This case study determines the effects of pooling a fully electric small-sized chemical tanker with similar type vessels in the context of FuelEU Maritime. The results show that a single electric ship can include up to 69 ships in its pool in 2025, each ship consuming 2,555 mT MDO per year.

On behalf of the Province of South-Holland, Sustainable Ships has been project leader of 'Project BOEI’, a techno-economic feasibility study on the electrification of tankers off the coast of Scheveningen, Netherlands. The study was performed with consortium members InnovationQuarter, Bluewater, Knutsen, EOPSA, Rijkswaterstaat, Campus@Sea, Port of Rotterdam, KVNR and Cavotec. This lunch and learn is the recording of the close-out session in which main findings were presented.

Project BOEI is a techno-economic feasibility study on behalf of the Province of South-Holland on the electrification of tankers at the Scheveningen anchorage. The goal is to identify the most feasible technical solutions and risks, in addition to cost and emissions reduction estimation. Primary drivers are reduction of NOx and CO2 emissions. Total costs for all scopes combined is €14M (~€12M for infra and ~€2M for ship). E-anchor and subsea cabling are approximately 50% of all cost. Break-even price parity for shipowner and provider of power is at around €0.20-€0.25 per kWh.

This blog provides techno-economic guidance for the use of SBCC onboard your vessel, including operational impact, logistics and of course the costs for implementation. Key points include the following; SBCC is applicable to virtually all ship types, sizes and fuel type but LNG is preferred. SBCC produces 2 m3 of CO2 per day per MW. SBCC costs €115 per ton CO2, is a CAPEX dominated technology and costs €175k per MW.

This blog is a state of the use of methanol as marine fuel as “quick” reference for shipowners. Key points include costs for retrofitting the ship and engine, range between € 250-€650 per kW, elaboration on IGF code for low flashpoint fuels and technical considerations for conversion and working with methanol. Availability for methanol is good, but bunkering for large vessels mostly non-existent. Methanol price per kilogram is historically lower than regular MGO.

Japanese shipbuilding giant Mitsubishi announced that it will build and test a carbon-capture system for ships which promises to reduce ship emissions by 90%. Sea trials will be conducted by mid-2021 using an existing coal carrier operated by the Tohoku Electric Power Company.

Høglund Marine Solutions & HB Hunte Engineering have developed a new ‘bilobe’ tank concept for LPG and CO2 transportation. The solution is readily available for use in existing tanker designs. It more than doubles the transportation capacity of liquid CO2 over current vessel capacity without the size, weight and stability concerns that would have come from a higher capacity “monolobe” design.