Abstrakti
Research objective: Design and development of Hydrothermal treatment pathways for the sustainable produrction of lignucelluslose derived fuels and value-added products that both reduce direct GHG emissions and display fossil based carbon footprints in existing industrial and transport infrastructures.
Continuation
Lower liquid bio-fuel yields from non-catalytic HTL could be thermally offset with by-product valorisation as well as with efficient recovery of the HTL waste heat.
Process economics are strongly dependent on the market prices of the energy co-products (H2, power, heat).
Techno-economic performance could improve either by HTL integration with low cost residues in existing industrial production lines or by downstream upgrading to high-grade bio-chemicals.
Integrated application of HTT treatment for liquid effluents (e.g. black liquor, digestate etc.) for energy and material recovery.
Continuation
Lower liquid bio-fuel yields from non-catalytic HTL could be thermally offset with by-product valorisation as well as with efficient recovery of the HTL waste heat.
Process economics are strongly dependent on the market prices of the energy co-products (H2, power, heat).
Techno-economic performance could improve either by HTL integration with low cost residues in existing industrial production lines or by downstream upgrading to high-grade bio-chemicals.
Integrated application of HTT treatment for liquid effluents (e.g. black liquor, digestate etc.) for energy and material recovery.
Alkuperäiskieli | Englanti |
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Sivut | 300-302 |
Sivumäärä | 2 |
Tila | Julkaistu - 12 syysk. 2017 |
Tapahtuma | HTP-Fachforum - Leipzig, Saksa Kesto: 12 syysk. 2017 → 13 syysk. 2017 Konferenssinumero: 3 |
Conference
Conference | HTP-Fachforum |
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Maa/Alue | Saksa |
Kaupunki | Leipzig |
Ajanjakso | 12/09/2017 → 13/09/2017 |
Muu | Biobasierte hydrothermale Prozesse – Technologien zur stofflichen und energetischen Nutzung |