Steeper Energy and partners to establish biomass-based plant in Denmark

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20 September 2013, Nuclear, Solar, Wind

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Coming into effect on January 1, 2015, Sox Emission Control Areas (SECA) regions will reduce the permissible sulphur content in marine fuel to zero, forcing fleet operators to install flue gas cleaning equipment on board, or switch to a sulphur-free fuel. This corresponds to annual expenditure increases of several hundred million Euros.

According to CEO at the Port of Frederikshavn, Mikkel Seedorf Sorensen, the port could potentially serve an annual marine fuel market of at least 900,000 tons. "This will not only be significant for the future customers to the sustainable marine fuel, but will also create jobs and bring more traffic into the port," says Mikkel Sorensen. He emphasizes that the new fuel will be a drop-in fuel, able to mix into what may be in the tanks already."

The size of the plant is initially set at around 50-100,000 tons fuel annually. To produce this, some two to three times as much wood will be sourced. Aalborg University will carry out a longer term research efforts on mixing in locally sourced feedstocks to ensure product quality and operating conditions before implementing this in full scale.

"Although the project will be established on a single feedstock, the plant design will accommodate the results of the research at Aalborg University. By building a solid business case on wood, we can focus on establishing a well-functioning plant delivering a sustainable marine biofuel. Once this has been achieved, we can consider extending the input range as well as considering a wider product portfolio," says CTO of Steeper Energy, Steen B. Iversen.

With its lab-demonstrated flexibility and efficiency, the hydrothermal liquefaction technology is a good candidate for a resource efficient way of utilizing limited global biomass resource. "In the long term it will not only contribute to providing sustainable fuels to the transport sector, but also to production of valuable platform chemicals previously produced from fossil sources," says Lasse Rosendahl, a professor in the Institute of Energy Technology at Aalborg University.

Source: MarketLine

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