Fractionation and Exploitation of the Component Value of DDGS
Lead Research Organisation:
University College London
Department Name: Biochemical Engineering
Abstract
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Technical Summary
The large scale availability of DDGS from UK feed-wheat based bioethanol plants provides an opportunity to consider enhancing its value. DDGS is made by separating the residue of the wheat grain, post-fermentation (distillers grain) with a "solubles" syrup created by concentration of the "thin stillage" recovered post-distillation. We argue that the best place to add value is to extract material at the distillers grain stage. Furthermore, we maintain that extraction should be gentle enough to maintain the animal feed value of the protein in the residue, once combined with the "solubles". For reasons of practicality we will initially use a surrogate "distillers grain" by recovering the solids from DDGS, but through collaborations with Vivergo, may be able to access the real product as the project progresses.
The ultimate aim is to extract fat/oil using supercritical CO2, use the distillers grain in a second fermentation by hydrolysis and microbial metabolism of the non-starch carbohydrates and use some of the protein in biocatalytic upgrading to defined chemical products. In the first stage of the project, where we will be developing methods to extract fat/oil, release and hydrolyse the carbohydrate and selectively metabolise certain protein components, we will benchmark the suitability of the methods by the level of retention of the animal feed value of the residue. Not only do we intend to retain the feed value, but also investigate whether it can be enhanced for use with poultry, having removed the bulk of the fibre. We believe that there is scope for novelty in the use of explosive decompression in SCCO2 treatment, to open up the grain structure to enzyme action.
In the second part of the programme we will develop new metabolically versatile bacterial strains able to degrade most of the non-starch carbohydrate and convert it to 1-butanol, and selective proteolytic and tandem biocatalytic methods to convert part of the protein to value-added chemical products.
The ultimate aim is to extract fat/oil using supercritical CO2, use the distillers grain in a second fermentation by hydrolysis and microbial metabolism of the non-starch carbohydrates and use some of the protein in biocatalytic upgrading to defined chemical products. In the first stage of the project, where we will be developing methods to extract fat/oil, release and hydrolyse the carbohydrate and selectively metabolise certain protein components, we will benchmark the suitability of the methods by the level of retention of the animal feed value of the residue. Not only do we intend to retain the feed value, but also investigate whether it can be enhanced for use with poultry, having removed the bulk of the fibre. We believe that there is scope for novelty in the use of explosive decompression in SCCO2 treatment, to open up the grain structure to enzyme action.
In the second part of the programme we will develop new metabolically versatile bacterial strains able to degrade most of the non-starch carbohydrate and convert it to 1-butanol, and selective proteolytic and tandem biocatalytic methods to convert part of the protein to value-added chemical products.
Planned Impact
WHO WILL BENEFIT FROM THIS RESEARCH? This is a full proposal invited based on an outline submission to the IBTI club. As an industry club, the immediate beneficiaries will be the club members who have contributed to its foundation, some of whom have a direct interest in increasing the value of DDGS arising from first generation biofuel production while others have a broader interest in thermophilic bacteria and/or producing chemicals from renewables. In the longer term, if we can gain added value from DDGS such that the economics of first generation wheat to ethanol processes are improved, a second group of beneficiaries will be UK farmers who will gain a stable alternative market for their feed wheat. Given that we intend to produce additional products from the DDGS, including running a second fermentation, this will dramatically improve the greenhouse gas balance of a "wheat to ethanol + other products biorefinery". Through displacement of the use of fossil hydrocarbons for this purpose, the wider environmental benefit will help UK government reach its mandated targets and, more importantly, help reverse the trajectory of global warming which threatens social and economic disruption. In addition, the residual material that will be produced is likely to be of increased feed value for pigs and poultry compared with traditional DDGS because of its reduced fibre content. This will enhance its value as a protein supplement in pig and poultry diets and thereby reduce the reliance of the animal feed industry on imported soyabean meal. This will further increase the environmental benefit of UK-based wheat to ethanol production.
