View
3
Download
0
Category
Preview:
Citation preview
IMC
IMCIMC Co., Ltd.
Oct.2021
Support Services for EEXI Certificate
Copyright 2021 IMC Co., Ltd. All Right Reserved
IMC
IMCIMC Contents
Copyright 2021 IMC Co., Ltd. All Right Reserved
1. Outlines of the EEXI regulation
2. EEXI support services by IMC
3. Cases study of improvement of EEXI by EPL and Energy Saving Device
4. Example of EEXI Technical File
2~7
8~9
10~14
15
Page
1
IMC
2
1. Outlines of the EEXI regulation
Source : Outlines of EEXI regulation in 2021, Class NK
IMC
3
1. Outlines of the EEXI regulation
Source : Outlines of EEXI regulation in 2021, Class NK
IMC
4
1. Outlines of the EEXI regulation
SFC
Specific Fuel Consumption at 75%MCR (M/E), at 50%MCR (A/E) specified in NOx technical file • In cases where the installed engines don’t have NOx technical file, approximated default values including margin, SFCapp(i.e. M/E: 190g/kW・h, A/E: 215g/kW・h), are available. • In cases where the NOx regulation doesn’t apply to the propulsion system (e.g. steam turbine), SFC specified by the manufacturer or confirmed by the verifier is available.
EnginePower (PME)
75% of the rated installed power (MCR) (In cases where the propulsion system is diesel electric or steam turbine, PME is 83% of MPP or MCR.)• In cases where EPL is installed, PME is 83% of the limited installed power (MCRlim).
Speed(Vref)
Ship speed at PME and under the maximum summer load draught (for container ships, under 70%DWT draught.) • In cases where both of tank test results and speed trial results are not available, an approximated ship speed including margin, Vref,app is to be calculated by the simple formula. The parameters of this formula are ship type, DWT, and MCR.
The formula of EEXI is the same as EEDI, but some parameters’ definitions are different.
Source : Outlines of EEXI regulation in 2021, Class NK
(Vref)
Calculation formula of EEXI
IMC
5
1. Outlines of the EEXI regulationMethods for obtaining Vref
EEDI-applied ships Pre-EEDI ships
Source : Outlines of EEXI regulation in 2021, Class NK
*1 The approved speed-power curve is available without any corrections.*2 The tank test results can be corrected/calibrated by numerical calculation such as CFD, etc.*3 In case of using numerical calculations, estimation process and methodology of the power curves are to be submitted. (It should include documentation on consistency with the defined quality standards and the verification of the numerical setup with parent hull or the reference set of comparable ships.)*4 The sea conditions and ship speed should have been measured in accordance with ISO 15016:2002 or the equivalent and the measured ship speed was calibrated, if necessary, by taking into account the effects of wind, tide, waves, etc. If the speed trial was carried out under design draught, the ship speed shall be calibrated under EEDI draught by using Admiralty Coefficient, etc.*5 Vref,app is an approximated ship speed obtained by a certain correction applies to the average ship speed of each ship type and size (including margin).
Attained EEDI <= Required EEXI(Attained EEDI value is written in 3.1 of the supplement of IEE certificate.)
Attained EEXI = Attained EEDI
Speed-power curve under EEDIdraught which was approved atEEDI verification can be used.*1
Vref is to be determined by the speed-power curve.
Tank test results (under EEDI or design draught) *2,3 or
Numerical calculation results (under EEDI draught) *3 or
Speed trial results (under EEDI draught or design draught) *4
is/are available.
Speed-power curve under EEDI draught is to be determined based on the data
Vref,app*5 is to be calculated by the simple formula.
Vref is to be determined by the speed-power curve.
Yes
Yes
No
No
IMC
6
1. Outlines of the EEXI regulationRequired EEXI
Source : Outlines of EEXI regulation in 2021, Class NK
IMC
7
1. Outlines of the EEXI regulation
Source : Outlines of EEXI regulation in 2021, Class NK
IMC
information in case of EPL document
Copyright 2021 IMC Co., Ltd. All Right Reserved 8
IMC
Owner
Main Engine manufacturer
Class
⑤
(confidential information)
Aux.Enginemanufacturer
②
Offer and provide the best solution
⑥
MCRlim
③⑦
③③Vessel’s name
⑧
EEXI Technical File
⑨
IEE certificate
Documents forship propulsion performance
Shipyard
Documents for EPL
OMM for EPL
④
(parent engine)
④Speed-Power
curve
EPL setting work (onboard)
④Documents for SFC
(parent engine)
2.Support services EEXI certification by IMC
What IMC will doA) To propose the best solution based on the EEXI assessment for each vessel.B) To obtain speed-power curve and necessary data SFC / EPL from shipbuilder and engine manufacturer respectively.C) To make EEXI technical file, documents for SFC / EPL and OMM for EPL.D) To submit all necessary documents to Classification Society to obtain EEXI certificate.
