Bureau Veritas (BV) has unveiled the results of new modelling research which confirmed the potential hefty cumulative impact of operational and technical efficiency measures in keeping shipping within its “carbon budget” to 2050.
The “Titled Decarbonization Trajectories” report examines possible decarbonization pathways for the shipping industry through five distinct scenarios. Each scenario considers several parameters such as socio-economic forecasts for the evolution of demand for maritime transport, the possible speed for the uptake of green fuels and technical efficiency improvements in shipping.
To have a realistic understanding of shipping’s energy transition, we need to consider that the overall decarbonization of the sector will be made up of multiple overlapping trajectories.
… said Paul Delouche, Strategy, Acquisitions and Advanced Services Director, Bureau Veritas Marine & Offshore
Using a bottom-up model that accounts for the particularities of each shipping segment and ship types, the study calculates the resulting GHG emissions for the industry as a whole, providing realistic insight into what decarbonization could look like under different variables.
Furthermore, the research highlights the cumulative impact of immediate actions in keeping shipping within its GHG emissions “budget” to 2050, a concept which accounts for all emissions released into the atmosphere before reaching the carbon neutrality threshold.
The simulations show that under a “central progressive” scenario, which would see moderate growth in maritime transport and a large uptake of bio and synthetic fuels, implementing measures such as reducing speed and waiting times could reduce total GHG emitted in the atmosphere by 44% for the period between 2020 and 2050.
The BV study emphasizes that waiting for low-emission fuels and new propulsion technologies to mature will not be sufficient to keep shipping within its carbon budget without taking other immediate actions. In addition to reducing speed and waiting times, it identifies voyage optimization, weather routing, energy saving devices and wind assisted propulsion as practical solutions that the industry can implement today.
The report also highlights the potentially critical role of energy insetting to bridge the price gap between conventional and very-low carbon fuels, which are predicted to be significantly more costly than fossil fuels under all projections. With clear signals traveling all along the value chain, energy insetting could prove a promising pathway to stimulating the at-scale production of renewable and low-carbon fuels.