The focus of the Energy Systems Lab is the analysis, design and optimization of multi-scale energy systems. This research relies on a solid basis of thermofluids modeling, augmented by a small experimental verification program. To date, the lab has focused on topics such as:
- the multiphase, multicomponent lattice Boltzmann method,
- cogeneration system heat and mass transfer modeling,
- fluid and heat transfer properties of two-phase binary zeotropic flow in microchannels,
- increased efficiency in energy conversion and utilization,
- design and characterization of thermoacoustic Stirling engines, and
- alternative renewable energy technologies.
This research has received funding from organizations such as NSF, AFOSR, ASHRAE, DOE, and NCIIA. Some examples of the peer-reviewed grants received by the laboratory include:
- A Deeper Understanding of Small-Scale Phenomena in Heat Pipes through a Higher Order Lattice Boltzmann Method, PI, NSF: CBET, 2012-2015.
- EFRI-SEED: BUILD – Barriers, Understanding, Integration – Life Cycle Development, Co-PI, NSF: EFRI, 2010-2014.
- Environmentally Sound: Thermoacoustic Refrigeration, PI, NSF: CTS, 2007-2011.
- Sustainable Design, Senior Personnel, NSF: REU Site, 2007-2010.
- Development of an Inter-Disciplinary Fellowship Program in Sustainable Engineering, PI, US DOE: GAANN, 2006-2011.
- University of Pittsburgh Engineering Sustainability Program (UPESP), PI, NSF: Integrative Graduate Education and Research Traineeship Program (IGERT), 2005-2012.
- Microfabricated Thermoacoustic Refrigerators for Electronics Cooling Applications, Co-PI, NSF: ECS, 2005-2007.
- CAREER: Microscale Two-Phase Zeotropic Flow in Energy Systems, PI, NSF: CTS, 2003-2008.
- Seamless Integration of Information Devices: A Focus on Emerging Technologies in New Product Development, Co-PI, NSF: Combined Research-Curriculum Development, 2002-2005.