[136] Gao Y., Paul J.E., Chen M., Seth A., Liu Q., Hong L., Chamorro L.P., Ewoldt R.H., Sottos N.R. and Geubelle P.H. “Fluid convection driven by surface tension during free-surface frontal polymerization.” Mech Mater, 104987, 2024.
[135] Cheng S. Neary V.S. ✉, Chamorro L.P. ✉ “On detrending stream velocity time series for robust tidal flow turbulence characterization.” Ocean Eng, doi.org/10.1016/j.oceaneng.2024.117427, 2024.
[134] Kim J-T., Yoon H.J., Cheng S., Liu F., Kang S., Paudel S., Cho D., Luan H., Lee M., Jeong G., Park J., Huang Y.T., Lee S.E., Cho M., Lee G., Han M., Kim B.H., Yan J., Park. ✉, Jung S. ✉, Chamorro L.P. ✉, Rogers J.A. ✉ “Functional Bio-inspired Hybrid Fliers with Separated Ring and Leading Edge Vortices.” PNAS Nexus, doi.org/10.1093/pnasnexus/pgae110, 2024.
[133] Unnikrishnan A., Narayanan V., Chamorro L.P., and Vanka S. “Taylor-Couette flow and heat transfer in an elliptical enclosure with a rotating inner cylinder.” Phys Fluids, doi.org/10.1063/5.0190826, 2024.
[132] Kim J-T., and Chamorro L.P. “Coupled mechanics in skin-interfaced electronics via computer vision methods.” Soft Science, doi: 10.20517/ss.2023.50, 2024.
[131] Riaz A., Mehmood K., and Chamorro L.P. ” Exploring Pressure, Temperature, and Flow Patterns in Ciliated Microfluidic Systems.” Phys Fluids, 36, 012015, 2024.
[130] Nguyen D., Kesler R.M., Cheng S., Chamorro L.P., Vega S. and Masoud F. “On the fire hose kickback force in solid water streams.” Fire Technol, doi.org/10.1007/s10694-023-01539-9, 2024.
[129] Ran J., El-Kebir H., Lee Y., Chamorro L.P., Berlin R., Cornejo G., Benedetti E., Giulianotti P.C., Bhargava R., Bentsman J. and Ostoja-Starzewski M. “Heat conduction in lining tissue during radiofrequency electrosurgery.” J R Soc Interface, 21:20230420, 2023.
[128] Cai T., Wang Z., Chamorro L.P., Zheng L., and Ma F., “Cavitation cloud of waterjet under double excitation.” Phys Fluids, 35, 123326, 2023.
[127] Hong L., and Chamorro L.P.✉ “On the synergy of biomicrofluidic technologies and real-time 3D tracking: a perspective” Biomicrofluidics, doi:10.1063/5.0174269, 2023.
[126] Kang S., Hong L., Cheng S., Best J.L., and Chamorro L.P.✉ “On the settling of aligned spherical particles in various quiescent media.” J Fluid Mech, 975, R1, doi:10.1017/jfm.2023.899, 2023.
[125] Choi M.H., Hong L., Chamorro L.P. Edwards B., and Timperman A.T. “Measuring the electrophoretic mobility and size of single particles using microfluidic transverse AC electrophoresis (TrACE).” Lab on a Chip, doi: 10.1039/d3lc00413a, 2023.
[124] Siguenza-Alvarado D., Pulletikurthi V., Quinones J., Nelson C., Cheng S., Doosttalab A., Chamorro L.P., and Castillo L. “Wake interaction of aligned wind turbines over two-dimensional hills.” Phys Fluids, 35, 105142, 2023.
[123] Cheng S., Olivieri S., Rosti M.E., and Chamorro L.P.✉ “Gap-modulated dynamics of flexible plates.” J Fluid Mech, vol. 974, A12, doi:10.1017/jfm.2023.806, 2023.
[122] Mahmoodi E., Khezri M., Ebrahimi A., Ritschel U., Chamorro L.P. and Khanjari A. “A Simple Model for Wake-Induced Aerodynamic Interaction of Wind Turbines.” Energies. 16, 5710, 2023.
[121] Esquivel-Puentes A., Vacca A., Pulletikurthi V., Doosttalab A., Garcia-Bravo J., Warsinger D.M., Chamorro L.P., and Castillo L. “On the design and power output response of hydraulic wind turbines.” Energy Convers Manag, 293, 117425, 2023.
