the many benefits of designing newbuilds for recycling
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The many benefits of designing newbuilds for recycling 24 September 2021 • 09:00-09:45 BST
#shiprecycling
Part ofShip RecyclingWebinar Week20-24 September 2021
24 September 2021 • 09:00-09:45 BST
Presentation documents:Page 2: Reinoud Pijpers, ISRAPage 13: Anantha Padmanabhan, SeaTech Solutions EuropePage 24: Rafet Emek Kurt, University of Strathclyde
ISRA Network
Reinoud Pijpers, Director International Ship Recycling Association (ISRA)
Webinar Ship Recycling 24 th september 2021, The many benefits of designing newbuilds for recyclingRiviera Maritime Ltd.
ISRA,introduction
• International Ship Recycling Association (since 2007) promotes sound and safe ship recycling on a global level;
• High standards for responsible ship recycling; • Standards of EU in conformity with standards ISRA;
• EU standards based on unambiguous technical requirements;
• If ship recycling facilities are in conformity with objective (EU) criteria than forISRA every new facility is welcomed;
• Level playing field is point of departure;
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Members of ISRA, high standards, numerous investments
Numerous investments for safe and sound recycling:
• Ship Recycling Facility Plan;
• Impermeable floors;
• Asbestos treatment;
• Downstream Waste Management;
• Medical services;
• Safety precautions.
• No level playing field, competition with beaches isunequal and unfair;
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• Precondition shipowner and ship builder should be aware of shiprecycling;
• Education/awareness on maritime trainings institute is a must.Several attemps made to draw new vessel taking in accountrecycling.
• Ship recycling should be on the drawing board of the ship.
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Recycling ships: awareness
Attention for recycling at the first stage of the proces
• Item should be is on the agenda ship recycling event.
• Not only technical approach
Role of financial institutions
• European Investbank Bank: no (partial) loan for new build if proper recycling according toEU rules is guaranteed;
• State oil fund in Norway: similar conditons;
• Other banks/financial institutions are formulating policies in this field;
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EU Taxonomy Climate Delegated act EU Taxonomy Climate Delegated Act
The EU taxonomy is a classification system, establishing a list of environmentally sustainable economic activities.
The EU taxonomy is an important enabler to scale up sustainable investment.
Provides appropriate definitions to companies, investors and policymakers on which economic activities can be considered environmentally sustainable;
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• Automotive (80%);
• Glas (21%)
• Textile (12%)
• Ships (97% or higher)
• Why put effort in increasing already high percentage of ship recycling?
Are the boarders reached?
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Recycling percentage (based on various statistical sources)
Re-use as much as possible parts of ships:
• Already vivid business in unused spare parts, used auxillaryengines, lamps etc.
• Passenger/cruise ships should be built (also) to sell components,figure can increase;
• Also for crew facilities on other types of ship.
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Technical (1)
• Melters want clean materials;• Avoidance of hazardous materials: no asbestos! • Construction: see that (oil) residues can not occur; • Use durable materials; • Use as les possible various materials: no need to separate; • No plastics/composite or other “harmless” polutants; • Attention for materials from electronics.
Outsourcing • Check and double check suppliers . See that environmental
requirements are met;
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Technical (2)
• Register exactly the places of materials that deserve attention (not because of regulations);
• Paradox: why should ships last 30 years?• Shiphull can be thinner and new technology can ben
introduced, saves raw materials
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Technical (3)
• Compared with other sectors, ship recycling is leading;
• Ship recycling can still make steps;
• Ship recycling must be part of the design of ships;
• Education institutes should pay attention in designing to shiprecycling;
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Conclusion
SeaTech Trusted Solutions
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SEATECH SOLUTIONS
INTERNATIONAL (SSI)
SHIP RECYCLING
WEBINAR WEEK24-SEP-2021
A Sea of Technology
Mission
Assurance of Optimum Performance with
Design, Innovation & Technology.
