by Submarines
− Rapid environmental assessment (REA)
− sonar images and conditions
− bathymetric data
− water current information
− mine reconnaissance
− pictures of underwater objects
− Preparation and assistance of landing activities
− actual situation assessment
− guidance of the combat diver teams
− visual escorting of landing forces on/offshore
− communication relay
Meanwhile the submarine could stay covert
Observing areas which were inaccessible for conventional submarines
In parallel while the submarine fulfils other tasks.
online data link to the submarine
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28 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Concept Idea – UUV Launch & Recovery System for Submarines
• Capable for retrofitting on existing HDW Class Submarines
− less conversion effort
− easy to handle and simple interfaces
− also for new submarine projects
• Minimized negative influence on the present submarine performance
− no additional signatures
− not visible if the submarine is surfaced
− no disturbing flow noise around stowage devices
− no further appendages
− no increased drag or manoeuvring limitations for the submarine
− no/minimal increased weight
Only two options for integration UUVs on submarines.
Weapon tubes
Upper deck inside casing
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29 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Launch & Recovery System for Weapon Tubes
− e.g. AUV DAVID made by Diehl BGT Defences
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30 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Launch & Recovery System for Weapon Tubes
− e.g. AUV DAVID made by Diehl BGT Defences
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31 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Launch & Recovery System for Weapon Tubes
− Horizontal movement in the weapon tube
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32 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Launch & Recovery System for Weapon Tubes
− Launching of the AUV
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33 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Launch & Recovery System for Weapon Tubes
− Recovery of the AUV
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34 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Launch & Recovery System for Weapon Tubes
− Retraction into the weapon tube.
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36 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
• Main dimension fit for weapon tube concept
− Modification for use inside weapon tubes
− Ruder dimensions
− Sail and com antenna
− Recovery hook
SeaCat MKI (ATLAS ELEKTRONIK)
Reference: ATLAS ELEKTRONIK
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37 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
• Experience with launch & recovery procedure
• Next practical trials focusing
− autonomous location
− reacting on movements of submarine
− data communication
• Interim launch & recovery device for SeaCat MKI
Continuation with SeaCat MKI
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38 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
• Autonomous locating…
• and docking of SeaCat MKI into interim launch & re- covery device
• …and launching
Latest Harbour Trials Summer 2015
Reference: thyssenKrupp Marine Systems & ATLAS ELEKTRONIK
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39 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Conclusion
• Reached Aims at launch & recovery
− Mechanical function demonstrated
− Drive in & out by AUV impellent
− Autonomous locating and manoeuvring to recovery device
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40 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Results and Next Steps
− Functionality of the weapon tube L&R device was demonstrated at harbour trails
− Modification on our launch & recovery system for trials inside a weapon tube
− Changeover to the SeaCat System from ATLAS ELEKTRONIK .
Reference: ATLAS ELEKTRONIK
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41 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Propeller Design: Inhomogeneous Inflow to the Propeller
Slow Boat speed
Simulations … … verified by model tests
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42 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Pre-swirl Rudder Front of the Propeller Behind the Propeller
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43 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Composite Propeller - Design Principle
Blades individually screwed to the hub for ease of individual replacement
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44 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Comparison of modal Loss Factors of different Propellers
0
1
2
3
4
5
6
7
11 9 10
Number of mode/ Eigenfrequencies
Loss factor percent
12 7 5 6 4 13 14 17 15 2 1 3 8 16
Sonoston
tkMS inhouse production
AIR modComp2
Loss Factors
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45 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
FRP Propeller
▪ Replaceable Blades
▪ Reduced Weight
▪ Improved Resilience
▪ Improved Shape and Manufacturing Precision
▪ Under Verification with German Navy
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46 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Acoustic Coating - Types
Transmission Loss Coating (TLC) (Minimized transmitted intensity):
Anechoic Coating (ANC) (Absorbing material):
Ii
Ir
It
Ii
Ir
It
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47 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Acoustic Coating
Shaping designed to achive low target echo strength values
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48 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Acoustic Coating - Detection Range: BeTSSi *) Comparison
*) Standard submarine for TES simulations
1 kHz
Sub Detection Area
BeTSSi 3910 km²
BeTSSi Coated 3111 km²
BeTSSi Shaped 1472 km²
Sub Detection Range
BeTSSi 121 km
BeTSSi Coated 88 km
BeTSSi Shaped 70 km
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49 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Some more Examples
▪ Electrical rudder actuator
▪ UUV integration
▪ TCM Systems
▪ …
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50 April 18./19.2016 | Andreas Grunicke thyssenkrupp Marine Systems – Operating Unit Submarines
Some more Examples
Research and Development within TKMS