Jane Read, an associate professor of geography in the Maxwell School, specializes in research relating to geospatial technologies. These can include geographic information systems along with remote sensing for aerial photography and drone imagery, all in the name of better understanding…
Milcarek Wins NSF Graduate Research Fellowship
Ryan Milcarek ’14, a mechanical and aerospace engineering Ph.D. student in the College of Engineering and Computer Science, has earned a prestigious graduate research fellowship from the National Science Foundation (NSF). The award will fund three years of his fuel cell and combustion research.
With the resources of Associate Professor Jeongmin Ahn’s Combustion and Energy Research (COMER) lab, Milcarek is seeking to reduce nitrogen oxides (NOx) formation in combustion processes using a recent innovation developed by Milcarek and Ahn. Their concept utilizes a two-stage combustor, also known as a rich-burn, quick-mix, lean-burn or RQL combustor, with a fuel cell integrated between the fuel-rich and fuel-lean combustion zones. This flame-assisted fuel cell, as it is called, generates electrochemical power at high efficiency, as well as heat for a range of applications, including combined cycles, space heating and jet engines. This concept builds on much of the work conducted in the COMER lab, which seeks to create cleaner combustion through the combined use of fuel cell and combustion theory and technology.
Ahn says, “To earn an NSF Fellowship is a truly remarkable accomplishment, and Ryan is deserving of such an honor. His commitment to learning and advancing the science of combustion continuously elevates the work that we do in the COMER lab.”
Milcarek’s NSF Fellowship will support his efforts to study NOx formation in the RQL combustor with and without the flame-assisted fuel cell. The formation of NOx has many adverse environmental and health effects, including smog, acid rain and respiratory problems. Thermal NOx, the primary NOx formation mechanism, can be reduced with the flame-assisted fuel cell concept. However, the formation of NOx in the RQL combustor is also subject to turbulence intensity, the boundary layer and combustion equivalence ratio, among other factors. Milcarek will study these formation mechanisms and seek to reduce the amount of NOx generated during combustion.
Using resources from Professor Jianshun Zhang’s Building Energy and Environmental Systems Laboratory, Milcarek will also conduct system modeling and analysis to better understand the potential of these flame-assisted fuel cells for enhancing the energy efficiency and resilience of building systems.
Broader impacts of research on society are an essential part of the NSF Graduate Research Fellowship program. Milcarek is seeking to fulfill that vision by helping high school students become more engaged in science, technology, engineering and math fields. In addition, he is seeking to establish greater collaborations on campus and with local industries to promote, spread awareness and develop technologies like the flame-assisted fuel cell.
On top of the NSF Fellowship, Milcarek was recently awarded a $10,000 Grant-in-Aid from the American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) and, as one of the top recipients of the grant, was named an ASHRAE “Life Member Club Grant Recipient.”
Chemical engineering alumnus Joshua Woods ’16 was also awarded a Graduate Research Fellowship from the NSF, and bioengineering alumna Alexis Peña ’16 earned an Honorable Mention.