Vision
A Sea of Technology
SeaTech Trusted Solutions
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Global Networks
India •Mumbai
•Kolkata
•Visakhapatnam
•Chennai
•Delhi
Germany Japan
South Korea
Myanmar
China
Vietnam
Malaysia
Singapore (Headquarter)
Thailand
Australia
Think
DeliverGlobally
Locally
SeaTech Trusted Solutions
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New Build & Conceptualization
33Types of
vessel designs
380Unique designs
646Vessels built
• Customized • Purpose Built • Easy to Maintain• Easy to Build
Number of Vessels Designed
Bunker
Tankers45Offshore
Support
Vessels15432
Naval / Specialized
Vessels
Merchant
Vessels86
Ferry6Harbour
Crafts21613 Oil & Gas Conversions52
SeaTech Trusted Solutions
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The Many Benefits of Designing Newbuilds for Recycling
C O N T E N T
S h i p R e c y c l i n g I s s u e s
R o l e o f D e s i g n i n S h i p
R e c y c l i n g
SeaTech Trusted Solutions
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Ship Recycling Issues
• Materials, equipment, fittings
• Type, amount, location
Inadequate information
• Inadequate information – equipment, fittings
• Access difficulties
• Inadequate handling supports
• Nature of fixation
Dismantling difficulties
SeaTech Trusted Solutions
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Ship Recycling Issues
Hazardous materials
Accidents
Downstream issues – disposal for example
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Role of Design in Ship Recycling
• only to meet the operational requirementsTraditional
designs
• Relatively new concept
• Safe, efficient and environmental friendly recycling
Designing for recycling
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Role of Design in Ship Recycling
Considering recycling issues right from the
start
Providing as much information as
possible
Lightweight distribution –
material, machinery, equipment
Hazardous material used
Waste that may be generated during
operation
Using machinery and systems with minimal
waste generation
SeaTech Trusted Solutions
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Role of Design in Ship Recycling
Minimizing use of hazardous materials
Using recyclable materials
Using standardized components
Minimizing variety - materials, components, fittings, fixtures etc.
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Role of Design in Ship Recycling
• Providing adequate access with better layout
• Avoiding special fixtures
• Providing adequate lifting arrangements
Designing for easy
dismantlability
SeaTech Trusted Solutions
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Thank You
Email: info@SeaTechSolutions.com
Website: www.SeaTechSolutions.com
SINGAPORE │ CHINA │ INDIA │ MYANMAR │ THAILAND │ JAPAN │ VIETNAM │ MALAYSIA │ SOUTH KOREA │ AUSTRALIA │ GERMANY
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ENGINEERINGwww.strath.ac.uk/engineering
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Remanufacturing, Reuse & Recyclingfor Marine Assets
S E P T, 2 0 2 1
Dr RAFET EMEK KURT
Dr Sefer Anil Gunbeyaz
rafet.kurt@strath.ac.uk
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• 22,000 students
• Founded in 1796 by Prof John
Anderson
• Awarded Royal Charter in 1964
• UK Top 20 Research Intensive
University (REF2014)
• UK Top 10 research intensive
Engineering Faculty
• UK University of the year 2019
by Times Higher Education
Awards
Department of Naval Architecture, Ocean & Marine Engineering
We have the Europe’s largest Marine Technology Research Students / Staff team (150+) to
sustain the production of useful and innovative ideas
Our academic staff (29) are internationally recognised for their expertise including international
leaders with significant achievements
Our close links with the industry (over 300 companies) and other research institutes further
strengthen our research team by the contribution of leading visiting researchers
University of Strathclyde
The place of useful learning
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Ship Recycling Projects
Past Projects:
FP6 - Cost effective and environmentally sound dismantling of obsolete vessels
FP7 - Dismantling of Vessels with Advanced Safety and Technology
ERASMUS+ - Ship Dismantling Insight by Generating Environmental and Safety Training
ERASMUS+ - The Boat Dismantling Insight by Generating Environmental and Safety Training
Identification and Valuation of Equipment and Materials for Reuse, Remanufacturing and Recycling on Marine Assets
IMONORAD Project (SENSREC) “Safe and Environmentally Sound Ship Recycling in Bangladesh” – Training needs, Training content development, delivery
Development of Green and Sustainable Ship Recycling Industry for Indonesia
Ongoing Project:
Development of Framework for Sustainable Decommissioning – Scottish Government
Circular Economy Network in Transportation Systems - EPSRC
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Ship Lifecycle
Currently ships have a linear “life cycle”
rather than a closed loop.
The steel from the end-of-life ships is
recycled, however, most of the products,
parts and equipment do not complete the
circle.
OperationDesign
ConstructionEnd-of-
Life
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Current Practice In the current practice, ship recycling
yards mostly focus on the steel due
high profit steel provides.
Some of the equipment is reused but...
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Circular Approach
Throughout a marine asset’s life cycle,
there is currently an absence of a circular
economy approach.
