Beyond SEEMP
Konstantinos S. Lourandos Springfield Shipping Co. Panama SA
Key Points? New challenges for Shipping Industry Beyond SEEMP- Managing Energy Is there space for improvement? Off the self solutions –Does it worth it? Monitoring and Reporting
Challenges for Shipping Ind. We have to operate more efficiently/economically
during this global financial crisis. Adaptation is the key point for surviving.
Volatile Marine Fuel Market.
We have to comply with international regulations for reducing the energy footprint of our activities for the protection of the environment (1 January 2013).
“Green” ships can be used worldwide without restrictions- Commercial Advantage
CO2 Emissions from International Shipping
90% of the world’s trade is carried by sea
2.7% is the proportion of global green house gases
caused by the international shipping.
According to an IMO Greenhouse Gas survey
conducted in 2007 with updates in 2008 and 2009,
CO2 emissions from shipping in a “business as
usual” scenario will increase from the current level
of 1.12 billion tons to 1.475 billion tons in 2020.
Global Warming
Do you want to take the chance?
IMO Strategy CO2 Emission Mitigation (Marpol Anex VI)
CO2 emission mitigation
Operational Measures SEEMP
Market Based Measures
(economic incentive)
Technical Measures EEDI
SEEMP
The Ship Energy Efficiency Management Plan (SEEMP)
incorporates best practices for the fuel efficient operation of
ships, such as better speed management throughout a ships
voyage, for example. Such efficiency measures will significantly
reduce fuel consumption and, consequently, CO2 emissions.
Examine Data and identify operating procedures and
practices that can be performed more efficiently.
Beyond SEEMP!!! Are we operating efficiently enough? Is there space for improvement ? Yes, because the term energy efficiency
was so far a “neglected” term .
Energy Losses
Energy Losses (Tanker )
52% 16%
32% EngineLosses
PropellerLosses
Hull Losses
Before investing.. There are many off-the-self solutions and innovative ideas in the
market.(jungle market)
We have to promote an energy saving culture on board.
We have to make sure that we are using the already installed
technology to its full potential.
When selecting one of the off-the-self solutions we have to take
into account the capital investment and the payback period.
We don’t want to put additional load on the shoulders of crew.
Minimizing Energy Losses Reduce the hull resistance Improve the propulsion efficiency Improve the power plant efficiency Improve the operational efficiency
Minimizing Energy Losses by operating more efficiently!! Auto Pilot Upgrade.
Inverters for Engine Room Fans
Inverters for Cooling Sea Water Systems
Steering Gear Motors !!!
Propulsion Efficiency
Optimizing Trim
Slow Steaming.
Efficient use of Auto Pilot Automatic ship-course keeping, requires more or less
frequent changes in rudder position to account for
wind, currents and ship yawing.
Advanced adaptive control techniques can reduce the
overall course changes, unnecessary rudder movement
(that increase vessel's drag) and reduce the overall
travel distance. As a result the corresponding fuel
consumption is reduced.
Fuel Saving = Minimize unnecessary rudder movements.
Existing Auto Pilot Systems the dynamic model of the ship should
be updated from time to time by performing a zigzag test
Consequence : Auto Pilot is not operating with the optimum
parameters
Solution: Upgrade the Auto Pilot so that the dynamic model of the
vessel is automatically updated.
Fuel Saving 1.12%, Capital Investment 11.000 USD
Before After
Engine Room Fans Ship’s fan applications are typically over-dimensioned to the actual
need in order to meet vessel’s extreme operating conditions.
Installation of inverter drive units for the engine room ventilation fans in order to control the engine room ambient pressure and temperature.
This solution will reduce the energy consumption and green house gas emissions.
By equipping fan applications with frequency converters to control the fan speed based on the actual air flow demand, energy can be saved significantly.
Affinity Law Part 3 says: "Power is proportional to the cube of the shaft speed" This means that as the speed is reduced the power needed to drive the motor is reduce at three times the rate of the speed reduction (1% reduction in speed = 3% reduction in power consumed)
Engine Room Fans We are expecting to save : Energy saving 40% 60 tons of fuel CO2 reduction 177 tons Payback period: less than a year
Engine Room Cooling SW Systems Under investigation. Potential Savings from a single Cooling
S.W Pump 90 KW, 30.000 US$ per year, 120 tons of CO2.
What is the most obvious measure for saving energy?
Steering Gear Motors
The steering gear systems incorporate two asynchronous
electrical motors of quite significant capacity. We are
investigating whether or not it is feasible to reduce the
operating hours of the motors, which in turn would lead to
significant fuel consumption.
When vessel is at birth or in anchorage, at least one motor is
continuously running. The reason for this is to avoid the turning
of the rudder!!!
Potential Savings from the efficient use of S.G Motors
USD 0 USD 10000 USD 20000 USD 30000 USD 40000 USD 50000 USD 60000
VLCC H
VLCC L
VLCC L
AFR 1
AFR 2
theoretical min
theoretical max saving 95 days
Theoretical savings from efficient use of SG Motors
0
10
20
30
40
50
60
70
VLCC H VLCC L VLCC L AFR 1 AFR 2
Yearly Fuel Savings tons
Yearly Fuel Savings tons
Propulsion Efficiency 5% Percent Energy Saving
Propulsion Efficiency
In the market there are many wake modification systems which promise to increase the propeller efficiency and reduce propeller’s vibration and cavitation.
Energy Savings 2%-5% Cons: Quite expensive solution.
Propeller Boss Cap Fins
Fins
Becker Duct
Optimizing Trim By design a Ship is typically optimized for
a specific operating speed and draft which may not always be the case. At other combinations of draft and speed the trim can often be adjusted to reduce wave resistance and the fuel consumption.
So far… There are no magical solutions.. Our target is to improve the energy efficiency
of every possible operating procedure/practice. We must not leave any stone unturned.
Steering gear example showed us the necessity for promoting an energy saving culture on board.
If we add the individual savings the total fuel saving will be significant (cumulative benefit?)
Aframax
Auto Pilot $74.040
Engine Room Fans $45.000
C.S. Pumps $58.000
S.G Motors $15.000
Total $192.040
Food for thought!! How accurately can we measure fuel
saving percentage? Against which benchmark?
SEEMP SEEMP is the first step towards an integrated
energy efficiency system that will incorporate
optimized techniques and procedures for
managing, monitoring and reporting with
respect to energy efficiency thus fuel saving,
thus greener ships.
What will the future bring? The European Commission has signaled its intention to introduce a
monitoring and reporting system to tackle emissions from shipping
vessels in the EU.
The statement says: “Shipping is a global industry and needs global
solutions to address its environmental footprint. As a result, we are
all working towards an internationally agreed global solution to
decrease greenhouse gas emissions from ships.”
We believe the optimum system would be based on real-time,
automated and high-frequency data collection and monitoring
throughout the service life of the vessel allowing transparent and
independent access by all stakeholders to hull performance data.”
Better Monitoring Systems..
Engine Room: the philosophy of the architecture of the existing
engine room alarm and monitoring systems is mainly focused
on safety (alarming).
In the future we will see energy managing software that will
advise chief engineer to switch off unnecessary aux.
machinery, depending on the operation of the vessel ( load
analysis table).
Emission monitoring software, engine efficiency software.
Wheel house: navigation data, meteorological info ( wind,
waves etc)
Need for speed…
All this data that is already available on board will have to be transported ashore to the head office, charterers or to port authorities at high speeds.
The need for real time monitoring of
critical parameters for the energy saving will become more and more demanding.
Conclusion Energy Efficiency is no longer an aim
for the future, it is the demand of the present.
Questions ?
Thanks for your attention