Bioprocessing – (M.Phil.)

Contents

Our research is structured into four industry themes:
* Nanoparticulate, cell and tissue engineering
* Image analysis and micromechanical techniques
* Waste processing and bioremediation

Nanoparticulate, cell and tissue engineering is concerned with identification of strategies for the manufacture of nanoparticulate bioproducts, including viral gene therapy vectors, plasmids and supramolecular assemblies, and production of efficient and reproducible processes for gene therapy products.

Current work includes:
* Development of novel bioseparation routes
* Intensification of enzyme production by direct product separation from batch fermentations
* Development of animal cell culture processes for large-scale production of pharmaceuticals, particularly intensive systems with cell and product retention
* Control of cell proliferation and cell death (apoptosis)
* Development of flow cytometric methods for selection of high producers; monitoring performance and productivity of industrial-scale processes
* Tissue engineering of bone and cartilage tissue, and development of bio-artificial liver systems
* Improvement of packaging cell lines and production systems of viral vectors for gene therapy
* Brewing and environmental processing
* Scale-up and -down of bioprocesses using flow cytometry as a physiological probe

Image analysis and micromechanical techniques for characterising the behaviour of single cells have been pioneered here and are applied to key bioprocess engineering problems, such as:

* Determination of the effect of biomass and mycelial morphology on fermentation broth rheology
* Damage to mycelia in penicillin fermentation and development of structured models for control of penicillin fermentations
* Mechanical properties of cell walls in bioproducts
* Shear effects in aggregate formation and break-up, using both model and bacterial aggregates
* Cell-surface adhesion, biofouling and surface cleaning
* Determination of the mechanical properties of a wide range of microparticles, such as skin cells for human skin care applications,and vitamin granules and microspheres for food and pharmaceutical applications
* Probiotic formulations for preservation and targeted delivery
* Micro-encapsulation for pressure-sensitive materials, artificial organs, cell engineering and drug delivery
* Nanomanipulation under the Environmental Scanning Electron Microscope (ESEM)

Waste processing and bioremediation is concerned with the development of clean-up technologies at the theoretical and practical level. Many projects are collaborative with the School of Biosciences (on wastewater treatment and metals recovery) and the Centre for Environmental Research and Training (CERT).

Topics include:
* A patented process for precious metal recovery from catalysts
* Adsorption of reactive dyes for wastewater treatment
* Wastewater treatment by supercritical water oxidation
* Bioremediation of food and agricultural wastes
* Bioreactors for dairy water treatment
* Control of thermophilic aerobic waste treatments
* Oxidation and photocatalytic techniques for aqueous media