Publications
A. Journal Articles
Refereed Articles (published/ accepted)
1. Krishnamurthy, S. and Peles Y., Flow boiling heat
transfer on micro pin fins entrenched in a microchannel,”
accepted to Journal of Heat Transfer
(2009).
2.
Browne, E.A., Michna,
G.J., Jensen, M.K., and Y. Peles, “Experimental investigation of single-phase microjet array heat transfer,” accepted to Journal of Heat
Transfer (2009).
3. Krishnamurthy, S. and Peles Y., “Flow boiling on micro pin fins entrenched inside a microchannel — flow patterns and bubble dynamics,” accepted to Journal of Heat Transfer (2009).
4. Zhang,
T., Tong, T., Chang, J., Peles, Y., Prasher, R., Jensen, M., Wen, J., Phelan,
P., "Ledinegg instability in microchannels,"
International Journal of Heat and Mass Transfer,
52(25-26), pp. 5661-5674, 2009. Download
5. Kuo, C.-J. and Peles, Y., “Flow boiling of coolant (HFE-7000)
inside structured and plain wall microchannels,” Journal of Heat Transfer, 131(12), 121011, 2009. Download
6. Michna, G.J., Browne, E.A., Peles, Y., and Jensen,
M.K., “Experimental investigation of single-phase microscale
jet impingement cooling,” Journal of Heat
Transfer, 131(11), 111402, 2009.
Download
7. Ndao, S., Peles, Y., and
Jensen M., “Multi-objective thermal design optimization and comparative
analysis of electronics cooling technologies," International Journal of Heat and Mass
Transfer, 52(19-20), pp. 4317-4326,
2009. Download
8. Krishnamurthy, S. and Peles Y., “Surface tension
effects on adiabatic gas-liquid flow across micro pillars,”
International Journal of
Multiphase Flow, 35(1), pp.
55-65, 2009. Download
9. Kuo C.-J. and Peles, Y., “Pressure effects on flow boiling instabilities in parallel microchannels,” International
Journal of Heat and Mass Transfer, 52(1-2),
pp. 271-280, 2009. Download
10. Singh, R. and Peles, Y., “The effects of fluid
properties on cavitation in a micro domain,” Journal of Micromechanics and Microengineering,
19(2), 025009, 2009. Download
11. Noonan E. E., Peles Y., Protzand C. S., and Spearing, S. M., “The scaling of
strength in the design of high power MEMS structures,” Scripta Materialia 59, pp. 927-930, 2008.
12. Li C., Wang Z., Wang P.-I., Peles Y., Koratkar N., and
Peterson G., “Multiscale coupling in copper
interfaces for enhanced boiling,” Small,
4(8), 1084–1088, 2008. Download
13. Krishnamurthy, S. and Peles Y., “Two-phase flow
pattern transition across micro-pillars— size scale effect at the micro scale,”
Physics of Fluids, 20(2), 023602, 2008. Download
14. Kuo, C.-J. and Peles, Y.,
“Flow boiling instabilities in microchannels and
means for mitigation by reentrant cavities,” Journal of Heat Transfer, 130(7),
072402, 2008. Download
15. Kuo, C.-J. and Peles, Y.,
“Critical heat flux of water at sub-atmospheric pressures in microchannels,” Journal
of Heat Transfer, 130(7),
072403, 2008. Download
16. Krishnamurthy, S. and Peles Y., “Flow boiling of water
in a circular staggered micro-pin fin heat sink,” International
Journal of Heat and Mass Transfer, 51(5-6),
pp.1349-1364,
2008. Download
17. Rusak, Z., Morris, W.J.,
and Peles, Y., “Prediction of leading-edge sheet cavitation
inception on hydrofoils at low to moderate Reynolds number flows,” Journal of
Fluids Engineering, 129(12), pp.
1540-1546, 2007.
