Technical Information of BWMS prior to installationFor Ship-owner, Surveyor and PSCO
September 2018Marine & Ocean Equipment Team of KR
BWM Convention(Recent Decisions of MEPC)
Port-based Mobile Ballast Water Treatment Facilities
Schematic diagram of the BWTBoat concept to serve ships
More Guidance is needed for situations where ballast water is loaded to a ship departing for an international voyage without an intention to discharge the ballast water to a BWTBoat or reception facility
Consideration for Major Conversion
MEPC 65 approved a BWM Circular referring that new installation of ballast water management systems should not be treated as a ‘major conversion’ as defined in regulation A-1.5 of the BWM Convention as BWM Convention does not stipulate clearly whether the new installation of ballast water management systems should be treated as a ‘major conversion’.
1. which changes its ballast water carrying capacity by 15 percent or greater
2. which changes the ship type
3. which, in the opinion of the Administration, is projected to prolong its life by ten years or more
4. which results in modifications to its ballast water system other than component replacement-in-kind. Conversion of a ship to meet the provisions of regulation D-1 shall not be deemed to constitute a major conversion for the purpose of this Annex.
Having considered documents MEPC 64/7/2 and MEPC 64/7/7 providing amendments to the MARPOL Annex IV and BWM G4 guidelines, the Committee rejected further discussion….
1. BWM Convention has not yet entered into force,
2. Grey water is not regulated under MARPOL IV,
3. Detailed technical consideration is needed,
4. There are concerns over the implications,
5. There is a need to address the difficulties,(not allowed to discharge sewage in port ?)(have to use additional tanks for temporary
storage of sewage)
6. Untreated sewage should be prohibited to be transferred to ballast water tanks as operational problems will be expected.
Handling of Grey water and Sewage contained in Ballast Water Tank on board ships
Guidelines for port States control under the BWM Convention
Ballast Water Sampling Guidance approved as BWM/Circ.42
• 2~3 years • without any legal-
binding or PSC detention
• the assessment for sampling and analysis technique
Exception and Exemption of the Convention and associated Guidelines for risk assessment under Reg. A-4 of the BWMC
MEPC 68 considered a proposed amendment to article 2 (application) of theConvention to enable the establishment of “same risk area”
1. domestic voyages – even if distance isvery long and may have differentenvironment between ports, they areexempted from the Convention
2. Ocean going – even if distance is short,they are to comply with the Convention
3. Ships engaged in the short internationalvoyages are required to undertake ballastwater exchanges
* Having noted that ballasting operation at the same location is subject to the‘exception’ and exemption of ballast water management is subject to the riskassessment in accordance with G7, MEPC 68 agreed to develop a guidance onestablishment of “same risk area” by new methodology for Risk Assessmentin short sea shipping
Application schedule for New G8, BWMS Code and Installation of BWMS onboard
Old G8 (Res. MEPC. 125(53) and MEPC. 174(58)) New G8 (Res. MEPC. 279(70)): 2016 Guidelines for approval of ballast water
management systems BWMS Code (Res. MEPC. 300(72)): Mandatory requirement for approval of
BWMS which were based on New G8
201628th Oct.
201828th Oct.
201913rd Oct.
202028th Oct.
Old G8
New G8 &BWMS CodeInstallation of *1st
Gen. BWMSInstallation of **2nd Gen. BWMS
* 1st Gen. BWMS is type approved by Old G8** 2nd Gen. BWMS is type approved by New G8 or BWMS Code
Amendment of regulation B-3
Last IOPP Renewal Survey Due date for fitting BWMS onboard
1
2
3
4
20128th Sep.
20148th Sep.
20178th Sep.
20198th Sep.
20228th Sep.
20248th Sep.
E.I.F.
Constructed = Keel laid
Due date for D-2
Due date for D-2Renewal surveyRenewal survey
Renewal survey
Ships without IOPP Certificate
1. Ships constructed on or after 8th Sep. 2017 shall be comply with D-2 standard as of ships delivery.2. A case where previous IOPP renewal survey had been completed between 8th Sep. 2014 and 7th Sep. 2017, the ships
shall comply with D-2 standard by the first IOPP renewal survey after entry into force (E.I.F.) of the Convention.3. A case where previous IOPP renewal survey had been completed between 8th Sep. 2012 and 7th Sep. 2014, the ships
comply with D-2 standard by the second IOPP renewal survey after E.I.F of the Convention.4. Ships not subject to IOPP renewal survey (normally less than 400 GT) shall comply with D-2 standard by 8th Sep. 2024.
