Case studies
Illustrative examples on decarbonization measures, costs and regulations
- Alfa Laval
- Alternative Fuels
- Ammonia
- Amsterdam
- Arctic
- Arenared
- Asia
- Australia
- Autonomous
- Ballard
- BAM
- Barge
- Batteries
- Battery Hybrid
- Bio-methanol
- Biodiversity
- Biofuels
- Blog
- Bluewater
- BP
- Bulk Carrier
- Carbon Capture
- Case Study
- Cavotec
- CCS
- China
- Clean Shipping Act
- Climeon
- CMA CGM
- Cobalt
- Combination Carrier
- Container Ship
- Corvus
- COSCO
- Cruise passenger
- Damen
- Decarbonizer
- Decarbonizer case study
- Digitalization
- Dredging
- Econowind
- Ecospeed
- Electrification
- Energy Major
- Engine
- ENI
- EOPSA
- Equinor
- EU
- EU ETS
- Exhaust gas
- FAME
- Feeder
- FincoEnergies
- Fishing
- Flind
- Floating Solar
- Fossil Fuels
- Fuel Cost Calculator
- FuelEU
- FuelEU Maritime
- Full Electric
- Gas Carrier
- GE
- General Cargo
- GoodFuels
- Green Hydrogen
- Hapag-Lloyd
- Harbor Tug
- HBE
- Heerema
- Hull Coating
- Hullvane
- HVO
- Hybrid
- Hydrogen
- IMO
- Industry
- Inland Waterways
- Inland Waterways General Cargo
- Inland Waterways Tanker
- InnovationQuarter
- Japan
- Knutsen
- Kongsberg
- KVNR
- Liquefied Gas Carrier
- LNG
- LNG Carrier
- LPG Tanker
- Maersk
- Maritime Battery Forum
- MDO
- Metasorbex
- Methanol
- Microgrids
- Miscellaneous
- Mobilyze
- Movie
- MSC
- Neste
- Netherlands
- Nextstep
- North Star
- NorthVolt
- Norway
- NOx
- Ocean Sun
- Offshore
- Offshore Charging
- Offshore Construction Vessel
- Offshore Support Vessel
- Ore Carrier
- Ørsted
- Passenger Ship
- Plastic
- Port / Tugs
- Port of Auckland
- Port of Rotterdam
- Ports
- PosHYdon
- Project BOEI
- Provincie Zuid-Holland
- Pusher Tug
- Q&A
- QuantumScape
- Recycling
- RFNBOs
- Rijkswaterstaat
- Ro-Ro Ships
- Rotterdam
- Rules and Regulations
- Semi-Submersible
- SFC
- Shell
- Shipping Company
- Shore Battery
- Shore Power
- Shorelink
- Singapore
- Skoon
- Smart Vessel Optimizer
- Solar PV
- Solid-State Lithium
- Sparky
- Steel
- Stillstrom
- Subsea Industries
- Synthetic Fuel
- Talk with an Expert
- Tanker
- Tanker/Bulk Carrier
- Techbinder
- Techno-Economic Guide for Ship-Based Carbon Capture
- TotalEnergies
- Trailing Hopper Suction Dredger
- Trawler
- US
- Van Oord
- Wärtsilä
- Waste heat recovery
- Wattlab
- Wind
- Wind Power
- Yara
- Zero-Emission Vessel
Biofuels in decarbonization for maritime industry - Q&A with FincoEnergies
This Q&A session explores the role of biofuels in decarbonizing maritime transport, featuring Johannes Schurmann, Commercial Director Marine at FincoEnergies, supplier of biofuels and supporting shipowners in adopting biofuels with end-to-end services, from technical assessment to regulatory documentation. Johannes shares insights into market developments, pricing trends, regulatory impacts, and operational considerations, focusing on the practicalities of switching to biofuels.
Choosing the right fuel: a brief guide to future prices and compliance costs
This case study analyzes 10 marine fuels using an HFO-equivalent model to determine their full lifecycle costs, including fuel prices and regulatory compliance costs, from 2025 to 2050. The results highlight a critical tipping point in 2040, driven by the FuelEU Maritime regulation increasing carbon intensity reduction targets sharply from 14.5% to 31%. This blog provides shipowners with guidance on how to navigate these evolving cost scenarios and maintain competitiveness to ensure future-proof investments.
FuelEU + EU ETS compliance costs for CMA CGM, Hapag-Lloyd and COSCO
This case study calculates and compares EU ETS and FuelEU compliance costs for three major shipping companies: CMA CGM, Hapag-Lloyd and COSCO. From 2025 until 2050, these three companies will pay a total compliance cost of $54B (CMA CGM), $25B (Hapag-Lloyd) and $32B (COSCO).
Compliance costs of VLSFO vs. bio-methanol vs. e-ammonia
This case study calculates and compares the compliance costs with regards to EU ETS and FuelEU for VLSFO, bio-methanol and e-ammonia. Results show that the averaged compliance costs for VLSFO between 2025 and 2050 are $966 per mT.
Neste Renewable Diesel Handbook
Neste Corporation calls its own HVO product “Neste Renewable Diesel”. The common acronym “HVO” comes from the terms “Hydrotreated Vegetable Oil”. It meets the requirements of EN 15940 for paraffinic diesel fuels and is allowed as a blending component in EN 590 B7 diesel fuel. It is a high quality fuel that can be used to enhance the properties of the final diesel blend. No modifications to vehicles required and it has the same torque and maximum power as with fossil diesel fuel in modern engines.