[120] Cai T., Chamorro L.P., Ma F., and Han J. “Impact of nozzle lip on the cavitation cloud characteristics of self-excited cavitating waterjets.” Ocean Eng, 285, 115329, 2023.
[119] Pulletikurthi V., Esquivel-Puentes H., Cheng S., Chamorro L.P., and Castillo L. “Impact of flow regime on the performance of anti-biofouling coatings.” Sci Rep, 13, 9501, 2023.
[118] Cai T., Chamorro L.P., Ma F., Zhu Q., Han J. “Acoustic Modes of Self-Excited Cavitating Waterjets on Erosion.” Phys Fluids, 35, 063322, 2023.
[117] Kang S., Cheng S., Hong L., Kim J-T., and Chamorro L.P.✉ “Single sidewall cooling modulation on Rayleigh-Bénard convection.” J Fluid Mech, 957, A13, 2023.
[116] Cai T., Chamorro L.P., Zhu Q., and Ma F. “Impact of self-excited cavitating waterjet feeder pipe on acoustic and erosion patterns.” Ocean Eng, 272, 113863, 2023.
[115] Yuk J., Akash M., Chakraborty A., Basu S.✉, Chamorro L.P.✉, and Jung S.✉ “Morphology of pig nasal structure and modulation of airflow, thermal conditioning, and olfactory functionality.” Integr Comp Biol, doi.org/10.1093/icb/icad005, 2023.
[114] Zheng y., Liu H., Chamorro L.P., Zhao Z., Li Y., Zheng Y., and Tang K. “Impact of turbulence level on intermittent-like events in the wake of a model wind turbine.” Renew Energy, 203, 45-55, 2022.
[113] El-Kebir H., Ran J., Lee Y., Chamorro L.P., Ostoja-Starzewski M., Berlin R., Aguiluz G.M., Benedetti E., Giulianotti P.C., and Bentsman J. “Minimally Invasive Live Tissue High-fidelity Thermophysical Modeling using Real-time Thermography.” IEEE Trans Biomed Eng (Featured Article), DOI: 10.1109/TBME.2022.3230728, 2022.
[112] Gao Y., Paul J.E., Chen M., Hong L., Chamorro L.P., Sottos N.R., Geubelle P.H. “Buoyancy-Induced Convection Driven by Frontal Polymerization.” Phys Rev Lett (Editor’s pick), 130, 028101, 2022.
[111] Yoon H.-J., Lee G., Kim J.-T., Yoo J.-Y., Luan H., Cheng S., Kang S., Huynh. H.L.T., Kim H., Park. J., Kim J., Kwak S.S., Ryu H., Kim J., Choi Y., Ahn H.-Y., Choi J., Oh S., Jung Y.H., Park M., Bai W., Huang Y., Chamorro L.P.✉, Park Y. ✉, Rogers J.A. ✉, “Biodegradable, three-dimensional colorimetric fliers for environmental monitoring.” Science Adv, DOI: 10.1126/sciadv.ade3201, 2022.
[110] Kim J-T., Ouyang W., Hwang H., Jeong H., Kang S., Bose S., Kwak S., Ni X., Kim H., Park J., Chen H., Soetikno A, Kim J., Xu S., Chamorro L.P.✉, and Rogers J.A.✉, “Dynamics of Plosive Speech via Imaging, Computations, and soft-electronics.” PNAS, 119 (46) e2214164119, 2022.
[109] Wu Y., Wu M., Vázquez-Guardado A., Kim J., Zhang X., Avila R., Kim J-T, Deng Y., Yu Y., Melzer S., Bai Y., Yoon H., Meng L., Zhang Y., Guo H., Hong L., Kanatzidis E., Haney C., Waters E., Banks A., Hu Z., Lie F., Chamorro L.P., Sabatini B., Huang Y., Kozorovitskiy Y., and Rogers J.A., “Wireless multi-lateral optofluidic microsystems for real-time programmable optogenetics and photopharmacology.” Nature Comm, 13(1), 1-15, 2022.
[108] Cheng S., Kaufman S., Tipnis V., Best J.L., and Chamorro L.P.✉, “Effects of low clay concentrations on nearly isotropic turbulence.” Phys Rev Fluids, 7, 073801, 2022.
