Academic Profile

Alessandro gained a First Degree cum laude in Mechanical Engineering in 2003 from the “University of Ancona” in Italy, after which he worked for two years at Lucci Collettori Spa (Ancona, Italy) where he supervised the design and production of commutators for electric motors.
In 2006 he worked for 6 months at Seagate Technology Inc. and he then began a PhD at Imperial College London in the Thermo-Fluids Division focussing on aerodynamic study of single and twin-entry mixed flow turbines under unsteady conditions. As a part of his research, he also studied heat transfer effects occurring in turbochargers.
After completing his PhD in 2010, Alessandro worked as Research Associate at Imperial College London. He acted as research co-investigator in projects looking at engine downsizing, waste heat recovery, and mild-hybridization of powertrain technology in passenger vehicles as well as in optimization and design of novel turbine concepts. He collaborates extensively with world leading OEMs in powertrain R&D (Jaguar and Land Rover, Lotus, Ford, CAT, MHI, Honda, ABB, etc.)
In 2013, he joined Nanyang Technological University as an Assistant Professor. His responsibilities include teaching undergraduate courses, run lab-tutorial, supervising PhD students and FYPs.
Alessandro’s research activity in NTU encompasses several aspects related to propulsion energy efficiency and waste heat recovery and. Examples of his current research include the study of waste heat recovery for ships propulsion (thermo-electric generation), hybrid propulsion systems and mild-hybridization of powertrain, turbomachinery design and optimization.
Besides his academic activity Alessandro has also worked for three years (2010-2013) as engineering consultant under ICON (Imperial College CONsultant).In 2012, he founded a UK-based engineering consultancy company (RhodoConsultants, www.rhodoconsultants.com ) offering design, test and advice on energy efficiency, turbomachinery and waste heat recovery systems.
Alessandro also acts as reviewer for several engineering journals (ASME, SAE, IMechE, Elsevier), collaborates as freelancer with the automotive magazine Torque (published in Singapore) and sits in the organizing committee of the Singapore International Energy Week.
a.romagnoli_1_2.JPG picture
Assoc Prof Alessandro Romagnoli
Co-Director
Associate Professor, School of Mechanical & Aerospace Engineering

Alessandro's research interests are:

- Waste heat recovery (Thermo-electric generation, Boosting technology and turbocharging, Organic ranking cycles)
- Battery thermal management
- Thermal energy storage
- Propulsion for UAVs
 
  • Active Solution For Sustainability

  • Future Of Construction And Underground

  • Geothermal-Driven Technologies for Passive Enabling of Urban Sustainability Solutions

  • Geothermal-Driven Technologies for Passive Enabling of Urban Sustainability Solutions (NTU PI: Alessandro Romagnoli)

  • Geothermal-Driven Technologies for Passive Enabling of Urban Sustainability Solutions (TUM CREATE PI: Tobias Massier)

  • Intelligent Urban Solutions

  • Overhead Recovery - SJ-NTU Corporate Lab

  • SJ-NTU Corporate Lab - Common Activities
 
  • Rigo-Mariani R., Ooi S., Mazzoni S., Romagnoli A. (2020). Comparison of Optimization Frameworks for the Design of a Multi-Energy Microgrid. Applied Energy , 257, 113982.

  • Mazzoni S., Ooi S., Nastasi B., Romagnoli, A. (2019). Energy storage technologies as techno-economic parameters for master-planning and optimal dispatch in smart multi energy systems. Applied Energy , 254, 113682.

  • J.Y. Sze, C. Mu, F. Ayachi, L. Yang, A. Romagnoli, B.K. Tay. (2018). Highly Efficient Nanofiller Based on Carboxylated Graphene Oxide in Phase Change Materials for Cold Thermal Energy Storage. Energy Procedia, 152, 198-203.

  • D.F. Dominković, K.A. Bin Abdul Rashid, A. Romagnoli, A.S. Pedersen, K.C. Leong, G. Krajačić, N. Duić. (2017). Potential of district cooling in hot and humid climates. Applied Energy, 208, 49 - 61.

  • N. Terdich, R. F.Martinez-Botas, A. Romagnoli, A. Pesiridis. (2014). Mild hybridization via electrification of the air system: Electrically assisted and variable geometry turbocharging impact on an off-road diesel engine. Journal of Engineering for Gas Turbines and Power, 136(3).