SteamBio | Flexible Superheated Steam Torrefaction and Grinding of Indigenous Biomass from Remote Rural Sources to Produce Stable Densified Feedstocks for Chemical and Energy Applications

Summary
"The objective of SteamBio is to demonstrate a mobile processing concept that will enable efficient pre-treatment of agro-forestry residues for use as flexible feedstocks in chemical and process industries. These ligno-cellulosic materials originated from rural locations will be upgraded and densified into uniform sizes at source, allowing cost-effective transportation to existing industrial sites. The core enabling technology is superheated steam processing (SHS). SHS has been implemented in diverse drying applications at industrial scales, due to its superior heat transfer properties. At pilot scales, SHS has been proven to torrefy biomass at temperatures up to 300°C with minimal ligno-cellulose breakdown. Unlike conventional torrefaction techniques, which use flue gases as heating medium, it does not contaminate the torrefied biomass and volatile fractions, allowing economic recovery of chemicals. Moreover, it is also readily scalable for continuous operation. In SteamBio, a transportable demonstrator unit will be operated at five different rural locations where it will be used to torrefy tonnage quantities of six different agro-forestry residues at a throughput of 500 kg/h. The demonstrator unit will be operated at these rural locations throughout the last twelve months of the project to allow for seasonal fluctuations in the composition of the materials being valorised. The torrefied biomass fractions (solid and liberated volatiles) will then be validated as green building blocks in commercially relevant chemical production and in bioenergy use. Life cycle experts will validate that SteamBio will have positive environmental impacts. A robust business strategy will be developed to enable the results to cross the ""valley of death"" post-project and to ensure widespread market replication. Project delivery will be achieved by an interdisciplinary team from research and from the entire industrial and commercial supply chain from fields through to factories."
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/636865
Start date: 01-02-2015
End date: 31-07-2018
Total budget - Public funding: 6 979 982,05 Euro - 5 829 783,00 Euro
Cordis data

Original description

"The objective of SteamBio is to demonstrate a mobile processing concept that will enable efficient pre-treatment of agro-forestry residues for use as flexible feedstocks in chemical and process industries. These ligno-cellulosic materials originated from rural locations will be upgraded and densified into uniform sizes at source, allowing cost-effective transportation to existing industrial sites. The core enabling technology is superheated steam processing (SHS). SHS has been implemented in diverse drying applications at industrial scales, due to its superior heat transfer properties. At pilot scales, SHS has been proven to torrefy biomass at temperatures up to 300°C with minimal ligno-cellulose breakdown. Unlike conventional torrefaction techniques, which use flue gases as heating medium, it does not contaminate the torrefied biomass and volatile fractions, allowing economic recovery of chemicals. Moreover, it is also readily scalable for continuous operation. In SteamBio, a transportable demonstrator unit will be operated at five different rural locations where it will be used to torrefy tonnage quantities of six different agro-forestry residues at a throughput of 500 kg/h. The demonstrator unit will be operated at these rural locations throughout the last twelve months of the project to allow for seasonal fluctuations in the composition of the materials being valorised. The torrefied biomass fractions (solid and liberated volatiles) will then be validated as green building blocks in commercially relevant chemical production and in bioenergy use. Life cycle experts will validate that SteamBio will have positive environmental impacts. A robust business strategy will be developed to enable the results to cross the ""valley of death"" post-project and to ensure widespread market replication. Project delivery will be achieved by an interdisciplinary team from research and from the entire industrial and commercial supply chain from fields through to factories."

Status

CLOSED

Call topic

SPIRE-02-2014

Update Date

27-10-2022
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Horizon 2020
H2020-EU.2. INDUSTRIAL LEADERSHIP
H2020-EU.2.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies
H2020-EU.2.1.5. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Advanced manufacturing and processing
H2020-EU.2.1.5.3. Sustainable, resource-efficient and low-carbon technologies in energy-intensive process industries
H2020-SPIRE-2014
SPIRE-02-2014 Adaptable industrial processes allowing the use of renewables as flexible feedstock for chemical and energy applications