[107] Hong L., Cheng S., Houseago R.C., Parsons D.R., Best J.L., and Chamorro L.P.✉, “On the submerged low-Cauchy-number canopy dynamics under unidirectional flows.” J Fluid Struct, 113, 103646, 2022.
[106] Bocanegra-Evans H., Doosttalab A., Siguenza-Alvarado D., Cheng S., Chamorro L.P., and Castillo L., “Spectral features of the wake and power fluctuations of model wind turbines under low-level jets.” J Renew Sust Energ, 14, 033308, 2022.
[105] Jin Y., Cheng S., and Chamorro L.P.✉, “On the impact of layout in the dynamics of wind turbine arrays under passive oscillations.” J Renew Sust Energ, 13, 033310, 2022.
[104] Ranjan P., Mittal K., Chamorro L.P., and Tinoco R., “Impact of gaps on the flow statistics in an emergent rigid canopy.” Phys Fluids, 34, 066601, 2022.
[103] Park J., Alvarado J.L. Chamorro L.P., Lux S. Marsh C.P., “Characterization of the flow and surface temperature around multiple vortex generators.” J Fluid Eng, 144(9): 091301, 2022.
[102] Ji B., Hong L., Kim J-T., Chamorro L.P. and Feng J., “Dynamics of an oil-coated bubble rising in a quiescent water.” Phys Rev Fluids, 7, 033603, 2022.
[101] Yuk J., Chakraborty A., Cheng S., Chung C-I., Jorgensen A., Basu S.✉, Chamorro L.P.✉ and Jung S.✉, “On the design of particle filters inspired by animal noses.” J R Soc Interface, doi.org/10.1098/rsif.2021.0849, 2022.
[100] Hong L. and Chamorro L.P.✉, “A fast, non-iterative ray-intersection approach for three-dimensional microscale particle tracking.” Lab on a Chip, doi: 10.1039/D1LC01042E, 2022.
[99] Zhang B., Jin Y., Cheng S., Zheng Y. and Chamorro L.P.✉, “On the dynamics of a model wind turbine under passive tower oscillations.” Appl Energ, 311, 118608, 2022.
[98] Houseago R.C., Hong L., Cheng S., Best J.L., Parsons D.R., and Chamorro L.P.✉, “On the turbulence dynamics induced by a surrogate seagrass canopy.” J Fluid Mech, 934, A17, doi:10.1017/jfm.2021.1142, (2022).
[97] Cheng S., Elgendi M., Lu F., and Chamorro L.P.✉, “On the wind-turbine wake and forest terrain interaction.” Energies, 14, no. 21:7204. doi.org/10.3390/en14217204, 2021.
[96] Liu J-H., Jiang N., and Chamorro L.P.✉, “On the large-scale streaks in the logarithmic layer of wall-bounded flows.” J Visual., doi.org/10.1007/s12650-021-00810-x, 2021.
[95] Cai T., Cheng S., Segalini A., Chamorro L.P.✉, “Local topography-induced pressure gradient effects on the wake and power output of a model wind turbine.” Theor Appl Mech Lett, doi.org/10.1016/j.taml.2021.100297, 2021.
[94] Kim J-T., Y. Kim, S. Kang, Nam J., Lee C., and Chamorro L.P.✉ “Effect of the aspect ratio on the dynamics of air bubbles within Rayleigh-Benard convection.” Phys Fluids, 33(9), doi.org/10.1063/5.0060148, 2021.
[93] Kim B.H. et al., “Three-Dimensional Electronic Microfliers With Designs Inspired by Wind-Dispersed Seeds” Nature (also cover), doi.org/10.1038/s41586-021-03847-y, 2021.
[92] Chen, D., Kim J-T., Chamorro L. P.✉ and Timperman A. T.✉ “An ion concentration polarization system that produces high currents and exceeds Ohmic scaling by over one order of magnitude.” Lab on a Chip (also cover), 21(16), 3094-3104, 2021.
[91] Siguenza-Alvarado D., Doosttalab A., Cheng S., Bocanegra-Evans H., Cal R., Chamorro L. P. and Castillo L. “Exploring the Effects of Low-Level-Jets on the Energy Entrainment of Vertical-Axis Wind Turbines.” J Renew Sustain Ener, doi/10.1063/5.0047194, 2021.
[90] Ni X. et al., “Automated, multiparametric monitoring of respiratory biomarkers and vital signs in clinical and home settings for COVID-19 patients.” PNAS, 118 (19) e2026610118, 2021.