Maritime industry needs practical support
in many areas to reduce costs, enhance
competitiveness and make a swift
transition to a low carbon circular
economy
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Circular Approach
For example, remanufacturing is an important element of circular economy approach.
However, the remanufacturing intensity in the sector is very low.
Summary of European remanufacturing activities across industry sectors
Table Ref: (Jansson, K. (2016). Circular Economy in Shipbuilding and Marine Networks – A Focus on Remanufacturing in Ship Repair. Collaboration in a Hyperconnected World, pp.661-671. )
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Complexity of the ships and lack of standardisation
Ships are complex systems with many different components.
There is no standardisation on these components
Supply chain
Wide range of suppliers in the industry, hard to regulate and control
Long life cycle of ships
Average life of ships is 20 years. By the end of the ship’s life, most of the machinery/equipment is outdated
Toxic wastes from ships
Even though HKC has limited most of the toxic materials, there are still ships with high amount of toxic materials on
board. This makes the end of life operations dangerous for OHS&E
Preventive Market Challenges
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Preventive Market ChallengesLaws and regulations
Some laws and regulations prevents direct reuse/repair. (e.g. CE certification problems, IMO MARPOL Annex VI
regulation 13, the NOx Technical Code 2008.)
Reverse logistics
There is no reverse logistic culture or infrastructure. Too many different locations with small quantity of products/returns
Current ship recycling practices
Current yards mostly focus on steel, there is no knowledge on the other materials and equipment
Lack of awareness/interest
Currently there is lack of awareness in the maritime industry
Lack of market for refurbished/repaired parts
Lack of Market tools and transparency
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Identification and Valuation of Equipment and Materials for Reuse, Remanufacturing and Recycling on Marine Assets
• Identify common products, parts and materials which
can be reused, remanufactured and recycled on board
ships and oil & gas assets
• Create assessment methodology for determining
ability for RRR
• Create valuation methodology for common products,
parts and materials
• Create survey methodology which can be integrated
into existing inventory of hazardous material (IHM)
survey
• Identify technologies to assist survey and reporting
process (cloud data storage, automated report
construction, NDT devices etc.)
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Vessel
Bridge
Navigation Equipment
Survivability Equipment
Accommodation
Cargo
Engine Room
Diesel Engines
Auxiliary Machinery
Marine Propulsion System
Stucture/Hull
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RRR Workshop
A workshop with remanufacturing experts was organized in order
to assess the reuse, remanufacture and recycle potential of the
products, parts and materials
Also, the current challenges & barriers which prevent
remanufacturing in maritime industry were discussed
A survey tool was designed and experts were asked to assess
the end of life options for the pre identified equipment
Using expert judgements, experts answers were analysed with
AHP method to find top 20 equipment with the highest potential
of remanufacturing
8 experts
50 equipment/
parts
Rank Top 20
Equipment
High value items
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Top 10 machinery on board ships (AHP)
1 Main Engine
2Emergency Generator/ Emergency Alternators &
Pumps
3 Main Air-conditioning Plant
4 Purifiers (H.F.O / L.O)
5 Deck Service Air Compressor
6 Main generators / Alternators
7 Topping-up Air Compressor
8 Deck Cranes & Derricks
9 Provision Crane
10 Thread Extraction Machine
20 top of items / parts from an end-of-life ship, in
terms of high value of current market and profit
maximisation for the ownerships and the potential
for Remanufacturing, Reused and Recycling.
Main EngineHigh Value of current market
Remanufactured, Reuse & Recycled in parts
Can evaluated through visual inspection
Maximise the overall value of end-of-life ship
Emergency GeneratorUtilised in Marine & Land base industry
High demand & Value in current market
Main Air-condition plant
Utilised in Marine & Land base industry
High potential for Remanufacturing and Recycling
PurifiersUtilised in Marine, Land base & Agriculture industry
High demand & value especially in Agriculture industry
Main Generators High value of current market
Maximise the overall value of end-of-life ship
Utilised in Marine & Land base industry
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Conclusion
There is a big potential for remanufacturing in
maritime but current challenges should be tackled
collectively to achieve success
The lack of awareness and lack of transparency for
information is creating a barrier for remanufacture at
the end of life
Though proper application of circular economy not
only environmental protection can be achieved but
also value extraction from end of life ships can be
maximized
There is no link/ feedback loop between design end-
of-life.
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THANK YOU
rafet.kurt@strath.ac.uk
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