18. Koşar, A. and Peles, Y., “Micro scale pin fin heat sinks─ parametric performance evaluation
study,” IEEE Transactions on
Components and Packaging Technologies, 30(4),
pp. 855-865, 2007. Download
19. Kuo, C.-J. and Peles, Y., “Local measurement of flow
boiling in structured surface microchannels,” International Journal of Heat and Mass
Transfer, 50(23-24), pp. 4513-4526, 2007. Download
20. Krishnamurthy, S. and Peles, Y., “Gas-liquid two-phase
flow across a bank of micro pillars,” Physics
of Fluids, 19(4), 043302- 043302 -14, 2007. (Selected for the May 14,
2007 issue of Virtual Journal of Nanoscale Science & Technology). Download
21. Schneider, B.R., Koşar, A., and Peles,
Y., “Hydrodynamic cavitation and boiling in
refrigerant (R-123) flow inside microchannels,”
International Journal of Heat and Mass
Transfer, 50(13-14), pp. 2838-2854,
2007. Download
22. Koşar, A. and Peles, Y., “Critical
heat flux of R-123 in silicon-based microchannels,”
Journal of Heat Transfer, 129(7), pp. 844-851, 2007. Download
23. Koşar, A. and Peles, Y., “Boiling heat transfer
in a hydrofoil-based micro pin fin heat sink,” International Journal of Heat and Mass Transfer, 50(5-6), pp. 1018-1034, 2007. Download
24. Mishra, C. and Peles, Y., “An experimental
investigation of hydrodynamic cavitation in micro-venturis,” Physics of
Fluids, 18(10), 103603- 103603-5, 2006. Download
25. Kuo, C.-J., Koşar, A., Peles, Y., Virost, S., Mishra, C., and Jensen, M.K.,
“Bubble dynamics during boiling in enhanced surface microchannels,”
Journal of Microelectromechanical
Systems, 15(6), pp. 1514-1527, 2006. Download
26. Kuo, C.-J., Lam, K.-Y., S. Vengallatore,
and Y. Peles, “Colloidal self-Assembly on internal surfaces of partially-sealed
microchannels,” Journal
of Micromechanics and Microengineering, 16(8), pp.1667-1673, 2006. Download
27. Schneider, B., Koşar, A., Kuo, C.-J., Mishra, C.,
Cole, G.S., Scaringe, R.P., and Peles, Y., “Cavitation enhanced heat transfer
in microchannels,” Journal of Heat Transfer, 128(12),
pp. 1293-1301, 2006. Download
28. Mishra, C. and Peles, Y., “Development of cavitation in refrigerant (R-123) flow inside rudimentary microfluidic systems,” Journal
of Microelectromechanical Systems, 15(5), pp. 1319-1329, 2006. Download
29. Jensen, M.K., Peles, Y., Srikar,V., Koşar,
A., Kuo, C.-J., “Methods and
preliminary results on enhanced boiling heat transfer in second
generation microchannels,” Microfluidics and Nanofluidics, 2(5), pp. 387-397, 2006.
30. Koşar, A. and Peles, Y., “Convective flow of
refrigerant (R-123) across a bank of micro pin fins,” International Journal of Heat and Mass Transfer, 49(17-18), pp. 3142-3155, 2006. Download
31. Koşar, A., Kuo C.-J., and Peles, Y., “Suppression of boiling flow oscillations
in parallel microchannels with inlet restrictors,” Journal of Heat Transfer, 128(3), pp. 251-260, 2006. Download
32. Koşar, A. and Peles, Y., “Thermal-hydraulic performance of MEMS-based pin fin heat sink,” Journal of Heat Transfer, 128(2), pp. 121-131, 2006. Download
33. Mishra, C. and Peles, Y., “Flow visualization of cavitating flows through a rectangular slot micro-orifice
ingrained in a microchannel” Physics of Fluids, 17(11),
pp. 113602-113602-14,
2005. (selected for the November 28, 2005 issue of Virtual Journal of Nanoscale
Science & Technology). Download
34. Koşar, A., Kuo C.-J., and Peles, Y., “Boiling
heat transfer in rectangular microchannels with
reentrant cavities,” International
Journal of Heat and Mass Transfer, 48(23-24),
pp. 4867-4886, 2005. Download
35. Koşar, A., Kuo C.-J., and Peles, Y., “Reduced pressure boiling heat transfer in rectangular microchannels with interconnected reentrant cavities,”
Journal of Heat Transfer, 127(10),