[89] Bardoel S.L., Horna D.V., Grachev A.A., Krishnamurthy R., Chamorro L.P., Fernando H.J.S., ” Fog Formation during Gravity Currents Interacting with Coastal Topography” Bound-Lay Meteorol, In Press, 2021.
[88] Laudani R., Zhang D., Faouzi T., Porcu E., Ostoja-Starzewski M., and Chamorro L.P.✉, “On streamwise velocity spectra model with fractal and long-memory effects” Phys Fluids, 33, 035116, 2021.
[87] Cheng S., Chamorro L.P., and Ansell P. “On the H-type transition to turbulence – Laboratory experiments and reduced-order modeling” Phys Fluids, 33, 024105, 2021.
[86] Zhang B., Cheng S., Lu F., Zheng Y. and Chamorro L.P.✉ ” Impact of Topographic Steps in the Wake and Power of a Wind Turbine: Part A – Statistics” Energies, 13(23), 6411; doi.org/10.3390/en13236411, 2020.
[85] Cai T., Kim J-T., Cheng S., Ma F., and Chamorro L.P. ” On the effect of orifice thickness and divergence angle in the near and intermediate fields of axisymmetric jets,” Exp Therm Fluid Sci. 123, 110293, 2020.
[84] Gun A., Cheng S., Hong L., Kim J-T., Li K., and Chamorro L.P.✉, ” On the acoustic fountain types and flow induced with focused ultrasound,” J Fluid Mech, 909, R2, doi:10.1017/jfm.2020.1012, 2020.
[83] J-T Kim, Y. Jin, S. Shen, A. Dash and Chamorro L.P.✉ “Free fall of homogeneous and heterogeneous cones”, Phys Rev Fluids, 5, 093801, 2020.
[82] Doosttalab A., Siguenza-Alvarado D., Pulletikurthi V., Jin Y., Bocanegra-Evans H., Chamorro L.P., and Castillo L. “Interaction of low-level jets with wind turbines: on the basic mechanisms for enhanced performance”. J Renew Sustain Ener. 12, 053301, doi.org/10.1063/5.0017230, 2020.
[81] Aydin O., Emon B., Cheng S., Hong L., Chamorro L.P. and Saif T. “Performance of Fabrics for Home-Made Masks Against the Spread of COVID-19 Through Droplets: A Quantitative Mechanistic Study”. Extreme Mech Lett. doi.org/10.1016/j.eml.2020.100924, 2020.
[80] Cheng S., Jin Y., and Chamorro L.P.✉ “Wind turbines with truncated blades may be a possibility for dense wind farms” Energies, 13, 1810; doi:10.3390/en13071810, 2020.
[79] Fu S., Zhang, B., Zheng Y., and Chamorro L.P.✉ “In-phase and out-of-phase pitch and roll oscillations of model wind turbines within uniform arrays”, Appl Energ, 114921, doi.org/10.1016/j.apenergy.2020.114921, 2020.
[78] S. Cheng, Y. Jin, and L.P. Chamorro ✉, “On the multiscale oscillations of a hinged plate under stratified coherent motions,” J Fluid Struct, 94, 102944, 2020.
[77] Y. Jin, J-T. Kim, S. Cheng, O. Barry, and L.P. Chamorro ✉, “On the distinct drag, reconfiguration and wake of perforated structures,” J Fluid Mech. 890, A1. doi:10.1017/jfm.2020.98, 2020.
[76] J-T. Kim, J. Nam, S. Shen, C. Lee, and L.P. Chamorro ✉, “On the dynamics of air bubbles in Rayleigh-Benard Convection.” J Fluid Mech. 891, A1, doi.org/10.1017/jfm.2020.1482019, 2020, 2020.
[75] Jin, Y. Chen, S. and Chamorro L.P. “Active pitching of short splitters past a cylinder: drag increase and wake”, Phys Rev E, 100, 063106, 2019.
[74] Z. Mao, Y. Jin, Z. Wang, and L.P. Chamorro ✉ “On the unsteady wake of a rigid plate under constant acceleration and deceleration,” J. Fluid Eng. doi.org/10.1115/1.4045786 , 2019.
