@article{kribs_shah_hutchins_reach_muncey_june_saveliev_lyons_2016, title={The stabilization of partially-premixed jet flames in the presence of high potential electric fields}, volume={84}, ISSN={["1873-5738"]}, DOI={10.1016/j.elstat.2016.08.002}, abstractNote={Numerous research efforts have focused on flame stabilization and emissions. Based on initial experiments, specific mechanisms resulting from DC electric fields were chosen to be investigated, namely the chemical, thermal, and ionization mechanisms. Numerical simulations were performed on premixed propane-ozone-air flames to characterize ozone effects on flame speed resulting from the formation of ozone in high potential electric fields. These results were compared against partially premixed flame experiments to observe the dominant influences within leading edge stabilization within high potential electric fields. It was found that the electromagnetic or ionization influences, serve as the dominant effect on the combustion zone.}, journal={JOURNAL OF ELECTROSTATICS}, author={Kribs, James D. and Shah, Parth V. and Hutchins, Andrew R. and Reach, William A. and Muncey, Richard D. and June, M. Sean and Saveliev, Alexei and Lyons, Kevin M.}, year={2016}, month={Dec}, pages={1–9} }
 @article{hutchins_kribs_lyons_2015, title={Effects of diluents on lifted turbulent methane and ethylene jet flames}, volume={137}, number={3}, journal={Journal of Energy Resources Technology}, author={Hutchins, A. R. and Kribs, J. D. and Lyons, K. M.}, year={2015} }
 @inproceedings{hutchins_kribs_muncey_lyons_2014, title={Assessment of stabilization mechanisms of confined, turbulent, lifted jet flames: Effects of ambient coflow}, booktitle={Proceedings of the ASME Power Conference, 2013, vol 1}, author={Hutchins, A. R. and Kribs, J. D. and Muncey, R. D. and Lyons, K. M.}, year={2014} }
 @article{hutchins_reach_kribs_lyons_2014, title={Effects of electric fields on stabilized lifted propane flames}, volume={136}, number={2}, journal={Journal of Energy Resources Technology}, author={Hutchins, A. R. and Reach, W. A. and Kribs, J. D. and Lyons, K. M.}, year={2014} }
 @inproceedings{kribs_hutchins_reach_hasan_lyons_2014, title={Effects of hydrogen enrichment on the reattachment and hysteresis of lifted methane flames}, booktitle={Proceedings of the ASME Power Conference, 2013, vol 1}, author={Kribs, J. D. and Hutchins, A. R. and Reach, W. A. and Hasan, T. S. and Lyons, K. M.}, year={2014} }
 @inproceedings{hutchins_kribs_muncey_reach_lyons_2014, title={Experimental observations of nitrogen diluted ethylene and methane jet flames}, booktitle={Proceedings of the ASME Summer Heat Transfer Conference - 2013, vol 2}, author={Hutchins, A. R. and Kribs, J. D. and Muncey, R. D. and Reach, W. A. and Lyons, K. M.}, year={2014} }
 @article{kribs_moore_hasan_lyons_2013, title={Nitrogen-diluted methane flames in the near-and far-field}, volume={135}, number={4}, journal={Journal of Energy Resources Technology}, author={Kribs, J. and Moore, N. and Hasan, T. and Lyons, K.}, year={2013} }
 @inproceedings{hasan_kribs_lyons_2012, title={Influences of nitrogen dilution in the near flow field of transition regime lifted natural gas jet flames}, booktitle={Proceedings of the ASME International Mechanical Engineering Congress and Exposition, 2011, vol 1}, author={Hasan, T. S. and Kribs, J. D. and Lyons, K. M.}, year={2012}, pages={907–912} }
 @inproceedings{kribs_hasan_lyons_2012, title={Nitrogen diluted jet flames in the presence of coflowing air}, booktitle={Proceedings of the ASME International Mechanical Engineering Congress and Exposition, 2011, vol 4, pts A and B}, author={Kribs, J. D. and Hasan, T. S. and Lyons, K. M.}, year={2012}, pages={1415–1421} }
 @article{moore_kribs_lyons_2011, title={Investigation of Jet-Flame Blowout with Lean-Limit Considerations}, volume={87}, ISSN={["1386-6184"]}, DOI={10.1007/s10494-011-9334-3}, number={4}, journal={FLOW TURBULENCE AND COMBUSTION}, author={Moore, Nancy J. and Kribs, James and Lyons, Kevin M.}, year={2011}, month={Dec}, pages={525–536} }
 @article{june_kribs_lyons_2011, title={Measuring efficiency of positive and negative ionic wind devices for comparison to fans and blowers}, volume={69}, ISSN={["1873-5738"]}, DOI={10.1016/j.elstat.2011.04.010}, abstractNote={Many industries are pursuing alternate air moving devices to reduce the power consumption of their air cooled products. The literature suggests that ionic AMDs have low efficiency. The literature, however, does not define efficiency the same way the computer industry defines it for rotary AMDs. In this study, static efficiency of ionic AMDs was evaluated similar to rotary AMDs. Various emitter to collector distances and various ring lengths, were evaluated for positive and negative coronas. By controlling emitter to collector distance and collector length, efficiencies were obtained more reasonably compared to rotary devices.}, number={4}, journal={JOURNAL OF ELECTROSTATICS}, author={June, Michael S. and Kribs, James and Lyons, Kevin M.}, year={2011}, month={Aug}, pages={345–350} }
 @article{june_kribs_lyons_2010, title={Efficiency of electrostatic air moving devices}, volume={68}, ISSN={["0304-3886"]}, DOI={10.1016/j.elstat.2010.06.001}, abstractNote={An ion-driven gas flow is characterized by the breakdown of a gas into ions in the presence of a high electric potential. Ions flow due to the potential gradient. Mass transfer motivates bulk airflow. In the current study, an ionic air moving device was constructed using needles as ion sources, and a ring as collector. Airflow and efficiency were evaluated at various ring widths and with various numbers of ionization sites. Efficiency was seen to increase with ring width if airflow and distance was held constant and also increased with the number of ionization sites when airflow was held constant.}, number={5}, journal={JOURNAL OF ELECTROSTATICS}, author={June, Michael S. and Kribs, James and Lyons, Kevin M.}, year={2010}, month={Oct}, pages={419–423} }