pp. 1106-1114, 2005. Download
36. Mishra, C. and Peles, Y., “Incompressible and
compressible flows through rectangular micro-orifices entrenched in silicon microchannels,” Journal
of Microelectromechanical Systems, 14(5), pp. 1000-
1012, 2005. Download
37. Peles, Y., Koşar, A., Mishra, C., Kuo, C.-J., and
Schneider, B., “Forced convective heat transfer across a pin fin micro heat
exchanger,” International Journal of Heat
and Mass Transfer, 48(17), pp. 3615-3627, 2005. Download
38. Mishra, C. and Peles, Y., “Size scale effects on cavitating flows through micro-orifices entrenched in
rectangular microchannels,” Journal of Microelectromechanical Systems,
14(5), pp. 987-
999, 2005. Download
39. Koşar, A., Mishra, C., and Peles, Y., “Laminar
flow across a bank of low aspect ratio micro pin fins,” Journal of Fluids Engineering, 127(3),
pp. 419-430, 2005. Download
40. Mishra, C. and Peles, Y., “Cavitation
in flow through a micro-orifice inside a silicon microchannel,”
Physics of Fluids, 17(1), pp. 013601-013601-15, 2005. Download
41. Peles, Y., Srikar, V.T.,
Harrison, T.S., Protz, C., Mracek,
A., and Spearing, S.M., “Fluidic packaging of microengine
and microrockets devices for high pressure and high
temperature operation,” Journal of Microelectromechanical
Systems, 13(1), pp. 31-40,
2004.
42. Srikar, V. T., Peles, Y., Arana, L.R., and Spearing, S.M.,
“Self-assembly of micro- and nanoparticles on
internal micromachined silicon surfaces,” Sensors and Actuators A, 113, pp. 124-131, 2004.
43. London, A.P, Ayon, A.A,
Epstein, A.H., Spearing, S.M., Harrison, T., Peles, Y., and Kerrebrock,
J.L., “Microfabrication of a high pressure
bipropellant rocket engine,” Sensors and
Actuators A, 92(1-3) pp.
351-357, 2001.
44. Peles, Y.P., Yarin, L.P.,
and Hetsroni, G., “Steady and unsteady flow in a heated
capillary with distinct vapor/liquid interface,” International Journal of Multiphase Flow 27(4), pp. 577-598, 2001.
45. Peles, Y.P. and Haber, S., “A steady state, one
dimensional, model for boiling two-phase flow in a triangular micro-channel,” International Journal of Multiphase Flow,
26(7), pp. 1095-1115, 2000.
46. Peles, Y.P., Yarin, L.P.,
and Hetsroni, G., “Thermohydrodynamics
characteristics of two-phase flow in a heated capillary,” International Journal of Multiphase Flow, 26(7), pp. 1063-1093, 2000.
47. Oron, A. and Peles, Y.P., “Stabilization of thin liquid
films by internal heat generation,” Physics
of Fluids, 10(3), pp. 537-539,
1998.
B. Books, Monographs
1.
“Multiphase flow,
Evaporation and Condensation,” M. K. Jensen, Y. Peles, T. Borca-Tasciuc, and S.
G. Kandlikar, in: Advanced Micro and Nano Systems,
edited by N. Kockmann, Wiley-VCH, 2005.
2.
“Cavitation in Microchannel,” Y.Peles, in:
Encyclopedia of Microfluidics and NanoFluidics,
edited by D. Li, Springer-Verlag, 2007.
C. Articles
in Conference Proceedings
1. Catano, J., Zhang, T., Zhou, R., Michna, G.J., Jensen,
M.K., Peles, Y., and Wen, J.T., 2009, “Experimental identification of component
parameters for multiple-evaporator vapor compression refrigeration cycle,”
International Mechanical Engineering Congress and Exposition, November 13-19,
Lake Buena Vista, FL, IMECE2009-11778.
2. Michna, G.J., Browne, E.A., Peles, Y., and Jensen,
M.K., 2009, “Experimental investigation of the effect of area ratio on microjet array heat transfer,” International Mechanical
Engineering Congress and Exposition, November 13-19, Lake Buena Vista, FL,
IMECE2009-12454.
3. Zhou R., Catano J., Wen J.T, Michna G.J., Peles Y., Jensen K.M, The
Steady-state Modeling and Analysis of a Two-Loop Cooling System for High Heat
Flux Removal, ,” International Mechanical Engineering Congress and Exposition,
November 13-19, Lake Buena Vista, FL, IMECE2009-11500.