It takes about 3 weeks to get the EEXI certificate after readiness of B).
Documents for SFC
Documents for SFC
Documents for EPL
Vessel’s name
Vessel’s name
Flow chart of IMC’s services
①
Name of vessels and shipbuilder
IMC
9
Offer high-quality one-stop services based on our experience and achievements in providing various solutions and services during ship’s life cycle.
Fully support the EEXI verification for all vessels built in Japan, regardless of their classification or shipbuilder. Especially for the vessels built by JMU, we get easy access to the technical information, which put us in a competitive position.
Improvement of EEXI with SURF-BULB is calculated using our past model test results and achievements of SURF-BULB, which can be done more quickly and economically than doing complete model test or CFD.
Propose the best solution for regulatory compliance according to the characteristics of the individual ship based on the EEXI assessment results. Our proposal may include;
Engine Power Limitation (EPL), Installation of Energy Saving Device (ESD),DWT increase (draft up) and/or Optimization of bulbous bow, propeller and/or engine, etc.
Further, provide optimal solutions to improve the fuel efficiency rating system CII, which was adopted at the same time as EEXI.
Copyright 2021 IMC Co., Ltd. All Right Reserved
2.Support services EEXI certification by IMC Features of IMC’s services
IMC
10
3.Cases study of improvement of EEXI by EPL and Energy Saving Device
Source : Outlines of EEXI regulation in 2021, Class NK
IMC
11
3.Cases study of improvement of EEXI by EPL and Energy Saving Device
Principal requirements of EPL
Principal requirements• The available power is to be limited by locking fuel index.• EPL cannot be released without permission from the ship master or the officer in charge of navigational watch (OICNW).• If EPL is un-limited due to the purpose of securing the safety of a ship or saving life at sea, the reason and relevant information are to be recorded in Onboard Management Manual (OMM).• EPL system (or each sub system) should be tamper-proof.• EPL system should be accompanied by OMM for EPL that should be on board the ship for inspection.
Contents of OMMOriginal MCR (kW x rpm), MCR after installing EPL: MCRlim (kW x rpm), Technical description of EPLsystem, Sealing method (mechanically controlled engine), Locking and monitoring method (electronically controlled engine), Procedures and methods for releasing EPL, Time required for un-limiting EPL, Procedures for survey by the Administration/RO, Procedure for the report on release of EPL, Administrator of the EPL system, etc.
Source : Outlines of EEXI regulation in 2021, Class NK
IMC
MCR
PME=75%MCRMCRlim=74%MCR
PME lim=83%MCRlim
-14
%P
ME
ΔVref= -0.7kts
En
gin
e p
ow
er
(kW
)
Ship speed (knot)
Copyright 2021 IMC Co., Ltd. All Right Reserved 12
Example of improvement of EEXI by EPL EPL is a highly effective measure and a cost-effective solution to improve the ship’s attained EEXI. Thus, EPL is the most effective measure for EEXI improvement. EEXI calculation of a Handymax BC based on the model tank test result is shown below. EEXI was improved 11% by setting MCRlim = 74% MCR, and the required EEXI value was cleared.
Before EPL After EPL
MCR 100 74
Decrease rate of PME (%) - 14
Change of Vref (knot) - -0.7
EEXI relative to the reference line (%) -9 -20
Improvement rate of EEXI (%) - 11
0 20 40 60 80 100
50
100
150
200
Ship Size (x 103 DWT)
EEXI
(g/t
on/m
ile)
EEDI Reference Line = 961.79 x DWT-0.477
Before9%11% 20%
Required EEXI= (1-X/100) x EEDI Reference Line(X = 20 for 20,000-200,000 DWT BC)
After
3.Cases study of improvement of EEXI by EPL and Energy Saving Device
IMC
MCR
PME=75%MCRMCRlim=75%MCR
PME lim=83%MCRlim
-13%
PM
E
ΔVref= -0.58kts
Engin
e p
ow
er
(kW
)
Ship speed (knot)
without SURF-BULB
with SURF-BULB
-3%
Copyright 2021 IMC Co., Ltd. All Right Reserved 13
Example of improvement of EEXI by Energy Saving Device(SURF-BULB(*))SURF-BULB (SB) can improve the ship speed by 1% through 3% as well as improving EEXI, and additionally it improves FOC by 3% through 7% on seagoing. EEXI calculation of a Handymax BC based on the model tank test result is shown below. MCRLim & ship speed are improved 1% and 0.12kts respectively.