Guidance on entry or re-entry of ships into exclusive operation within waters under the jurisdiction of single Party approved as BWM.2/Circ.52 Rev. 1
How to manage BW in ships operating within national waters
Ships operating pursuant to articles 3.2(b) to (d) that cease to operate exclusively in the relevant waters will lose their exclusion from the Convention, which then fully applies to them on an ongoing basis
A case where a ship intends to operate within waters under the jurisdiction of a single Party again, following should be verified :
Holds a valid IBWM Certificate;Discharges all ballast water, any residual ballast water and all sediments; Has a procedure in its approved BWMP for cleaning its BW tanks
A exempted ship (regulation A-4): performs BWE in accordance with regulation B-4, D-1 and approved BWMP (The requirements of regulation A-4.1.4 should be addressed to the satisfaction of the countries of origin and destination of the ship)
Roadmap for implementation of BWM Convention
Early movers should not be required to replace these systems due to the application of the revisedGuidelines
if maintained and operated correctly, should not be required to replace these systems due tooccasional lack of efficacy for reasons beyond the control of the shipowners and ship’s crew
Early movers should not be penalized (sanctioned, warned, detained or excluded) solely due to anoccasional exceedance of the D-2 standard
Data Gathering Data Analysis Convention Review
Port based treatment system: standard connection needed as per G5 / port or ship infrastructure/ Barge / BWTBoats / Ships, etc.
Shipboard contingency measure :BWE / BWE with water treated by BWMS / internal circulation
MEPC 72 : a draft guidance on sampling and analysis of treated ballast waterat initial survey and invited interested Parties to submit proposals on NewOutput for an amendment to regulation E-1.1.1 of the BWM Convention with aview to providing legal basis to carry out validation of D-2 standard at initialsurvey in the Convention
Class Survey of BWMS prior to
installation
Ballast Water Management
Convention (MEPC 71th, 3~7th July
2017 IMO)
BWMS type-approved by
Administrations(IMO) and USCG
* Updated on August 2018
* Updated on August 2018
* Updated on May 2018
0
2
4
6
8
10
12
2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017
BA
FA
Num
ber
Year
* Updated on May 2018
China20%
Denmark4%
France2%
Germany12%
Greece1%
Japan17%
Netherlands6%
Norway15%
Marshal Island3%
Republic of Korea15%
Singapore1%
South Africa1%
United Kingdom3%
ChinaDenmarkFranceGermanyGreeceJapanNetherlandsNorwayMarshal IslandRepublic of KoreaSingaporeSouth AfricaUnited Kingdom
* Updated on May 2018
UV52%
Electrolysis22%
Chemical9%
Ozone3%
Etc.,14%
UV
Electrolysis
Chemical
Ozone
Etc.,
Considerations for ship owners
prior to BWMS installation
Type approval certificate for BWMS To install a BWMS on board your ship, it must be 'type approved‘. If the
system uses an active substances, basic and final approval from the IMO need to be obtained before the type approval can be granted.
The capacity of BWMS A BWMS has a "Total capacity rate“. This is utilized as an indicator to show how many
cubic meters of ballast water management system can be processed per hour. You will need to choose a system with a TRC high enough to handle a ship’s ballast capacity and operational pumping rate
The required space for the installation of BWMSSystem footprints range from approximately 0.25m² to 145m² depending on their TRC.
Consequently, you should review the specifications for selected BWMS.
Enough power to operate BWMSConsidering that additional power will be required to operate BWMS, you should check to see if you will need to run another generator when the BWMS is in operation or consider installing an additional generator set or have a spare breaker available in the electrical distribution board to provide power to the BWMS.
Negative effect on the structures and coatings of ballast water tankCorrosion is a potential negative effect that may be brought on by BWMS substances and processes. Therefore, you should consider the corrosion inside of ballast water tank or negative effect on coating additionally.
"Gas Safe" or not (Oil/Chemical/Gas Tanker)In case of a tanker, the BWMS will be installed in the "Gas Dangerous Zone“ and
therefore the BWMS will need to be approved as "Gas Safe“.
Manufacturer’s Quality• Verified activities to adequately support customer’s demand
• The control of their supply chain if the capacity is stretched
Installation Bottle Neck• Manufacturer’s production capacity need to meet the anticipated increase in the
number of orders.
