Developing enhanced production and separation techniques for glycolipid biosurfactants
Lead Research Organisation:
University of Manchester
Department Name: Chem Eng and Analytical Science
Abstract
Glycolipid biosurfactants are naturally occurring amphiphiles with a range of unique properties including biodegradability and tolerance of a wide range of temperature and pH. These properties
have facilitated the commercialisation of these biosurfactants by a number of companies in recent years, in a range of cleaning and personal care products.
There is significant interest in molecules produced from industrial biotechnology routes and using biosurfactants such as sophorolipids as bulk chemicals, in particular for bioremediation and
enhanced oil recovery, though the current cost of production is currently prohibitive. This is in part because of the requirement for feeding large quantities of substrate, meaning there is a requirement
for significant unused bioreactor volume at the beginning of the fermentation, and the high viscosity of the sophorolipid phase, which accumulates in the bioreactor over time inhibiting oxygen mass
transfer to the cells.
We have developed a novel gravity separation process1 to separate the sophorolipid product as it is produced and remove it from the bioreactor, reducing the bioreactor volume requirement and
thereby enhancing productivity and fermentation product titre, and are working to exploit this technology commercially. These commercialisation activities have been recognised by a BBSRC
Innovator of the Year Early Career Award.This PhD project will aim to further enhance fermentation and separation techniques for glycolipid biosurfactants, potentially facilitating further decreases in production costs.
The project will build on current funded work with industrial collaborators to develop a controllable, scalable integrated bioprocess.
1Dolman, BD et al. 2017, Process Biochemistry, 54(162-171)
have facilitated the commercialisation of these biosurfactants by a number of companies in recent years, in a range of cleaning and personal care products.
There is significant interest in molecules produced from industrial biotechnology routes and using biosurfactants such as sophorolipids as bulk chemicals, in particular for bioremediation and
enhanced oil recovery, though the current cost of production is currently prohibitive. This is in part because of the requirement for feeding large quantities of substrate, meaning there is a requirement
for significant unused bioreactor volume at the beginning of the fermentation, and the high viscosity of the sophorolipid phase, which accumulates in the bioreactor over time inhibiting oxygen mass
transfer to the cells.
We have developed a novel gravity separation process1 to separate the sophorolipid product as it is produced and remove it from the bioreactor, reducing the bioreactor volume requirement and
thereby enhancing productivity and fermentation product titre, and are working to exploit this technology commercially. These commercialisation activities have been recognised by a BBSRC
Innovator of the Year Early Career Award.This PhD project will aim to further enhance fermentation and separation techniques for glycolipid biosurfactants, potentially facilitating further decreases in production costs.
The project will build on current funded work with industrial collaborators to develop a controllable, scalable integrated bioprocess.
1Dolman, BD et al. 2017, Process Biochemistry, 54(162-171)
Organisations
People |
ORCID iD |
James Winterburn (Primary Supervisor) | |
Benjamin Ingham (Student) |
Studentship Projects
Project Reference | Relationship | Related To | Start | End | Student Name |
---|---|---|---|---|---|
BB/T008725/1 | 01/10/2020 | 30/09/2028 | |||
2442425 | Studentship | BB/T008725/1 | 01/10/2020 | 30/09/2024 | Benjamin Ingham |