HOW WILL THEY BENEFIT? Industrial club members of IBTI will benefit via a number of routes. Firstly, club members have first refusal on the right to license an IP arising from the programme. Secondly, they will get the opportunity to see documents prepared for publication in advance of submission. In this way they will get a unique opportunity to secure any unforeseen IP contained in the work. Finally, by attending dissemination meetings (see below) they will gain access to early stage results in the research programme, which could assist their own research. This benefit could be realised within the next 5 years. UK farmers will benefit through market stabilisation and subsequent long term supply contracts, giving them the confidence to expand their activities, potentially in a 5-7 year timeframe. The global development of biorefineries which supplant fossil fuel usage and some imports, will ultimately benefit us all by reduction of net CO2 emissions. The timescale of this depends on other factors, outside of our control. PDRAs on the project will gain valuable experience on working on feedstocks in the context of a biorefinery and the interdisciplinary nature of the team.
WHAT WILL BE DONE TO ENSURE THAT THEY HAVE THE OPPORTUNITY TO BENEFIT? IBTI runs meetings at 6 monthly intervals where the results of IBTI funded research are presented under an agreement of confidentiality. This provides early access for IBTI club Industrial members to arising results. IBTI club members will also get sight of any documents planned for publication, 4 weeks prior to submission. We will also use the forum of IBTI meetings to explore the opportunity to add value to this work by internal collaboration with IBTI funded groups, and use our links in BSBEC to look for further synergies, given the overlap between biofuel production and chemicals from biomass. Any IP arising from work done within the programme will be secured by Imperial Innovations on behalf of the consortium members. Funding through IBTI will create a contractual obligation to offer licences to IBTI club companies in the first instance and, given their remit, Imperial Innovations will actively pursue the possibility of licensing the technology as rapidly as possible. The PI and CoIs all have experience of working with Industry (see Pt1A of the proposal).
HOW WILL THEY BENEFIT? Industrial club members of IBTI will benefit via a number of routes. Firstly, club members have first refusal on the right to license an IP arising from the programme. Secondly, they will get the opportunity to see documents prepared for publication in advance of submission. In this way they will get a unique opportunity to secure any unforeseen IP contained in the work. Finally, by attending dissemination meetings (see below) they will gain access to early stage results in the research programme, which could assist their own research. This benefit could be realised within the next 5 years. UK farmers will benefit through market stabilisation and subsequent long term supply contracts, giving them the confidence to expand their activities, potentially in a 5-7 year timeframe. The global development of biorefineries which supplant fossil fuel usage and some imports, will ultimately benefit us all by reduction of net CO2 emissions. The timescale of this depends on other factors, outside of our control. PDRAs on the project will gain valuable experience on working on feedstocks in the context of a biorefinery and the interdisciplinary nature of the team.
WHAT WILL BE DONE TO ENSURE THAT THEY HAVE THE OPPORTUNITY TO BENEFIT? IBTI runs meetings at 6 monthly intervals where the results of IBTI funded research are presented under an agreement of confidentiality. This provides early access for IBTI club Industrial members to arising results. IBTI club members will also get sight of any documents planned for publication, 4 weeks prior to submission. We will also use the forum of IBTI meetings to explore the opportunity to add value to this work by internal collaboration with IBTI funded groups, and use our links in BSBEC to look for further synergies, given the overlap between biofuel production and chemicals from biomass. Any IP arising from work done within the programme will be secured by Imperial Innovations on behalf of the consortium members. Funding through IBTI will create a contractual obligation to offer licences to IBTI club companies in the first instance and, given their remit, Imperial Innovations will actively pursue the possibility of licensing the technology as rapidly as possible. The PI and CoIs all have experience of working with Industry (see Pt1A of the proposal).
Publications
Conroy N
(2015)
Creation of an ultra scale-down bioreactor mimic for rapid development of lignocellulosic enzymatic hydrolysis processes.
in Journal of chemical technology and biotechnology (Oxford, Oxfordshire : 1986)
Flores-Fernández C
(2018)
Novel extremophilic proteases from Pseudomonas aeruginosa M211 and their application in the hydrolysis of dried distiller's grain with solubles
in Biotechnology Progress
Kostas E
(2020)
Microwave pyrolysis of olive pomace for bio-oil and bio-char production
in Chemical Engineering Journal
Villegas-Torres MF
(2015)
The protein fraction from wheat-based dried distiller's grain with solubles (DDGS): extraction and valorization.
