Upload
others
View
3
Download
0
Embed Size (px)
Citation preview
New Technology for Next Generation Ships
Tom Boardley
Marine Director, Lloyd’s Register Marine
Our complex world: higher fuel oil prices
Seeking continuous profitable operations?
Operational and Exploitation profile into Design
0
10
20
30
40
50
13 15 17 18 19 20 22.5
Speed Profile (Knots)
Frequency %
0
10
20
30
40
50
60
13 13.5 14 14.5 15 15.5
Draught Profile (m)
Frequency %
Operational and Exploitation profile into Design
Pow
er
Speed
Hull3Hull1Hull2
GOAL: Higher speed operation: Hull 3 (8%)
GOAL: Low Speed Optimisation: Hull 2 (5%)
Old Design Point (25 knots)
0
10
20
30
40
50
13 15 17 18 19 20 22.5
Speed Profile (Knots)
Frequency %
What are your “sweet spots”?
0
5
10
15
20
25
30
35
40
45
50
13 15 17 18 19 20 22.5
Speed Profile (Knots)
Frequency %
At what Sea Margin?
22.5
Operational Expertise does make impact on design
Trade experience – main dimensions, draught condition frequency, speed frequency,…
Operational experience – routing, sea states, trim,…
Flexible operation over time – sea margin, routing,…for ROCE
Crew experience and performance 18
Design Optimization that works so far HULL FORM OPTIMIZATION FOR OPERATIONAL PROFILE
Pow
er
Speed
Hull3Hull1Hull2
Hull Form Optimization
Design Year
FOC Improvement
Result with CFD
FOC improvement
expected / confirmed in
Operation
ULCS 13k teu 2011 5 – 8% Not built
ULCS 14k teu 2012 Under study To be tested at
sea trials in 2014
ULCS 9k teu 2012 Under study To be tested at
sea trials in 2014
0
20
40
60
13 15 17 18 19 20 22.5
Speed Profile (Knots)
Frequency %
Design Optimization that works so far BULBOUS BOW OPTIMIZATION FOR OPERATIONAL PROFILE
“With fuel savings of up to 2% possible, removing the bulb is the way forward for Maersk Line”
Steffen Hartvig Nielsen, Head of Vessel Optimization at Maersk Maritime Technology
Marine Propulsion, February/March 2013
Design Optimization that works so far BULBOUS BOW OPTIMIZATION FOR OPERATIONAL PROFILE
Recent Lloyd’s Register study shows 3 tons of fuel savings per day may be possible for a feeder container ship
(*) CFD analysis not performed by LR
Design Optimization that works so far ENERGY SAVING DEVICES INTEGRATED WITH HULL AND PROPULSORS
Efficiency improving
duct Integrated Solution
Design Year
FOC Improvement Result with CFD
FOC improvement expected /
confirmed in Operation
Schneekluth Duct New Propeller Aft End Form
2010 4% 4% expected
VLCC: Mewis Duct Retrofit (2 sister designs)
2004 ? Improvement confirmed (*)
2004 ? No improvement (*)
LNG Ship: Vortex Generator
2008 1.1% Vibration solved
FOC not confirmed
Trim Optimization Studies are also performed at New Designs while at the Development Phase
Design Optimization that works so far TRIM OPTIMIZATION FOR NEW OPERATIONAL PROFILE
TRIM Optimization
Design Year
FOC maximum scope for
improvement based on CFD
FOC improvement expected /
confirmed in Operation
VLCC 2006 6% >1% confirmed
ULCS 2007 12.8% 1% - 2% confirmed
PCTC 2005 8% 1 - 2% confirmed
Bulk Carrier 2004 6.6% 1 – 2% expected
Tanker 2005 5.3% 1 – 2% expected
Design Optimization that works so far RUDDER / PROPELLER / AFT END INTERACTION
AFT END interaction
Design Year
FOC Improvement
Result with CFD
FOC improvement
expected / confirmed in
Operation
LNG Ship: New Propeller New Rudder New Bulb Aft End Shape
2010 -2011
2.2% Will be tested at sea trials in
2014
Design Optimization that works so far AERODYNAMIC HULL OPTIMIZATION
Aero Dynamic Optimization
Design Year
FOC Improvement
Result with CFD
FOC improvement
expected / confirmed in
Operation
Bulk Carrier Fairings, Fittings relocation
2010
Up to 2.5%
Against a constant
headwind of 22 knots
No operational
data available
Today’s and Tomorrow’s Innovation In Shipping: Market Trends 2013
Batteries
GAS (LNG, LPG, CNG)
2013 TREND – New Energy Mix and Alternative Fuels
Fuel Cells (i.e. Hydrogen)
Bio-Diesels
Synthetic Fuels: GTL, CTL, BTL,…
Oil-in-Water
Methanol
Nuclear
New Turbo Charger Technology
New Propulsion
Options
Wind Assisted
Air Bubbling
Embrace New Technology Options
Embrace New Technology Options
New Coatings
Stern fins
New Turbo Charger Technologies
Waste heat recovery for MMEE and AAEE
Seawater cooling pumps running routine
Etc,…
'Not surprising' for eco vessels to command premium 2nd September 2013 05:30 GMT Eco MR tankers commanding premium of $8,000 per day on trans-atlantic route Eco-type vessels that consume less bunkers allow owners to save on cosst without a sacrifice in operational integrity, says a Poten & Partners (P&P) report. The shipbroker says that a medium range (MR), 'eco' tanker is able to save 14.5 metric tonnes (mt) of fuel per day when travelling at 13.5 knots on a laden leg, compared to a standard MR vessel. This, and the lower consumption of fuel at other speeds, has resulted in an average earnings premium of $8,000 per day favouring the 'eco' MR tanker in the trans-Atlantic market.
ECOnomical $HIPs
• Customised &
Flexible Design
• Optimised for
Trading over time Old Standard
ECO SHIPS 2013
ECO + $HIP
Back to the Future of Design:
“turning the design clock back a few decades”
Tom Boardley Marine Director
Lloyd’s Register Group Ltd
71 Fenchurch Street
London EC3M 4BS
T +44 (0)20 7423 2625
W www.lr.org/marine
Lloyd’s Register is a trading name of the Lloyd’s Register Group of Entities.
Services are provided by members of the Lloyd’s Register Group.