[73] A. Madhukar, Y. Park, W. Kim, H. Julian, R. Berlin, L.P. Chamorro, J. Bentsman, and M. Ostoja-Starzewski, “Heat Conduction in Porcine Muscle and Blood: Experiments and Time-Fractional Telegraph Equation Model,” J. R. Soc. Interface, doi.org/10.1098/rsif.2019.0726, 2019.
[72] S. Dharmarathne, H. Bocanegra, A.M. Hamed, B. Aksak, L.P. Chamorro, M. Tatkun, A. Doosttalab and L. Castillo, “On the Large- and Small-scale Motions in a Separated, Turbulent-boundary-layer Flow”, J Turbul, doi.org/10.1080/14685248.2019.1683186, 2019.
[71] Fu S., Jin Y., Zheng Y., and Chamorro L.P. ✉ “Characterization of the wake and power fluctuations of a model wind turbine subjected to pitch and roll oscillations”, Appl Energ, 253, 113605, 2019.
[70] Kim J-T. and Chamorro L.P. “Lagrangian description of the unsteady flow induced by a single pulse of a jellyfish”, Phys Rev Fluids, 4, 064605, 2019.
[69] Anderson P.S.L., Crofts S.B., Kim J-T., and Chamorro L.P., “Taking a stab at quantifying the energetics of biological puncture” Integr Comp Bio, 59(6): 1586-1596, 2019.
[68] Tobin N., Lavely A., Schmitz S., and Chamorro L.P. ✉ “Spatio-Temporal Correlations in the Power Output of Wind Farms: On the Impact of Atmospheric Stability” Energies, 12, 1486; doi:10.3390/en12081486, 2019.
[67] Kim J-T., Yin Y., and Chamorro L.P. “Dynamics of flexible plates and flow under impulsive oscillation” J Fluid Struct, 87: 319-333, 2019.
[66] Hayat, I., T. Chatterjee, H. Liu, Y. T. Peet and L.P. Chamorro, “Exploring wind farms with alternating two- and three-bladed wind turbines”, Renew Energy, doi: 10.1016/j.renene.2019.01.123, 2019.
[65] Jin Y., Kim J-T., Fu S. and Chamorro L.P. ✉ “Flow-induced motions of flexible plates: fluttering, twisting and orbital modes”, J Fluid Mech, 864: 273-285, 2019.
[64] Fu S., Jin Y., Kim J-T., Mao Z., Zheng Y., and Chamorro L.P.✉ “On the Dynamics of Flexible Plates under Rotational Motions”, Energies, 11, 3384; doi:10.3390/en11123384, 2018.
[63] Tobin N. and Chamorro L.P.✉ “Modulation of turbulence scales passing through the rotor of a wind turbine”,J Turbul, doi.org/10.1080/14685248.2018.1547387, 2018.
[62] J-T. Kim, Shen S., DiMarco S.L., Jin Y., and Chamorro L.P.✉ “On the Lagrangian acceleration in Rayleigh-Benard convection at various aspect ratios”, Phys Rev Fluids, doi:10.1103/PhysRevFluids. 3.113502, 2018.
[61] Jin, Y., Kim J-T., Hong L., and Chamorro L.P.✉ “Flow-induced oscillations of low-aspect-ratio flexible plates with various tip geometries”, Phys Fluids, 30, 097102 (2018); doi: 10.1063/1.5046950, 2018.
[60] Tobin, N. and Chamorro L.P.✉ “Turbulence Coherence and its Impact on Wind-Farm Power Fluctuations”, J Fluid Mech, 855: 1116-1129, 2018.
[59] Jin, Y., Yan l., Qiu H. and Chamorro L.P.✉ “Turbulence-driven reverse lift on 2D and 3D structures”, Phys Rev E, 98, 033106, 2018.
[58] Hamed A.M., and Chamorro L.P. “Turbulent boundary layer around 2D permeable and impermeable obstacles”, Exp Fluids, 59:134, doi: 10.1007/s00348-018-2590-4, 2018.
[57] Jin Y., Kim J-T., Mao Z. and Chamorro L.P. “On the couple dynamics of wall-mounted flexible plates in tandem”, J Fluid Mech (Rapids), 852, R2, doi:10.1017/jfm.2018.580, 2018.
[56] Doosttalab A., Dharmarathne S., Bocanegra-Evans H., Hamed A.M., Gorumlu S., Aksak B., Chamorro L.P., Tutkun M. and Castillo L. “Flow modulation by a mushroom-like coating around the separation region of a wind-turbine airfoil section”, J Renew Sustain Ener, 10, 043305, 2018.