in New biotechnology
Description | Research to date has demonstrated the principle of selective fractionation of DDGS into oil-rich, protein-rich and carbohydrate-rich streams. Methods have been developed for each and the optimum sequence determined. Initially oil can be extracted from the DDGS using supercritical carbon dioxide (University of Birmigham) leaving the residual DDGS largely unaltered due to the mild process conditions. This material can then be treated using either solvent-based or enzyme-based methods for the selective release of protein and peptide-rich fractions (UCL) that have potential application as food additives. Finally, the complex carbohydrates remaining in the processed DDGS can be hydrolysed and fermented into bioethanol (University of Bath) and the residual solids and proteins used as a small animal feed supplement (University of Reading). |
Exploitation Route | The findings will help establish ways to use the DDGS by-product of current UK wheat-based bioethanol facilities and ethanol distilleries. The ability of enzymes to aid DDGS processing and valorisation has been further explored in a related BBSRC Partnering Award (BB/M027864/1) the findings of which are reported elsewhere on Research Fish. This grant was also instrumental in leading to a collaboration with the University of Notingham on the pre-processing of olive pomice from Greek olive oil mills using microwave technology. This was published as Kostas et al (2019). |
Sectors | Agriculture, Food and Drink,Chemicals,Manufacturing, including Industrial Biotechology,Pharmaceuticals and Medical Biotechnology |
Description | Details of the integrated biorefinery concept being pursued and data on waste to value-added product conversions have been submitted to the House of Lords Science and Technology Committee inquiry into 'Waste opportunities: stimulating a bioeconomy 2013'. The findings have also led to a Proof of Concept award through the BBSRC Plants to Product NIBB to examine applying the methods developed here to spent Barley grain in collaboration with Molson Coors |
First Year Of Impact | 2016 |
Sector | Chemicals,Manufacturing, including Industrial Biotechology,Pharmaceuticals and Medical Biotechnology |
Impact Types | Policy & public services |
Description | House of Lords Science and Technology Committee |
Geographic Reach | National |
Policy Influence Type | Contribution to a national consultation/review |
Description | Future Biomanufacturing Research Hub |
Amount | £10,284,509 (GBP) |
Funding ID | EP/S01778X/1 |
Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
Sector | Public |
Country | United Kingdom |
Start | 03/2019 |
End | 03/2026 |
Description | Global Challenges Research Fund - Impact Acceleration Account |
Amount | £20,000 (GBP) |
Organisation | Biotechnology and Biological Sciences Research Council (BBSRC) |
Sector | Public |
Country | United Kingdom |
Start | 08/2016 |
End | 12/2016 |
Description | Global Challenges Research Fund - Impact Acceleration Account |
Amount | £20,000 (GBP) |
Organisation | Biotechnology and Biological Sciences Research Council (BBSRC) |
Sector | Public |
Country | United Kingdom |
Start | 08/2016 |
End | 12/2016 |
Description | Newton Fund International Links Award |
Amount | £207,000 (GBP) |
Organisation | British Council |
Sector | Charity/Non Profit |
Country | United Kingdom |
Start | 05/2016 |
End | 04/2018 |
Description | [16-FAPESP-BE] Lignin valorization in cellulosic ethanol plants: biocatalytic conversion via ferulic acid to high value chemicals |
Amount | £2,082,438 (GBP) |
Funding ID | BB/P01738X/1 |
Organisation | Biotechnology and Biological Sciences Research Council (BBSRC) |
Sector | Public |
Country | United Kingdom |
Start | 02/2017 |
End | 02/2022 |
Description | UNMSM: Universidad Nacional Mayor de San Marcos |
Organisation | Laboratory of Molecular Biology |
Country | Spain |
Sector | Academic/University |
PI Contribution | This collaboration is part of a BBSRC International Partnering Award. The aim is to jointly explore for novel extremozymes to be used for the breakdown and processing of renewable feedstocks in the UK and in Peru. |
Collaborator Contribution | Identification of extreme environments in which to take samples for biological / metagenomic analysis for enzyme identification. |
Impact | A number of organisms from extreme environments expressing novel proteases and pectinases have been identified. The DNA of these organisms has been isolated and has now been sent for high throughput sequencing. Results awaited. |
Start Year | 2015 |
Description | University of Campinas |
Organisation | State University of Campinas |
Country | Brazil |
Sector | Academic/University |
PI Contribution | Partner in research collaboration associated with BBSRC-FAPESP funded project on lignin valorisation in cellulosic ethanol plants. Advice on pretreatment methods and process economic modelling. |
Collaborator Contribution | Advice on feedstock/lignin compostion and pretreatment. |
Impact | Started in 2019. Outpus still to come but likely ot be collaborative paper. Also arranging PhD student excahnges between labs to add to their research training. |
Start Year | 2019 |