4. Ndao, S., Peles, T., and Jensen, M.K., 2009, “A
genetic algorithm based multi-objective thermal design optimization of liquid
cooled offset strip fin heat sinks,” ASME Summer Heat Transfer Conference, July
19-23, San Francisco, CA, HT2009-88039.
5. Browne, E.A., Michna, G.J., Jensen, M.K., and Peles,
Y., “Experimental investigation of single-phase microjet
array impingement cooling,” ASME Summer Heat Transfer Conference, July 19-23,
San Francisco, CA, HT2009-88213.
6. Michna, G.J., Browne, E.A., Peles, Y., and Jensen,
M.K., 2009, “Single microjet heat transfer,” ASME Summer
Heat Transfer Conference, July 19-23, San Francisco, CA, HT2009-88216.
7. Koşar, A., Peles, Y., Bergles,
A. E., and Cole G. S., “Experimental investigation of critical heat
flux in microchannels for
flow field probes,” 7th International Conference on Nanochannels,
Microchannels and Minichannels,
June 22-24, 2009, Pohang, South Korea, 2009.
8. Zhang, T., Wen, J.T., Catano, J., Zhou, R., Michna, G., Peles, Y., and
Jensen, M.K., “Stability analysis of refrigeration systems for electronics
cooling,” 25th Annual Thermal Measurement, Modeling and Management Symposium, SEMI-THERM
25, San Jose, CA, March 15-19, 2009.
9. Koşar, A., Schneider B., and Peles, Y.,
“Hydrodynamic characteristics of flow across MEMS-based micro pillars,” International Mechanical Engineering
Congress and Exposition, October 31- November 6, Boston, MA, IMECE2008-68243, 2008.
10. Kuo, C.-J. and Peles, Y., ”Flow
morphology and heat transfer during subcooled flow
nucleate boiling of HFE-7000 in microchannels,” 6th International Conference on Nanochannels, Microchannels and Minichannels, June 23-25, 2008, Darmstadt, Germany,
2008. (Keynote Lecture)
11. Phelan, P.E., Gupta, Y.,
Tyagi, H., Prasher, R., Cattano, J., Michna, G.,
Zhou, R., Wen, J., Jensen, M., and Peles, Y., “Optimization of Refrigeration Systems for High-Heat-Flux
Microelectronics,” International Mechanical
Engineering Congress and Exposition, October 31- November 6, Boston, MA, IMECE2008-69113, 2008.
12. Zhou, R., Catano, J., Zhang,
T., Wen, J.T., Michna, G., Peles, Y., and Jensen, M. “The Steady-State Modeling and static System Design of a
Refrigeration System for high heat Flux Removal,” International Mechanical Engineering Congress and Exposition,
October 31- November 6, Boston, MA, IMECE2008-69074,
2008.
13. Krishnamurthy, S. and Peles Y.*,” Flow Morphologies
and Bubble Dynamics In Microchannels
with Entrenched Micro-Pin Fins,” 9th
Biennial ASME Conference on Engineering Systems Design and Analysis,
July 7-9, Haifa, Israel, 2008.
14. Krishnamurthy, S. and Peles Y., ”Cross
Flow Boiling in Micro-Pin Fin Heat Sinks,” ASME
International Mechanical Engineering Congress and Exposition, November
11-15, Seattle, WA, IMECE2007-42866,
2007.
15. Kuo, C.-J. and Peles, Y., ”Suppression
of Flow Boiling Instabilities in Microchannels Using
Artificial Reentrant Cavities,” ASME
International Mechanical Engineering Congress and Exposition, November
11-15, Seattle, WA, IMECE2007-43021,
2007.
16. Kuo, C.-J. and Peles, Y., “Local heat transfer coefficient of flow boiling in microchannels,”
Proceedings of HT2007, 2007
ASME-JSME Thermal Engineering Summer Heat Transfer Conference, July 8-12, 2007, Vancouver, British Columbia,
Canada.
17. Krishnamurthy, S. and Peles Y., “A study of flow patterns and pressure drop
in adiabatic two-phase flow across a bank of micro pin fins”, Proceedings of
HT2007, 2007 ASME-JSME Thermal
Engineering Summer Heat Transfer Conference, July 8-12, 2007, Vancouver, British Columbia, Canada.
