A systems approach to enable high-throughput analysis of integrated waste biorefineries with industrial and municipal feedstocks.
Theses Status
Type: Any – Dissertations – Doctoral (PhD)
A superstructure approach to enable process integration and novel equipment design of biorefinery processes.
Design of Integrated Algae Biorefineries Units.
Methodology of rapid Evaluation of CAPEX and OPEX of techno-logies under development. Integration of a prelimilnary LCA tool, and of an objective function for most appropriate site locations identifications.
Integration of industrial and municipal waste to biorenewables and bioenergy flows
Modeling and synthesis of the future biorefinery: an integrated systems approach to enhance the purification of C5 and C6 using organosolv technology and heterogeneous mixtures of lignocellulosic and seaweed feedstocks.
Design of Integrated Biorefineries.
Model-assisted and group contribution methods for the Life Cycle Analysis of biorenewables and biorefineries
Integrated Computational Systems of Synthesis, Redesign and Utilization of Biomass.
Semantically-enabled optimization for the process synthesis of chemical reactors, 2009 (Jacobs Engineering, UK)
Cascade optimization algorithms for distributed computing, 2009 (Assistant Professor, South China University of Technology, China)
Design and control of high-throughput synthesis and optimization experiments using grids and distributed computing architectures, 2009 (Project Manager, China HuanQiu Contracting & Engineering Corp. (HQCEC), China)
Optimal design and operation of oil exploration platforms, 2008 (Managing Director, EnergOil Consulting Ltd, UK)
High throughput experimentation for chemical reactor design, 2007 (Jacobs Engineering, UK)
Dynamic agent-enabled management of project development and engineering. 2005 (Research Associate, UCL)