Cost consideration (Installation, Running and Maintenance)The main cost considerations are less power consumption, easy maintenance and installation, running and installation cost (USD 400,000 ~ 830,000 : 1,000m/h)
Implications for crew training regarding the operation of BWMSWhatever BWMS you have adopted, training will be required for operation and maintenance of the system. Training requirements will need to be included in the ballast water management plan required by the Convention
Ballast Water Major Noncompliance surveyed by US EPA
• Failure to monitor• Monitoring values exceed effluent limitation• Failure to record de-ballasting correctly• Used wrong reporting form• BWMP incomplete• Exchange occurred within 200NM of shore• Failed to operated BWMS• Falsification of records
Port State Control – Inspection Guidance
IMO/USCGIMO
Guidance Res. MEPC.252(67)
USCGNVIC 07-04, Change 1
MI Notice 05-12
Phase 1 / Documents
TA Certificate – DocumentationBWMP- Training
TA Certificate – BWMP – BWRBDocuments – IOPP Certificate
Phase 2/ Crew Knowledge
BWMS InspectionBWMP ReviewOperation Parameters
Crew knowledge
Phase 3 / Equipment Condition and Operation
Indicative Sampling &Microbial Analysis to D2 Standard
Vessel ExaminationOperational InspectionEquip. compare BWMS log to documents
Phase 4 / Sample Discharge
Sampling of discharge if warranted, Lab Analysis
Sampling of discharge if warranted, Lab Analysis
Example of BWMS installation
onboard
BWTSSea
Chest Ballast TankMechanical, Physical or Chemical process
Neutralization Process OVBD’ Discharge
: Treated Ballast Water : Ballast Water
General Flow Diagram of BWTS
Example of BWMS Type1) FILTRATION + IN-LINE (FULL FLOW) EC + NEUTRALIZATION
Example of BWMS Type2) FILTRATION + SIDE-STREAM EC + NEUTRALIZATION
Example of BWMS Type3) OZONE TREATMENT + NEUTRALIZATION
Example of BWMS Type4) FILTRATION + UV TREATMENT
Example of BWMS Type5) FILTRATION + CHEMICAL INJECTION + NEUTRALIZATION
For ship’s stability, the following needs to be confirmed
Detailed weights and centres(LCG and VCG) calculation to adjust the lightship properties should be carried
Surveyor should confirm the deviations and sign on the calculated lightweight data sheets
Inclining test should be carried out and Stability booklet should be re-approved
YESNO
1) The deviation of lightweight exceeds 2% or more of the original approved lightweight or 2tones, whichever is greater, or
2) The deviation of lightship longitudinal centre of gravity exceeds 1% or more of the LBP
Do any one of two items listed above apply to your vessel?
Inclining test may be exempted. Re-approval of Stability booklet may be exempted
Step by Step Process of How to
Choose and Install/Retrofit
Feasibility Study for Retrofitting
BWMS
Electrolysis (Side stream type)- Filter installation- Electrolysis module installation- Neutralization module installation- Electrical panel installation- Ballast/system pipe-work installation & modification- Auxiliary system integration- New valves and instrumentation
- New electrical panels - System power- Control valves- Brine transfer pump & control system(if necessary)- Ship IPMS integration
- Work-in-way of installation- Fleeting/ lifting arrangements- Electrical power upgrades- Workshop conversion(if necessary)
- Ventilation upgrades
Electrolysis (Direct flow type)- Electrolysis module(s) installation- Electrical panel installation- Ballast/system pipe-work installation & modification- Auxiliary system integration- New valves and instrumentation
- New electrical panels- System power- Control valves- Ship IPMS integration
- Work-in-way of installation- Fleeting/ lifting arrangements- Electrical power upgrades
Chemical Injection Type- Metering Feeder Unit installation- Dissolving Unit installation- Neutralizer Unit installation- Electrical panel installation- Ballast/system pipe-work installation & modification- Auxiliary system integration- New valves and instrumentation
- New electrical panels- System power- Control valves- Ship IPMS integration
- Work-in-way of installation- Fleeting/ lifting arrangements- Electrical power upgrades- Ventilation upgrades- Chemical handling process and space
Ozone Type- Ozone module installation- Neutralization module Install.- Oxygen generator module Install.- Chilled water integration- Electrical panel installation- Ballast/system pipe-work installation & modification- Auxiliary system integration- New valves and instrumentation
- New electrical panels- System power- Control valves- Ship IPMS integration
- Work-in-way of installation- Fleeting/ lifting arrangements- Electrical power upgrades- Workshop conversion- Ventilation upgrades
Mechanical Electrical Vessel Dependent
Comparison Table for Chemical Injection and Electrolysis Type
NaDCC(Chemical Injection Type) Electrolysis Type
Active substance Solid(Powder or granule)(Solid -> liquefaction -> Injection)
NaOCl(Side Stream or Full type)
Chlorine content Solid: Max. 62%Liquid: Max. 28% at 25℃
Side Stream: Max. 0.2%Full type: Max. 10mg/L
Advantagea) Low Power Consumptionb) Low CAPEXc) No consider salinity
a) No consider dangerous goods b) Low OPEXc) Salinity Solution ready
Weaknessa) Dangerous Goods to be handled
by crewb) Cost for NaDCC regularly
a) Consider temperature of intake water
b) High power consumption
Thank you for your attention!
www.krs.co.kr
Thank you for your attention!
Marine and Ocean Equipment TeamKorean RegisterTel: +82-70-8799-8240Fax.: +82-70-8799-8269E-mail: [email protected]