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.

This case study determines the costs of compliance for a 3,000 TEU Panamax containership with respect to FuelEU and EU ETS. Estimated annual compliance costs for business as usual range from $2.5M in 2025 to $23M in 2050. Two different pathways are evaluated to determine mitigation options and OPEX costs: shore power and wind-assisted propulsion. Savings for shore power are approx. $400k per year in 2025, savings for wind-assisted propulsion are approx. $600k in 2025.

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).

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.

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.

This is a case study that determines the impact of FuelEU Maritime on a shore power refit business case up to 2050, taking several ships and varying input parameters to determine the impact under multiple conditions. As FuelEU Maritime will make shore power mandatory in 2030 for passenger- and containerships, this tool will help to determine the impact of that regulation on your business case.

The FuelEU Maritime pooling mechanism is complex. The FuelEU Pool Tool makes it simple. Use this tool to compare cost impact of FuelEU, EU ETS and the fuel itself when pooling up to ten different ships. Blend different quantities of fuel, change fuel properties and compare the cost outlook until 2050 to make your very own FuelEU pooling strategy.

FuelEU is complex. The FuelEU Case Maker makes it simple. Use this tool to compare cost impact of FuelEU, EU ETS and the fuel itself for up to five different cases. Blend different quantities of fuel, change fuel properties and compare the cost outlook until 2050 to make your very own FuelEU strategy.