First MaK M 43 C Low Emission Engine already
in operation
Hamburg, Germany - "Fure West" is no
cruise ship and it is also much smaller than the "Queen Mary 2". However, this
chemical tanker has one of the most advanced medium-speed marine engines available:
Its MaK 7 M 43 C Low Emission Engine (LEE) today already meets expected future
IMO emission regulations. That makes Fure West not only the first known vessel
afloat with an IMO II-compliant engine running on Heavy Fuel Oil (HFO), but
also a technological milestone for any future cruise or cargo vessel.
Chemical Tanker Fure West powered by MaK 7 M 43 C
Low Emission Engine
World's
first known IMO II-compliant medium-speed HFO-fuelled Marine Engine afloat
Furetank Rederi AB of Donsö, Sweden, operates five modern
product and chemical tankers on European shipping routes. Fure West and its
sister ship "Fure Nord" were delivered by Edward Shipbuilding Co Ltd in Shanghai,
P. R. China, in 2006 and 2004 respectively. With 144 metres length, 21 metres
beam and 9 metres draught, these 16,000 DWT tankers reach a top speed of 15.4
knots. Both vessels have to date relied on IMO-compliant MaK 7 M 43 C main
engines rated 6,180 kW at 500 rpm.
However, Furetank owner Lars Höglund places lot of value on environmental-friendly
operation and has always been interested in putting innovations into practise
as early as possible. "We have committed ourselves to being in the lead when
it comes to the preservation and protection of the environment!", he said.
A strategy for gradual emission reduction
Caterpillar®, for its part, has made sustainable development a bold target
of its "Vision 2020" strategy. Having monitored both the development of emission
regulations and customer expectations, the company believes that electronically
controlled engines will gradually become the norm. And, with its proprietary
simulation and analysis tools for engine combustion, its expertise in fuel
system manufacturing and its internal electronic control designs, Caterpillar
is well-prepared to set the standard for environmental-friendly diesel engines.
Strong evidence for this is provided by Caterpillar's ACERTTM
Technology, the product of a $ 500 million investment structured on the broadest
product, application and manufacturing base in the industry.
"The goal for MaK medium-speed marine engines was clearly defined", comments
Dr Udo Schlemmer-Kelling, Manager Research at Caterpillar Motoren in Kiel.
"Exceed customer expectations by minimising emissions while maximising product
value at the same time. Consequently, our strategy had to comply with the MaK
brand reputation: superior reliability in heavy fuel operation, best-in-class
fuel efficiency and outstanding durability!"
Back in 2000, Caterpillar Motoren identified three emission levels for the
MaK marine product in order to cope with short to midterm emission regulations.
These were a base line IMO engine, which fulfils MARPOL 73/78, Annex VI, an
IMO-compliant engine with invisible smoke emissions and a Low Emission Engine
(LEE) which meets the expected NOx emission range of IMO II and is also invisible
in smoke. In addition, this strategy favours inside-the-engine means because
of their clear advantage with respect to cost, complexity and maintenance.
LEE for low NOx
The key issue for low NOx emissions is to increase the compression ratio of
the base engine. Ten years ago, a compression ratio of 11-12 was standard,
for IMO I the ratio was raised to 14-15 and for IMO II ratios of 17 will be
needed. Another cornerstone of the MaK LEE concept is the Miller Cycle, i.e.
modification of the engine's valve timing to achieve cooler combustion. For
IMO I only a small Miller effect of 5% was utilised, however, IMO II requires
a Miller effect of 20%. This is a big challenge for the turbo charger, which
has to provide boost ratios of 5 in order to maintain today's Mean Effective
Pressure (BMEP) values.
By combining increased compression ratio and the Miller effect, NOx emissions
can be reduced by around 30% without sacrificing engine efficiency (BSFC).
However, such a simple LEE engine would suffer from poor load pick-up at idle
and visible soot emissions at part load. Because of this, the MaK LEE concept
uses a "flexible camshaft" to enable both low NOx emissions, excellent load
pick up and invisible soot at all loads.
FCT for low soot
Flexible Camshaft Technology (FCT) enables variation of the fuel system and
the air system at part load operation. By advancing the start of the fuel injection
and increasing injection pressure, combustion is improved and soot emissions
are reduced by 50%. Shifted inlet valve timing switches off the Miller Cycle
and contributes another 25% reduction in soot. Overall, MaK FCT reduces soot
emissions at part load by 75% while improving engine performance at transient
operation.
The system essentially consists of a modified lower valve train, a pneumatic
adjusting unit and a Programmable Logic Controller (PLC). FCT is a robust mechanical
solution, based on an eccentric lifter lever shaft automatically influencing
both injection timing, pressure and valve timing. The engine load required
to activate the lever can be flexibly set according to the vessel operator's
needs. Either way, visible smoke is eliminated while IMO standards are complied
with at all loads. To date, about 80 MaK M 32 C and M 43 C engines equipped
with FCT have been sold.