BeforeEPL
After EPL
Only EPL With SB
MCR 100 74 75
Decrease rate of PME (%) - 14 13
Change of Vref (knot) - -0.70 -0.58
EEXI relative to the reference line (%)
-9 -20 -20
Improvement rate of EEXI (%) - 11 11
(*) Designed & Manufactured by IMC, refer to next page.
3.Cases study of improvement of EEXI by EPL and Energy Saving Device
Carbon Intensity Indicator (CII) is adopted at the same time with EEXI. CII result and “A” –“E” rating will be added on SOC of IMODCS. Low rated vessels (“E” or “D” on 3 consecutive years) should develop a plan of corrective actions and the plan should be approved by the Administration or RO. SURF-BULB can reduce required engine power about
3-7% on seagoing. So, it can not only improve EEXI value, but also contribute to CII.
IMC
Copyright 2021 IMC Co., Ltd. All Right Reserved 14
What is SURF-BULB (SB)?SURF-BULB is a groundbreaking energy-saving device developed and patented by Japan Marine United Corporation. This device is configured from asymmetrical retreating-type fins with a valve and is attached to the front edge of the rudder, which is an extension of the propeller shaft center line to improve a ship’s propulsion efficiency. SURF-BULB applies a reliable hydrodynamic principle therefore boasts a simple shape and structure. As such, we can assure minimal initial costs and reliable energy-saving results. This device can be easily installed on both new and existing ships, therefore we recommend it with confidence to our customers with ships in operation looking for ways to cut energy consumption.
SURF-BULB PrincipleIt is known that, by positioning a rudder behind a rotating propeller, the effect of rotational flow of the propeller’s slipstream improves hull efficiency and increases a ship’s propulsion efficiency. SURF-BULB was conceived with a focus on this phenomenon. In other words, significant improvement of propulsion efficiency is obtained by reducing rudder resistance and increasing hull efficiency by attaching energy-saving device SURF-BULB, which is configured from asymmetrical retreating-type fins and a valve, to the front edge of the rudder, which is an extension of the propeller shaft center line. The energy-saving benefit can be verified with good accuracy in a mock-up tank test prior to installation.
SURF-BULB Features① Horsepower reduced by between 3% and 7% when traveling
at the same speed with SURF-BULB.② Can be applied not only for newly building vessels, but also
for existing vessels. Installed on more than 800 vessels.③ The same maneuvering performance, as there is no
difference in rudder characteristics with/without SURF-BULB.④ Good investment return in a short period of time at low cost.⑤ Less vibrations above the propeller.
3.Cases study of improvement of EEXI by EPL and Energy Saving Device
IMC
15
4. Example of EEXI technical fileEEXI Technical File
Source : Outlines of EEXI regulation in 2021, Class NK
Contents of EEXI Technical FileDWT/GT, Principal particulars of M/E and A/E (e.g. type, MCR, SFC, etc.), MCRlim in case of installing EPL, Ship Speed (i.e. Vref), Estimated speed-power curve(s), Principal particulars and schematic figure of propulsion system and electric power supply system, Estimation process of speed-power curve(s), Description of energy saving equipment(s), Calculation of attained EEXI, (For LNG carrier, relevant information of propulsion system, LNG cargo tank, etc.)
IMC
Contact:
Copyright 2021 IMC Co., Ltd. All Right Reserved
IMC
IMC Co., Ltd.MS Shibaura Building 5F, 13-23, Shibaura 4-Chome, Minato-ku, Tokyo, Japan
Marine Equipment Dept.Ship Solution Division
TEL:03-6722-6957E-mail: EQ_sales@imc.jmuc.co.jp
http://www.jmuc.co.jp/imc/en/index.html
Recommended