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Projects


Projects: Projects for Investigator
Name:   Professor N ( Nilay ) Shah
Organisation:   Imperial College London
Department:   Chemical Engineering
 
EP/K036734/1 P Bioenergy value chains: Whole systems analysis and optimisation
EP/W027348/1 P DEMSIS: Digital energy management services in supermarket buildings via cloud-based solutions
EP/V042432/1 P Digital Circular Electrochemical Economy (DCEE)
EP/K035274/1 P Nano-structured Catalysts for CO2 Transformation to Fuels and Products
NE/C516279/1 O A whole-system approach to analysing bioenergy demand and supply: mobilising the long-term potential of bioenergy TSEC-BIOSYS.
EP/W033356/1 O Anion exchange membrane water electrolysis for low-cost green hydrogen production (AEM-H2)
EP/K014897/1 O Bio-derived Feedstocks for Sustainable, UK-Based Manufacture of Chemicals and Pharmaceutical Intermediates
EP/W031019/1 O Bio-derived and Bio-inspired Advanced Materials for Sustainable Industries (VALUED)
EP/N024567/1 O CCS from Industrial clusters and their Supply chains (CCSInSupply)
EP/N024567/2 O CCS from Industrial clusters and their Supply chains (CCSInSupply)
EP/K014749/1 O Catalytic Routes to Intermediates for Sustainable Processes
EP/I038837/1 O Digital City Exchange
EP/P004709/1 O Energy-Use Minimisation via High Performance Heat-Power-Cooling Conversion and Integration: A Holistic Molecules to Technologies to Systems Approach
BB/I00534X/1 O Evaluation of consolidated bioprocessing as a strategy for production of fuels and chemicals from lignocellulose
EP/K038648/1 O Frontier Manufacturing: Scaling up synthetic biology
EP/L02442X/1 O Future-proofing facilities management (Future FM )
EP/J016454/1 O Hydrogen and Fuel Cell Supergen Hub
EP/P024807/1 O Hydrogen and Fuel Cells Hub Extension (H2FC SUPERGEN)
EP/V027050/1 O Industrial Decarbonisation Research and Innovation Centre (IDRIC)
EP/R045518/1 O Integrated Development of Low-Carbon Energy Systems (IDLES): A Whole-System Paradigm for Creating a National Strategy
EP/K014676/1 O Ionic Liquid Biorefining of Lignocellulose to Sustainable Polymers
NE/H01392X/1 O Multiscale whole systems modelling and analysis for CO2 capture, transport and storage
EP/W019221/1 O Nature-inspired bio-Syngas Technologies for Olefins Synthesis
EP/C522788/1 O PLATFORM: Decentralised polygeneration of energy: Cross-disciplinary research at Imperial College London
EP/C522788/2 O PLATFORM: Decentralised polygeneration of energy: Cross-disciplinary research at Imperial College London
EP/M001458/1 O Process Intensification for Post-combustion Carbon Capture using Rotating Packed Bed through Systems Engineering Techniques
EP/M001458/2 O Process Intensification for Post-combustion Carbon Capture using Rotating Packed Bed through Systems Engineering Techniques
EP/P004504/1 O Reduced Energy Recycling of Lead Acid Batteries (RELAB)
EP/L017393/1 O Sustainable polymers
EP/S016627/1 O The Active Building Centre
EP/V012053/1 O The Active Building Centre Research Programme (ABC RP)
EP/P026214/1 O UK Carbon Capture and Storage Research Centre 2017 (UKCCSRC 2017)
EP/K000446/1 O UKCCSRC - The United Kingdom Carbon Capture and Storage Research Centre
EP/K000446/2 O UKCCSRC - The United Kingdom Carbon Capture and Storage Research Centre
EP/K039326/1 O Whole Systems Energy Modelling Consortium (WholeSEM)
P: Principal Investigator    O: Other Investigator    R: Recognised Researcher    I: Industrial Collaborator   
Project List Summary
for Professor N ( Nilay ) Shah
Funded Started Completed Total £ Value   Total Project
£ Value
  
0 5 30 35 4,064,287   146,433,626