|
| Name: |
Professor CS Adjiman |
| Organisation: |
Imperial College London |
| Department: |
Chemical Engineering |
| Current EPSRC-Supported Research
Topics: |
|
Artificial Intelligence
|
Biological & Medicinal Chem.
|
|
Carbon Capture & Storage
|
Chemical Biology
|
|
Complex fluids & soft solids
|
Control Engineering
|
|
Design & Testing Technology
|
Design Engineering
|
|
Design of Process systems
|
Drug Formulation & Delivery
|
|
Manufact. Enterprise Ops& Mgmt
|
Manufacturing Machine & Plant
|
|
Particle Technology
|
|
|
| Current EPSRC Support |
| EP/Z532964/1 | EPSRC MediForge Hub: Industry 5.0 Medicines Manufacturing Research Hub | (C) |
| EP/Y035593/1 | EPSRC Centre for Doctoral Training in Cyber-physical systems for Medicines Development and Manufacturing (CEDAR) | (C) |
| EP/Y005732/1 | Enabling CO2 capture and storage using AI | (C) |
| EP/W01923X/1 | Computer aided solvent design to minimise solvent use in integrated synthesis, purification & isolation for sustainable pharmaceutical manufacturing | (C) |
| EP/W003317/1 | ADOPT - Advancing optimisation technologies through international collaboration | (C) |
| EP/V056891/1 | ANTENNA - Advanced tools for predictive cleaning in a world of resource scarcity | (C) |
| EP/T518207/1 | Prosperity Partnership Call 3 Strategic Students-Eli Lilly and Imperial College London | (P) |
| EP/T005556/1 | Transforming synthetic drug manufacturing: novel processes, methods and tools | (P) |
|
| Previous EPSRC Support |
| EP/P006965/1 | Future Continuous Manufacturing and Advanced Crystallisation Research Hub | (C) |
| EP/M001458/2 | Process Intensification for Post-combustion Carbon Capture using Rotating Packed Bed through Systems Engineering Techniques | (C) |
| EP/M001458/1 | Process Intensification for Post-combustion Carbon Capture using Rotating Packed Bed through Systems Engineering Techniques | (C) |
| EP/K504099/1 | Computer-Aided Design of Sustainable Separations: CADSep | (P) |
| EP/J014958/1 | Molecular Systems Engineering of High-Value Structured and Formulated Products | (C) |
| EP/J020788/1 | Gas-FACTS: Gas - Future Advanced Capture Technology Options - Consortium proposal by Cranfield, Edinburgh, Imperial, Leeds and Sheffield | (C) |
| EP/J003840/1 | The molecular frontier: extending the boundaries of process design | (P) |
| EP/G062129/1 | Innovative Gas Separations for Carbon Capture | (C) |
| EP/G030995/1 | Supergen Fuel Cell Consortium - Fuel cells - Powering a Greener Future - CORE | (C) |
| EP/C522788/2 | PLATFORM: Decentralised polygeneration of energy: Cross-disciplinary research at Imperial College London | (C) |
| EP/E016340/1 | Molecular Systems Engineering: From Generic Tools to Industrial applications | (C) |
| EP/E001041/1 | A Computational Approach to Solvent Selection for Tandem Reactions: A Tool for Process Intensification | (P) |
| EP/C522788/1 | PLATFORM: Decentralised polygeneration of energy: Cross-disciplinary research at Imperial College London | (C) |
| GR/T17595/01 | Demonstration of the commercial potential of advanced molecular thermodynamics software | (P) |
| GR/R52312/01 | Global Optimisation: From Theoretical Foundations to Engineering Tool. | (C) |
| GR/N35991/01 | AN INTEGRATED METHODOLGY FOR ADVANCED THERMODYNAMICS IN PROCESS MODELLING | (P) |
| GR/N08636/01 | NEXT-GENERATION PROCESS MODELLING TECHNOLOGY | (C) |
| GR/N02269/01 | A NEW QUANTITATIVE TOOL FOR SAFETY ANALYSIS | (P) |
|
|
Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator
|
| |
|
|
|
|