[55] Jin Y., Kim J-T. and Chamorro L.P.✉ “Instability-driven frequency decoupling between structure dynamics and wake fluctuations”, Phys Rev Fluids, 3, 044771, 2018.
[54] Tobin N. and Chamorro L.P.✉ “Wakes behind surface-mounted obstacles: Impact of aspect ratio, incident angle, and surface roughness”, Phys Rev Fluids, 3, 033801, 2018.
[53] Liu H., Hayat I., Jin Y. and Chamorro L.P.✉ “On the Evolution of the Integral Time Scale within Wind Farms”, Energies, 11, 93; doi:10.3390/en11010093, 2018.
[52] Bocanegra H., Hamed A.M., Gorumlu S., Doosttalab A., Aksak B., Chamorro L.P. and Castillo L. “Engineered bio-inspired coating for passive flow control”, PNAS, doi/10.1073/pnas.1715567115, 2018.
[51] Liu H., Jin Y., Tobin N. and Chamorro L.P.✉ “Towards uncovering the structure of power fluctuations of wind farms”, Phys Rev E, 6, 063117, 2017.
[50] Liu B., Hamed A.M. and Chamorro L.P.✉ “On the Kelvin-Helmholtz and von Karman vortices in the near wake of semicircular cylinders with flaps”, J Turbul, http://dx.doi.org/10.1080/14685248.2017. 1391390, 2017.
[49] Jin Y., Hayat, I. and Chamorro L.P.✉ “Modulation of aerodynamic force on a 2D elliptic body via passive splitter pitching under high turbulence”, J Fluid Struct, 74: 205-213, 2017.
[48] Tobin N. and Chamorro L.P.✉ “Theory For Windbreak Effects Within Infinite Wind Farms”, Energies, 10(8), 1140; doi:10.3390/en10081140, 2017.
[47] Mandadzhiev B.A., Lynch M.K., Chamorro L.P., and Wissa A.A. “An experimental study of an airfoil with a bio-inspired leading edge device at high angles of attack”, Smart Mat and Struct, 26: 094008, 2017.
[46] Jin Y. and Chamorro L.P. “Passive pitching of splitters in the trailing edge of elliptic cylinders”, J Fluid Mech, 826: 363-375, 2017.
[45] Hamed, A.M., Castillo L., and Chamorro L.P.✉ “Turbulent boundary layer response to large-scale wavy topographies”, Phys Fluids, 29, 065113; doi: 10.1063/1.4989719, 2017.
[44] Hamed A.M., Pagan-Vazquez A., Khovalyg D., Zhang Z. and Chamorro L.P.✉ “Vortical structures in the near-wake of tabs with various geometries”, J Fluid Mech, 825:167-188, 2017.
[43] Liu B., Hamed A.M., Jin Y. and Chamorro L.P.✉ “Influence of vortical structure impingement on the oscillation and rotation of flat plates”, J Fluid Struct, 70: 417-427, 2017.
[42] Jin Y. and Chamorro L.P.✉ “On the dynamics of 3D slung prisms under very low and high turbulence flows”, J Fluid Mech, 816: 468-480, 2017.
[41] Hamed A.M., Vega J., Liu B., and Chamorro L.P.✉ “Flow around a semicircular cylinder with passive flow control mechanisms”, Exp Fluids, 58(3), 22, 2017.
[40] Hamed A.M., Sadowski M., Nepf H.M., and Chamorro L.P.✉ “Impact of height heterogeneity on canopy turbulence”, J Fluid Mech, Vol 813,1176-1196, 2017.
[39] Tobin N., Hamed A.M., and Chamorro L.P.✉ “Fractional Flow Speed-up from Porous Windbreaks for Enhanced Wind-Turbine Power”, Bound-Lay Meteorol, DOI 10.1007/s10546-016-0228-8, 2017.
[38] Jin Y., Ji S., and Chamorro L.P.✉ “Spectral Energy Cascade of Body Rotations and Oscillations under Turbulence”, Phys Rev E, (94) 063105, 2016.
[37] Kim J-T., Liberzon A., and Chamorro L.P.✉ “Characterization of the Eulerian and Lagrangian accelerations in the intermediate field of turbulent circular jets”, J Turbul, doi.org/10.1080/14685248.2016.1256483, 2016.
