Publications
Academic article
- Dag Helge Hermundsgård; Solmaz Ghoreishi; Mihaela Tanase-Opedal et al. (2024). Maximizing yields of furfural and 5-hydroxymethylfurfural in side streams from steam explosion of lignocellulosic residues. (external link)
- Solmaz Ghoreishi; Tanja Barth; Dag Helge Hermundsgård (2019). Effect of Reaction Conditions on Catalytic and Noncatalytic Lignin Solvolysis in Water Media Investigated for a 5 L Reactor. (external link)
- Solmaz Ghoreishi; Camilla Løhre; Dag Helge Hermundsgård et al. (2022). Identification and quantification of valuable platform chemicals in aqueous product streams from a preliminary study of a large pilot-scale steam explosion of woody biomass using quantitative nuclear magnetic resonance spectroscopy. (external link)
- Dag Helge Hermundsgård; Solmaz Ghoreishi; Mihaela Tanase Opedal et al. (2022). Investigating solids present in the aqueous stream during STEX condensate upgrading—a case study. (external link)
- Mihaela Tanase-Opedal; Solmaz Ghoreishi; Dag Helge Hermundsgård et al. (2024). Steam explosion of lignocellulosic residues for co-production of value-added chemicals and high-quality pellets. (external link)
Conference lecture
- Dag Helge Hermundsgård; Mihaela Tanase-Opedal; Solmaz Ghoreishi et al. (2023). Examination of pretreatment variables for co-production of black pellets and valuable platform chemicals. (external link)
- Solmaz Ghoreishi; Dag Helge Hermundsgård; Tanja Barth (2019). The Effect of Temperature on Yields, Oil Quality and Composition in Catalytic and Non-Catalytic Lignin Solvolysis with Formic Acid in 5-L Scale. (external link)
- Margarita Smirnova; Boris Zimmermann; Mihaela Tanse-Opedal et al. (2025). Valorization of lignocellulose side-streams containing 5-(hydroxymethyl)furfural (HMF) and furfural into oils for industrial use via oleaginous yeasts. (external link)
- Solmaz Ghoreishi; Dag Helge Hermundsgård; Camilla Løhre et al. (2021). Quantitative NMR analysis of the aqueous product streams from large pilot-scale steam explosion revealing high value-added platform chemicals. (external link)