Case studies
Illustrative examples on decarbonization measures, costs and regulations
- Alfa Laval
- Alternative Fuels
- Amsterdam
- Arctic
- Arenared
- Asia
- Australia
- Autonomous
- Ballard
- BAM
- Barge
- Batteries
- Battery Hybrid
- Biodiversity
- Biofuels
- Blog
- Bluewater
- BP
- Bulk Carrier
- Carbon Capture
- Case Study
- Cavotec
- CCS
- China
- Clean Shipping Act
- Climeon
- CMA CGM
- 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
- Exhaust gas
- FAME
- Feeder
- Fishing
- Flind
- Floating Solar
- Fossil Fuels
- FuelEU
- 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 Carrier
- LPG Tanker
- Maersk
- Maritime Battery Forum
- Metasorbex
- Methanol
- Microgrids
- Miscellaneous
- Mobilyze
- Movie
- MSC
- Neste
- Netherlands
- 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
- Project BOEI
- Provincie Zuid-Holland
- Pusher Tug
- Q&A
- QuantumScape
- Recycling
- 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
How to decarbonize your ship - Inland Waterways + Shore Battery
This is a case study on the ‘Skoon Skipper’, a general cargo large Rhine vessel, with an average of 40 [kW] power demand while moored to which a shore battery is applied. Batteries can help you comply with shore power regulations where no infrastructure exists with limited to no CAPEX investments. CAPEX is €0 for this case study as the battery pack is rented at an estimated €400 dayrate. Purchase cost for battery pack are approx. €350.000. This case study is powered by our preferred partner Skoon.
How to decarbonize your ship - Inland Waterways + Solar PV
This is a case study on how to decarbonize an inland waterway ship with solar PV technology. Flexible solar PV panels from Wattlab are placed on an inland ship’s hatches in order to reduce fuel consumption while idling or moored. In some cases, the auxiliary generators can be switched off, resulting in an expected CO2 reduction of 26% - 100%.
Battery for inland vessels
In February 2022, Skoon placed a battery system on Noordereiland for the Port of Rotterdam to boost shore power for stationary inland vessels. Addressing power shortfalls, the battery supported shore power cabinets, successfully delivering up to 63A without tripping fuses, benefiting both vessels and residents. This solution also enabled supplying power to larger ships, aligning with sustainability goals and showcasing potential expansion across the city center.
Which will be the First Hydrogen-Powered Inland Vessel in Rotterdam?
A curious coincidence In Rotterdam. Two vessels - the ‘MS Antonie’ and ‘the Maas’ claim to become ‘the first hydrogen inland vessel’ in Rotterdam. We have translated their claims from two Dutch news outlets and made a comparison which might help you on your hydrogen journey. The race is on for the first hydrogen-powered inland vessel in Rotterdam!