[36] Jin Y., Liu H., Aggarwal R., Singh A., and Chamorro L.P.✉ “Effects of freestream turbulence in a model wind turbine wake”, Energies, 9(10): 830, 2016.
[35] Hamed A.M., Sadowski M., Zhang Z., and Chamorro L.P.✉ “Transition to turbulence over 2D and 3D periodic large-scale roughnesses”, J Fluid Mech (Rapids), vol. 804, R6, doi:10.1017/jfm.2016.575, 2016.
[34] Park J., Pagan-Vazquez A., Alvarado J., Chamorro L.P., Lux S.M., and Marsh C.P. “Characterization of tab-induced counter-rotating vortex pair for mixing applications”, J Fluid Eng, 2016.
[33] Jin Y., Ji S., Liu B., and Chamorro L.P.✉, “On the role of thickness ratio and location of axis of rotation in the flat plate motions”, J Fluid Struct. 64: 127–137, 2016.
[32] Kim J-T., Z. Zhang, A. Liberzon, Y. Zhang, and Chamorro L.P.✉, “On the Lagrangian Features of Circular and Semicircular Jets via 3D Particle Tracking Velocimetry”, Exp Therm Fluid Sci, 77, 306-316, 2016
[31] Park J., Pagan-Vazquez A., Alvarado J., Chamorro L.P., Lux S., and Marsh C. (2016), “Experimental and Numerical Visualization of Counter Rotating Vortices”, J Heat Transf, Accepted, 2016
[30] Moller, N.J., H. Kim, V.S. Neary, M.H. Garcia, and Chamorro, L.P.✉ “On the near-wall effects induced by an axial-flow rotor”, Renew Energy, 91: 524-530, 2016.
[29] Hamed, A.M., Y. Jin, and Chamorro, L.P.✉ “On the transient dynamics of the wake and trajectory of free falling cones with various apex angles”, Exp Fluids, 56: 207, 2015.
[28] Tobin N., A.M. Hamed, and Chamorro, L.P.✉ “An Experimental Study on the Effects of Winglets on the Wake and Performance of a Model Wind Turbine”, Energies, 8(10): 11955-11972, 2015.
[27] Hamed A.M., A. Kamdar, L. Castillo, and Chamorro, L.P.✉ “Turbulent boundary layer over 2D and 3D large-scale wavy walls”, Phys Fluids, 27: 106601, 2015.
[26] Kim J-T., D. Kim, A. Liberzon, and Chamorro, L.P.✉ “Three-Dimensional Particle Tracking Velocimetry for Turbulence Applications: Case of a Jet Flow”, J Visual Exp, 108 doi: 10.3791/53745, 2015.
[25] Tobin N., H. Zhu, and Chamorro, L.P.✉ “Spectral behaviour of the turbulence-driven power fluctuations of wind turbines”, J Turbul, 16(9): 832-846, 2015.
[24] Howard, K.B., Chamorro, L.P., and M. Guala, “A Comparative Analysis on the Response of a Wind-Turbine Model to Atmospheric and Terrain Effects”, Bound-Lay Meteorol, 158: 229–255, 2015.
[23] Chamorro, L.P.✉ C. Hill, V. Neary, B. Gunawan, R.E.A. Arndt, and F. Sotiropoulos, “Effects of energetic coherent motions on the power and wake of an axial-flow turbine”, Phys Fluids, 27: 055104, 2015.
[22] Toloui M., Chamorro, L.P., and J. Hong, “Detection of tip-vortex signatures behind a 2.5 MW wind turbine”, J Wind Eng Ind Aerod, 143: 105-112, 2015.
[21] Chamorro, L.P.✉ J. Hong, and C. Gangodagamage, “On the scale-to-scale coupling between a full-scale wind turbine and turbulence”, J Turbul, 16(7): 617-632, 2015.
[20] Howard, K.B., J.S. Hu, Chamorro, L.P., and M. Guala, “Characterizing the response of a wind turbine model under complex inflow conditions”, Wind Energy, 18(4): 729-743, 2015.
[19] Chamorro, L.P.✉ S. Lee, D. Olsen, C. Milliren, J. Marr, R.E.A. Arndt, and F. Sotiropoulos, “Turbulence effects on a full-scale 2.5 MW horizontal-axis wind turbine under neutrally stratified conditions”, Wind Energy, 18: 339-349, 2015.