18. Koşar, A. and Peles, Y., “Critical Heat Flux of
R-123 in Rectangular Microchannels Boiling,” Thermal Challenges in Next Generation
Electronic Systems II (THERMES II 2007), January 7-10, Santa Fe, New
Mexico, pp. 147-154, 2007.
19. Cole, G.S., Scaringe R.P.,
Roth, R.P., and Peles, Y., "System evaluation of cavitation
enhanced heat transfer in microchannels," SAE Power Systems Conference, Paper
06PSC-29, November 7-9, 2006, New Orleans, LA.
20. Koşar, A. and Peles, Y., “Hydrofoil-Based Micro
Pin Fin Heat Sink,” ASME International
Mechanical Engineering Congress and Exposition, November 5-10, Chicago, IL,
IMECE2006-13257, 2006.
21. Peles, Y. and Schneider, B.,
“Hydrodynamic Cavitation
and Boiling in Refrigerant (R-123) Flow inside Micro channels,” 4th International Conference on Nanochannels, Microchannels and Minichannels, June 19-21, 2006, Limerick, Ireland,
2006. (Keynote lecture)
22. Koşar, A. and Peles, Y., “Two-Phase Flow Across a Bank of Hydrofoil Micro Pin Fins,” 9th
AIAA/ASME Joint Thermophysics and Heat Transfer
Conference, June 5-8, San Francisco, CA, 2006.
23. Koşar, A. and Peles, Y., “Single-Phase Heat Transfer in MEMS-Based
Pin Fin Heat Sink,” ASME International
Mechanical Engineering Congress and Exposition, November 5-11, Orlando, FL,
IMECE2005-80412, 2005.
24. Kuo, C.-J., Koşar,
A., Jensen, M., and
Peles, Y., “Boiling in Enhanced Surface Microchannels,”
ASME International Mechanical Engineering
Congress and Exposition, November 5-11, Orlando, FL, IMECE2005-80412, 2005.
25. Jensen, M.,
Peles, Y., Srikar, V., Koşar, A., and Kuo, C.-J.,
“Enhanced Boiling Heat Transfer in Second Generation Micro channels Part A: Methods and Preliminary Results,”
3rd International Conference on Microchannels
and Minichannels, June 13-15, 2005, Toronto, Ontario, Canada.
26. Koşar, A., and Kuo, C.-J., Peles, Y., and Jensen, M., “Enhanced Heat
Transfer in Second Generation Micro channels Part B: Sub-Atmospheric Results,” 3rd
International Conference on Microchannels and Minichannels, June 13-15, 2005, Toronto, Ontario, Canada.
27. Peles Y., Koşar A., Mishra C., Kuo C.-J., and
Schneider B., “Micro scale pin fin heat sink,” 3rd International Conference on Microchannels and Minichannels, June 13-15, 2005, Toronto, Ontario, Canada.
28. Mishra C. and Peles Y., “An Investigation of
Single-Phase Incompressible Flows Through Rectangular
Micro-Constriction Elements,” 3rd International Conference on Microchannels and Minichannels,
June 13-15, 2005, Toronto, Ontario, Canada.
29. Peles, Y., “Two-Phase Boiling
Flow in Microchannels- Instabilities Issues and Flow
Regime Mapping, First International
Conference on Microchannels and Minichannels,”
April 24-25, 2003, Rochester, New York.
30. Srikar, V.T., Peles, Y., Arana, L.R.,
and Spearing, S.M., “Controlled Modification of Micromachined
Silicon Surfaces Using Colloidal Micro and Nanoparticles,”
Transducers 2003, The 12th
International Conference on Solid State Sensors, Actuators and Microsystems,
June 8-12, 2003, Boston, MA.
31. Pennathur, S., Peles, Y., and Epstein, A.H., “Cavitation at Micro-Scale in MEMS Fluid Machinery,”
Proceeding of IMECE’02, ASME
International Mechanical Engineering Congress & Exposition, New
Orleans, Louisiana, November 17-22, 2002.
32. Peles, Y. and Mishra, C., “Cavitation
in MicroElectroMechanical Systems (MEMS): Importance,
Deviations from Conventional Scale, and Preliminary Results,” ASME International Fluid Engineering Summer
Conference, June 19-23, 2005, Houston, Texas.