Retrofitting to MaK LEE standard is quick and easy
After comprehensive simulation and prototyping of the MaK LEE technology in
2001-2003 along with some final adjustments and improvements, Caterpillar Motoren,
together with Caterpillar Marine Power Systems, was more than willing to put
its unique technology to the test. In cooperation with Furetank Rederi, a timetable
was agreed to convert the existing MaK 7 M 43 C on Fure West to LEE standard.
During a scheduled vessel stopover in the port of Rostock, Germany, in October
2007, a service crew from Pon Power A/S, Caterpillar's MaK dealer for Scandinavia,
supported by engineers from Caterpillar Motoren facilities in Kiel and Rostock,
completed retrofitting, including Marine Classification Society (MCS) approval,
in just four days.
Inside this tight time-frame, the team reworked connecting rods, camshaft segments
and lower valve trains to cope with advanced LEE requirements. First, a conrod
spacer was mounted to lengthen the split-shaft connecting rod, thus reducing
combustion volume and increasing compression ratio. As a result, the anti-wear
ring needed replacing with a shorter version.
In a second step, the camshaft segments were replaced with modified FCT versions,
enabling load-dependent variation of the fuel and air system. Lower valve trains,
injection pumps and injection nozzles were exchanged accordingly. In addition,
specialists from ABB rebuilt the turbocharger for increased loading pressure,
replacing the diffusor and nozzle ring. Sea trials with Fure West confirmed
the quality of this retrofit as did the final approval given by Germanischer
Lloyd.
FCT Pneumatic
Adjusting Unit for
MaK LEE Marine Engine
FCT Unit
mounted to MaK LEE Marine Engine
FCT Camshaft
and Lower Valve Train for
MaK LEE Marine Engine
A win-win situation for operators
and the environment
Similar to the retrofitting of Fure West, all existing MaK M 20 C, M 25 C,
M 32 C and M 43 C series marine engines afloat can be converted to MaK LEE
standard - at about only 15-25% of the cost of a new IMO II-compliant engine.
Building upon proven technology residing inside the engine, MaK LEE bears many
advantages for vessel owners and operators.
MaK LEE today already provides a power plant complying with expected future
IMO emission regulations. This allows shipping companies to increase their
reputation for environmentalfriendly marine business operations. In addition,
the emission levels achieved with MaK LEE enable shipping companies to obtain
special environmental classes with Marine Classification Societies, such as
DNV Clean Design, GL Green Passport, LR Character N or the German Government's
Blauer Engel. These environmental classes not only add to the vessel owner's
image but also reduce harbour fees in some parts of the world.
Fure West -
Retrofitting MaK 7 M 43 C Marine Engine
IMO II not a threat anymore
The MaK 7 M 43 C Low Emission Engine has been operating aboard Fure West since
October 2007 and has exceeded both the expectations of owner Furetank and Team
Caterpillar. The world's first known IMO II-compliant medium-speed HFO-fuelled
marine engine afloat, it runs as quietly and reliably as its thousands of MaK
predecessors. The big difference, however, is that emissions have been significantly
reduced compared with current standard IMO I-compliant marine engines.
"With NOx emissions down to 8.3 g/kWh, or 36% below current IMO regulations,
and soot emissions reduced to less than 0.5 FSN (Filter Smoke Number) over
the whole load range, our MaK LEE technology clearly deserves the name Low
Emission Engine", says Schlemmer- Kelling, highlighting the results of final
sea trials with Fure West, achieved with low NOx trim of the FCT system and
determined under ISO E2 cycle conditions. "These achievements also guarantee
the future of the MaK long-stroke marine engine design. I am very confident
that our technology approach, together with Caterpillar Motoren's in-house
engineering expertise, will also find appropriate ways to cope with even more-stringent
potential IMO III regulations."
Speaking from the owner's perspective, Höglund
notes, "For many years we have trusted the performance and reliability of MaK
marine engines. We also have appreciated the excellent service of Pon Power,
our local Cat® and MaK dealer. In selecting MaK LEE technology for our most-modern
tanker, we were convinced this would provide ideal support for our ambitious
environmental goals while maintaining the proven durability of the MaK product.
And after six months and some 2,500 hours of unrestricted operation, we are
more than happy with the results achieved."
In the next months, more MaK Low Emission Engines will be delivered to customers.
Pon Power
Service Team arrives at Rostock port
Among them are two ship sets comprising 3x 12 M 43 C
and 3x 16 M 43 C each for Norwegian Cruise Line's "F3" newbuildings under construction
at Aker Yards in France. These engines will get a customer-specific rating
of 950 kW per cylinder, enabling DNV Clean Design compliance and a fuel consumption
of 176 g/kWh - which is actually one gram under the 1,000 kW per cylinder IMO
I rating of the M 43 C.
By 2010, about half of all MaK M 20 C, M 25 C, M 32 C and M 43 C marine engines
built will be of LEE design. Eventually, and once IMO II emission regulations
take effect, every mediumspeed marine engine produced at Caterpillar Motoren
facilities in Kiel, Rostock or Guangdong in the P. R. China will be a state-of-the-art
MaK Low Emission Engine.