[18] Hong J., M. Toloui, Chamorro, L.P., M. Guala, K. Howard, J. Tucker, and F. Sotiropoulos, “Natural snowfall reveals large-scale flow structures in the wake of a 2.5-MW wind turbine”, Nature Comm, DOI: 10.1038/ncomms5216, 2014.
[17] Toloui M., S. Riley, J. Hong, K. Howard, Chamorro, L.P., M. Guala, and J. Tucker, “Measurement of atmospheric boundary layer based on super-large-scale particle image velocimetry using natural snowfall”, Exp Fluids, 55: 1737, 2014.
[16] Hill C., M. Musa, Chamorro, L.P., C. Ellis, and M. Guala, “Local Scour around a Model Hydrokinetic Turbine in an Erodible Channel”, J Hydraul Eng, 140(8) 04014037, 2014.
[15] Chamorro, L.P.✉ N. Tobin, R.E.A. Arndt, and F. Sotiropoulos, “Variable-sized wind turbines are a possibility for wind farm optimization”, Wind Energy, 17(10): 1483-1494, 2014.
[14] Neary V., B. Gunawan, C. Hill, and Chamorro, L.P.✉ “Near and far field flow disturbances induced by model hydrokinetic turbine: ADV and ADP comparison”, Renew Energy, 60: 1-6, 2013.
[13] Chamorro, L.P., C. Hill, S. Morton, C. Ellis, R.E.A. Arndt, and F. Sotiropoulos, “On the interaction between a turbulent open channel flow and an axial-flow turbine”, J Fluid Mech (Rapids), 716: 658-670, 2013.
[12] Chamorro, L.P., D.R. Troolin, S. Lee, R.E.A. Arndt, and F. Sotiropoulos, “Three-dimensional flow visualization in the wake of a miniature axial-flow hydrokinetic turbine”, Exp Fluids, 54:1459, 2013.
[11] Chamorro, L.P. and R.E.A. Arndt, “Non-uniform velocity distribution effect on the Betz-Joukowsky limit”, Wind Energy, 16(2): 279-282, 2013.
[10] Chamorro, L.P., R.E.A. Arndt, and F. Sotiropoulos, “Drag reduction of large wind turbine blades through riblets: Evaluation of riblet geometry and application strategies”, Renew Energy, 50: 1095-1105, 2013.
[9] Chamorro, L.P., M. Guala, R.E.A. Arndt, and F. Sotiropoulos, “On the evolution of turbulent scales in the wake of a wind turbine model”, J Turbul, 13(27): 1-13, 2012.
[8] Chamorro, L.P., R.E.A. Arndt, and F. Sotiropoulos, “Reynolds number dependence of turbulence statistics in the wake of wind turbines”, Wind Energy, 15: 733-742, 2012.
[7] Chamorro, L.P., R.E.A. Arndt, and F. Sotiropoulos, “Turbulent Flow Properties Around a Staggered Wind Farm”, Bound-Lay Meteorol, 141: 349-367, 2011.
[6] Chamorro, L.P. and F. Porte-Agel, “Turbulent flow inside and above a wind farm: A wind-tunnel study”, Energies, 4:1916-1936, 2011.
[5] Chamorro, L.P. and F. Porte-Agel, “Effects of Thermal Stability and Incoming Boundary-Layer Flow Characteristics on Wind-Turbine Wakes: A Wind-Tunnel Study”, Bound-Lay Meteorol, 136: 515-533, 2010.
[4] Chamorro, L.P. and F. Porte-Agel, “A Wind-Tunnel Investigation of Wind-Turbine Wakes: Boundary-Layer Turbulence Effects”, Bound-Lay Meteorol, 132: 129-149, 2009.
[3] Chamorro, L.P. and F. Porte-Agel, “Wind-tunnel study of surface boundary conditions for large-eddy simulation of turbulent flow past a rough-to-smooth surface transition”, J Turbul, 11: 1-17, 2010.
[2] Chamorro, L.P. and F. Porte-Agel, “Channel bed slope effect on the height of gravity waves produced by a sudden downstream discharge stoppage”, J Hydraul Eng, 136(5): 328-330, 2010.
[1] Chamorro, L.P. and F. Porte-Agel, “Velocity and surface shear stress distributions behind a rough-to-smooth surface transition: A simple new model”, Bound-Lay Meteorol, 130: 29-41, 2009.