33. Mishra, C. and Peles, Y., “Hydrodynamic
Cavitation in Flow Through
Micro-Constriction Elements Entrenched in Rectangular Microchannels,”
ASME International Fluid Engineering
Summer Conference, June 19-23, 2005, Houston, Texas.
34. Peles, Y., Yarin, L.P., and Hetsroni, G., “Evaporating Two-Phase Flow Mechanism in
Micro-Channels,” Proceedings of SPIE -
the International Society for Optical Engineering,
v 3680 n I 1999. pp. 226-236.
35. Peles, Y., Yarin, L.P., and Hetsroni, G., “Heat Transfer of Two-Phase Flow in a Heated
Capillary,” Heat Transfer 1998, Proceedings
of 11th International Heat Transfer Conference, Vol. 2, 23-28
August 1998, Kyongju, Korea.
D. Other
Presentations
1. Peles Y., “Heat transfer
enhancement in micro domains by nano and micro
surface modifications,” Invited talk, University of Houston, February 12th,
2009.
2. Peles Y., “Nano and micro reentrant cavities for enhanced micro
channels boiling,” ONR Thermal Management
Review, October 21-23, 2008, Santa Rosa, CA.
3. Peles Y. and Michael A,
“Flow control of single phase and flow boiling at the micro scale,” ONR Thermal Management Review, October
21-23, 2008, Santa Rosa, CA.
4. Pamela N., Prasher R.,
Majumdar A., Jensen
M., Peles Y., Cahill D., Granick S., Wen J., and Phelan
P., “System-level approach for multi-phase, nanotechnology-enhanced cooling of
high-power microelectronic systems,” ONR
Thermal Management Review, October 21-23, 2008, Santa Rosa, CA.
5. Peles Y., “Nano and micro reentrant cavities for enhanced micro
channels boiling,” ONR Thermal Management
Review, September 25-28, 2007, Hilton Head Island, CS.
6. Peles Y., “Nano and micro reentrant cavities for enhanced micro
channels boiling,” ONR Thermal Management
Review, October 18-20, 2006, Berkley, CA.
7. Peles Y., “Nano and micro reentrant cavities for enhanced micro
channels boiling,” ONR Thermal Management
Review, October 26-28, 2005, Orlando, FL.
8. Morris, W.J., Rusak, Z.,
and Peles, Y., “The inception of
leading-edge cavitation on thin hydrofoils,”
presented at the 57th Annual Meeting of the Division of Fluid
Dynamics, November 21-23,
2004, Seattle, Washington.
9. Peles Y., “Forced convection boiling two-phase flow in
micro-channels: experimental investigation,” AIAA/ASME North East First Annual
Aerospace Mechanical Engineering Mini-Symposium, 2003.
10. Peles, Y., “Micro fabrication of micro turbo pump for
bipropellant rocket engine,” AIAA/ASME North East First Annual Aerospace
Mechanical Engineering Mini-Symposium, 2003.
11. Peles, Y., “Design and fabrication of the M.I.T micro
rocket turbopump,” Invited talk, Department of
Mechanical Engineering, University of Vermont, March, 2003.
12. Peles, Y., “Design and fabrication of micro turbopump,” Invited talk, Department of Mechanical and
Aerospace Engineering, Cornell University, May, 2002.
13. Noonan, E.E., Protz, C.S.,
Peles, Y.P., and Spearing, S.M., “Strength analysis of a micro-rocket
combustion chamber,” Materials Science of
Microelectromechanical Systems (MEMS) Devices IV.
Symposium (25-28 Nov. 2001 : Boston, MA, USA).
14. Peles, Y.P., “Boiling two-phase flow in micro-channels,”
MIT, August 23, 1999.
15. Peles, Y.P., Yarin, L.P.,
and Hetsroni G., “Evaporation two-phase flow in
micro-channels,” MEMS workshop, May 24-25, 1999, Radison
Moriah Gardens, Zichron Yaacov, Israel.
16. Peles, Y.P., Yarin, L.P.,
and Hetsroni, G., “Heat transfer in cooling
micro-channels with phase change,” The 27 Th
Israel Conference on Mechanical Engineering, Technion
City, Haifa.