Avantium & Roelofs construct first test road with Dutch lignin
Infrastructure company Roelofs has begun construction of the first test road made from bio-asphalt with lignin produced in the Netherlands by renewable chemistry company Avantium. Plant-based lignin is used as a substitute for bitumen in asphalt, which is derived from crude oil.
In collaboration with the province of Groningen, the 250-metre-long lignin-based test section will be constructed in the north of the Netherlands, on the N987 between Siddeburen and Wagenborgen. This test road is part of the Collaboration in aspHalt Applications with LIgniN (CHAPLIN XL) project, a collaboration of industrial and academic parties aiming to demonstrate that lignin works effectively at scale as a bitumen replacement and leads to a significant reduction in road construction CO2 emissions.
Also read: Pulp & paper waste could be used in road construction
Avantium develops and commercialises innovative technologies for the production of plant-based chemicals and materials. In its Dawn pilot biorefinery in Delfzijl, Netherlands, Avantium converts woody feedstock into industrial sugars and lignin. Lignin can be used for energy generation but is also suitable for many higher-value applications such as bio-asphalt. In total, about 1,000 kg of Avantium lignin was added to the asphalt to replace a portion of the bitumen used in the production of the top layer of the test section on the N987.
Annelie Jongerius, a senior scientist at Avantium responsible for the valorisation of lignin, comments: “We are excited to showcase the potential of our lignin for the production of bio-asphalt. It is a great example of realising Avantium’s mission to replace fossil-based chemicals and materials with renewable alternatives.”
The asphalt producing partners of CHAPLIN XL have improved the process to produce bio-asphalt at conventional asphalt plants, allowing for the scale-up of the lignin-based asphalt technology. Avantium closely collaborates with Roelofs, who has the ambition to transition to bio-asphalt. Roelofs will also construct a second test section on the N987 with conventional Kraft lignin from a Finnish paper mill. Gerard Hoiting, managing director at Roelofs, is pleased with the collaboration: "As a company we have the ambition to be climate neutral in 2030. Not only internally, but also with clients and partners we look for innovations and concrete applications and inspire each other towards a better world. This collaboration is a great example of this."
The CHAPLIN XL partners will extensively analyse the lignin-based test road on performance, on techno-economic feasibility as well as on environmental benefits through a Life Cycle Assessment. Preliminary results indicate that lignin-based asphalt allows for a substantial reduction of the carbon footprint compared to its fossil-based counterpart.
Also read: Montenegro looks to Serbia for joint funding of highway project
Martin Junginger, professor of Biobased Economy at Utrecht University and project coordinator of CHAPLIN XL, commented: "For the wide application of lignin in road construction in the future, it is necessary for road constructors to be able to provide financial, technical and environmental validation of bio-asphalt in tenders. We also notice that there is high international interest from road constructors for our test results.”
The production of the bio-asphalt will also take place in Groningen, at Asfalt Production Westerbroek (APW) in Westerbroek. The Chemport Europe ecosystem in the northern Netherlands is known as a leader in green chemistry and in reducing CO2 emissions.
IJzebrand Rijzebol, member of the Provincial Executive for Groningen, said: “The northern region of the Netherlands has high ambitions to move away from fossil resources and to transition to a circular economy also based on regionally available resources such as sugar and wood residues. The CHAPLIN XL partners share this ambition and the bio-asphalt test road, therefore, fits well with our goals.”
Back to Homepage
Back to Construction & Engineering