Research project at Celignis


"Sequential Temperature-phased Enhanced Anaerobic digestion using Microbes and Enzymes"

Period2019 - 2022
STEAME is aimed at developing a cost-effective technology for the efficient conversion of farm-animal waste and surplus grass silage to biogas. Key innovations are developed in the areas of: pre-treatment; thermophilic semi-dry anaerobic digestion; and microbial and enzyme applications. These are expected to improve the economics of farm-based AD systems thorough increased biogas yields; avoidance of slurry storage; and production of stable class-A biosolids as a value-added product for agricultural land applications.

STEAME BMP testing

Other Celignis Research Projects

Current Projects

Enxylascope aims at bioprospecting and producing a novel set of xylan debranching enzymes, thereby demonstrating its ability to make xylan a key ingredient in a variety of consumer products. Celignis is playing a key role, being the technical lead and responsible for the extraction and modification of xylan from biomass. Further info...PERFECOAT, a RIA project funded by the BBI JU, targets the development of novel sustainable coatings that will ultimately be available to the public. Celignis is responsible for the extraction and modification of polymers (xylan and chitosan) that will be used as binders in these coatings. Further info...The UNRAVEL project (UNique Refinery Approach to Valorise European Lignocellulosics) is focused on the optimsiation of a biomass pre-treatment technology. Celignis plays a key role by analysing and evaluating the extractives present in a wide variety of feedstocks and determining how they influence pre-treatment. Further info...VAMOS concerns the construction and operation of a demonstration-scale biorefinery producing lactic acid from the paper fraction of municipal waste. In the project Celignis will develop custom NIR models for the rapid at-line on-site analysis of the feedstock and process outputs. Further info...This demo project involves innovative superheated steam processing of unwanted bush and invasive biomass into high-value, clean-burning, low-cost solid biofuel. Celignis will analyse feedstocks, and process outputs, and use our QTOF-LC/MS system to profile the steam condensate for high value chemicals. We will then develop a method to recover target constituents. Further info...BIO4AFRICA will empower smallholder farmers by creating value from locally available biomass. Celignis is analysing a wide range of biomass feedstocks, from a number of African countries, and providing recommendations regarding the most suitable ones, under the best conditions, for the given processing technology. We also analyse the outputs of the various processes. Further info...

Completed Projects

DIBANET was an FP7 research project, written and coordinated by Celignis founder Dan Hayes, that concerned the production of second generation biofuels from biomass feedstocks in Europe and Latin America. The advances in the state of the art of biomass analysis made in DIBANET led to the formation of Celignis. Further info...The BIOrescue project was focused on developing technologies to convert spent mushroom compost, a problematic waste of the mushroom industry, to high value products. Within the project Celignis undertook a compositional profiling study of the feedstocks and developed rapid analysis models for these and process outputs. Further info...The focus of ENABLING was on supporting the spreading of best practices and innovation in the provision of biomass for the Bio-Based Industry (BBI). Celignis played a key role in the project with regards to stressing the importance of biomass composition in terms of evaluating feedstock and technology suitability. Further info...Celignis was the sole partner in SAPHIRE. The project, funded by the European Union's INNOSUP programme, concerned the production of high-value hydrogels from lignocellulosic residues. These are expected to have applications in the cosmetic and pharmaceutical sectors. Further info...This was a Marie-Curie Individual Fellowship (MCSA-IF) involving Celignis's Lalitha in which algae were used to recover nutrients from anaerobic digestion (AD) process streams. Further info...