Name:	Professor P Lettieri
Organisation:	UCL
Department:	Chemical Engineering
Current EPSRC-Supported Research Topics:	Biomaterials Bioprocess Engineering Catalysis & Applied Catalysis Design Engineering Design of Process systems Fluid Dynamics Manufacturing Machine & Plant Materials Synthesis & Growth Multiphase Flow Reactor Engineering Waste Management Waste Minimisation

Current EPSRC Support

EP/Y003993/1 The Comfort Loop: A systems approach for sustainable absorbent hygiene products (C) EP/W019132/1 NOVEL SUSTAINABLE MANUFACTURING TECHNOLOGIES FOR EFFICIENT UTILISATION OF AGRICULTURAL WASTE STREAMS IN A CIRCULAR ECONOMY (C) EP/W019221/1 Nature-inspired bio-Syngas Technologies for Olefins Synthesis (C) EP/T000414/1 PREdictive Modelling with QuantIfication of UncERtainty for MultiphasE Systems (PREMIERE) (C)

Previous EPSRC Support

EP/V035630/1 2020 Core Equipment for UCL (C) EP/S024883/1 Designing-out Plastic Waste (C) EP/K014706/2 The UK Catalysis Hub (C) EP/N009533/1 Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals (C) EP/M015157/1 ADVANCED FLOW TECHNOLOGY FOR HEALTHCARE MATERIALS MANUFACTURING (C) EP/L018616/1 PACIFIC - Providing a Nuclear Fuel Cycle in the UK for Implementing Carbon Reductions (C) EP/K038656/1 Centre for Nature Inspired Engineering (CNIE): Addressing Challenges in Sustainability and Scalable Manufacturing (C) EP/K014706/1 The UK Catalysis Hub (C) GR/T05790/01 The 6th UK Particle Technology Forum (C) GR/S79626/01 Strategies and Technologies for Sustainable Urban Waste Management (C) GR/S26576/01 YAN-CE: Young Academics Network for Chemical Engineering (C) GR/R64896/01 Fluidization for Sustainable Development: A Fundamental Approach. (P)

Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator