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S.-C. Wong, W.-S. Liao (2018) Visualization experiments on flat-plate heat pipes with composite mesh-groove wick at different tilt angles, Int. J. Heat Mass Transfer, 123: 839–847. (IF=3.458, 10/130 ME)
2.S.-C. Wong, S.-H. Chu, M.-H. Ai (2018) Revisit on natural convection from vertical isothermal plate arrays II—3-D plume buoyancy effects, Int. J. Therm. Sci. 126:205-217. (IF=3.615, 6/130 ME)
3.S.-C. Wong, S.-H. Chu (2017) Revisit on natural convection from vertical isothermal plate arrays--effects of extra plume buoyancy, Int. J. Therm. Sci. 120:263-272. (IF=3.615, 6/130 ME)
4.S.-C. Wong, H.-S. Cheng, C.-W. Tu (2017) Visualization experiments on the performance of mesh-wick heat pipes with differing wick wettability, Int. J. Heat Mass Transfer, 114:1045–1053. (IF=3.458, 10/130 ME)
5.G.-J. Huang, S.-C. Wong*, C.-P. Lin (2014) Enhancement of natural convection heat transfer from horizontal rectangular fin arrays with perforations in fin base, Int. J. Therm. Sci., 84:164-174.
6.S.-C. Wong*, H.-C. Hsiao, K.-F. Lo (2014) Improving temperature uniformity and performance of co preferential oxidation for hydrogen-rich reformate with a heat pipe, Int. J. Hydrogen Energy, 39:6492-6496.
7.S.-C. Wong*, H.-H. Tseng, S.-H. Chen (2014) Visualization experiments on the condensation process in heat pipe wicks, Int. J. Heat Mass Transfer, 68:625-632.
8.S.-C. Wong*, Y.-C. Ho (2013) Visualization experiment on the evaporation characteristics in nanoparticle-laden mesh-wicked heat pipes, Frontiers in Heat Pipes, 4, 023001 (invited paper).
9.S.-C. Wong*, C.-W. Chen (2013) Visualization experiments for groove-wicked flat-plate heat pipes with various working fluids and powder-groove evaporator, Int. J. Heat Mass Transfer, 66:396-403.
10.S.-C. Wong*, G.-J. Huang (2013) Parametric study on the dynamic behavior of natural convection from horizontal rectangular fin arrays, Int. J. Heat Mass Transfer, 60:334-342.
11.K.-T. Lin, S.-C. Wong* (2013) Performance degradation of flattened heat pipes, Appl. Therm. Eng., 50:46-54.
12.K.-F. Lo, S.-C. Wong* (2012) A passively-fed methanol steam reformer heated with two-stage bi-fueled catalytic combustor, J. Power Sources, 213:112-118.
13.G.-J. Huang, S.-C. Wong* (2012) Dynamic characteristics of natural convection from horizontal rectangular fin arrays, Appl. Therm. Eng., 42:81-89.
14.S.-C. Wong*, C.-W. Chen (2012) Visualization and evaporator resistance measurement for a groove-wicked flat-plate heat pipe, Int. J. Heat Mass Transfer, 55:2229-2234.
15.S.-C. Wong*, Y.-C. Lin, J.-H. Liou (2012) Visualization and evaporation resistance measurement in heat pipes charged with water, methanol or acetone, Int. J. Thermal Sci., 52:154-160.
16.K.-F. Lo, S.-C. Wong* (2011) A passively-fed methanol steam reformer with catalytic combustor heater, Int. J. Hydrogen Energy, 36:10719-10726.
17.S.-C. Wong*, Y.-C. Lin (2011) Effect of copper surface wettability on the evaporation performance of heat pipes, Int. J. Heat Mass Transfer, 54:3921-3926.
18.S.-C. Wong*, S.-F. Huang, K.-C. Hsieh (2011) Performance tests on a novel vapor chamber, Appl. Therm. Eng., 31:1757-1762.
19.K.-F. Lo, S.-C. Wong* (2011) A novel passive feeding method for methanol steam reformers, Int. J. Hydrogen Energy, 36:7500-7504.
20.J.-H. Liou, C.-W. Chang, C. Chao, S.-C. Wong* (2010) Visualization and thermal resistance measurement for the sintered mesh-wick evaporator in operating flat-plate heat pipes, Int. J. Heat Mass Transfer, 53:1498-1506.
21.S.-C. Wong*, K.-C. Hsieh, J.-D. Wu, W.-L. Han (2010) A novel vapor chamber and its performance, Int. J. Heat Mass Transfer, 53:2377-2384.
22.S.-C. Wong*, J.-H. Liou, C.-W. Chang (2010) Evaporation resistance measurement with visualization for sintered copper-powder evaporator in operating flat-plate heat pipes, Int. J. Heat Mass Transfer, 53:3792-3798.
23.S.-C. Wong*, Y.-H. Kao (2008) Visualization and performance measurement of operating mesh-wicked heat pipes, Int. J. Heat Mass Transfer, 51: 4249–4259.
24.S.-C. Tzeng, C.-Y. Soong, S.-C. Wong (2004) Heat transfer in rotating channel with open cell porous aluminum foam. Int. Comm. Heat Mass Transfer, 31 (2): 261-272.
25.J.-R. Yang, S.-C. Wong* (2003) On the suppression of negative temperature coefficient (NTC) in autoignition of n-heptane droplets. Combust. Flame, 132:475-491.
26.J.-R. Yang, S.-C. Wong* (2002) An experimental and theoretical study of the effects of heat conduction through the support fiber on the evaporation of a droplet in a weakly convective flow. Int. J. Heat Mass Transfer, 45:4589-4598.
27.J.-R. Yang, S.-C. Wong* (2001) On the discrepancies between theoretical and experimental results for microgravity droplet evaporation. Int. J. Heat and Mass Transfer, 44:4433-4443.
28.T.-H. Tsai, M.-J. Lee, I.-Y. Shih, R. Jih, S.-C. Wong* (2001) Experimental and numerical study of autoignition and pilot ignition of PMMA plates in a cone calorimeter. Combust. Flame, 124:466-480.
29.J.-S. Wu, F. Lee, S.-C. Wong* (2001) Treatment of pressure related boundary conditions in micromechanical devices using DSMC method. JSME Int. J., Series B, 44:439-450.
30.F.K.T. Lin, G.J. Huang, S.-C. Wong, C.Y. Soong (2001) Numerical computation of turbulent flow and heat transfer in a radially rotating channel with wall conduction. Int. J. Rotating Machinery 7:209-222.
31.S.D. Hung, S.-C. Wong, W.L. Fang (2000) The development and application of micro thermal sensors with a mesh-membrane supporting structure. Sensor Actuat., 84:70-75.
32.J.-R. Yang, C.-Y. Yu-Kao, J.-J. Whang, S.-C. Wong* (2000) Experiments on the ignition of monocomponent and bicomponent fuel droplets in convective flow. Combust. Flame, 123:266-274.
33.S.-C. Wong*, X.-X. Liao, J.-R. Yang (1997) A simplified theory of droplet ignition under forced convection. Combust. Flame, 110, 319-334.
34.J.-J. Whang, C.-Y. Yukao, J.-T. Ho, S.-C. Wong* (1997) Experimental study on the ignition of droplets under forced convection. Combust. Flame, 110, 366-376.
35.G.-P. Lee, S.-H. Wang, S.-C. Wong* (1996) Spark ignition characteristics of monodisperse multicomponent fuel sprays. Combust. Sci. Technol., 113-114, 493-502.
36.S.-C. Wong*, T.-S. Hsu, J.-C. Chang (1996) Validity of droplet ignition criteria derived assuming gas-phase quasisteadiness. J. Propul. Power, 11, 18-25.
37.S.-C. Wong*, A.-C. Lin, C.-E. Wu (1994) Microexplosions of boron and boron/carbon slurry droplets. Combust. Flame, 96, 304-310.
38.J.-C. Chang, S.-C. Wong* (1993) Evaporation of non-dilute and dilute polydisperse droplet clouds. J. CSME, 14, 360-368.
39.S.-C. Wong*, J.-C. Chang, J.-C. Yang (1993) Autoignition of droplets in non-dilute monodisperse clouds. Combust. Flame, 94, 397-406.
40.S.-C. Wong* and J.-C. Chang (1992) Evaporation of nondilute and dilute monodisperse droplet clouds. Int. J. Heat Mass Transfer, 35, 2403-2411.
41.S.-C. Wong*, A.-C. Lin (1992) Microexplosion mechanisms of aluminum/carbon slurry droplets. Combust. Flame, 89, 64-76.
42.S.-C. Wong*, A.-C. Lin (1992) Internal temperature distributions of droplets vaporizing in high temperature convective flows. J. Fluid Mech., 237, 671-687.
43.S.-C. Wong*, A.-C. Lin, H.-Y. Chi (1991) Effects of surfactant on the evaporation, shell formation and disruptive behavior of slurry droplets. Twenty-Third Symposium (International) on Combustion, The Combustion Institute, 1391-1397.
44.S.-C. Wong*, S.R. Turns (1989) Disruptive burning of aluminum/carbon slurry droplets. Combust. Sci. Technol., 66, 75-92.
45.S.R. Turns, S.-C. Wong*, E. Ryba (1987) Combustion of aluminum-based slurry droplets. Combust. Sci. Technol., 54,299-318.
46.S.-C. Wong*, S.R. Turns (1987) Ignition of aluminum slurry droplets. Combust. Sci. Technol., 52,221-242.
研討會論文
1.J.-Y. Du, S.-C. Wong, Experiments on the effects of surface wettability and inclination angle on the condenser performance of loop thermosyphons, IHTC16-22988, 16th International Heat Transfer Conference, August 10-15, 2018, Beijing, China.
2.K.-C. Hsieh, S.-C. Wong, Performance tests on 0.4mm-thick novel ultra-thin vapor chambers, Joint 19th International Heat Pipe Conference & 13th International Heat Pipe Symposium, June 10-14, 2018, Pisa, Italy.
3.S.-C. Wong, Z.-J. Hsu, L.-C. Hsu, On the test setting at condenser in thermal performance tests of heat pipes, Proceedings of the ASME FEDSM2017-69517, July 31-August 3, 2017, Waikoloa, Hawai'i, USA.
4.S.-C. Wong, Y.-C. Ho, Visualization for heat pipe evaporator of nanoparticle-laden mesh wick with water, methanol or acetone, Proceedings of the 1st Thermal and Fluid Engineering Summer Conference, TFESC, August 9-12, 2015, New York City, USA.
5.I-W. Chou, S.-C. Wong, Natural convection from horizontal rectangular fin arrays within perforated chassis, Proceedings of the 2nd International Conference on Fluid Flow, Heat and Mass Transfer, Ottawa, Ontario, Canada, May 2015.
6.S.-C. Wong*, H.-C. Hsiao, K.-F. Lo, Two-stage packed-bed reactors with Ru catalyst for CO preferential oxidation of hydrogen-rich reformate, International Conference on Hydrogen Production, Feb. 2-5, 2014, Fukuoka, Japan.
7.S.-C. Wong*, Y.-C. Ho (2013) Visualization experiment on the evaporation characteristics in a nanoparticle-laden mesh wick of operating heat pipes, 11th International Heat Pipe Symposium, June 9-12, 2013, Beijing, China.
8.G.-J. Huang, S.-C. Wong*, C.-P. Lin (2012) Enhancement of natural convection heat transfer from horizontal rectangular fin arrays with perforations in fin base, IMPACT 2012 & International 3D IC Conference, Oct. 23-25, 2012, Taipei.
9.S.-C. Wong*, H.-H. Tseng, S.-H. Chen (2012) Visualization of the condensation characteristics in mesh-wicked heat pipes, 16th International Heat Pipe Conference, May 20-24, 2012, Lyon, France.
10.S.-C. Wong*, C.-W. Chen (2011) Visualization and evaporative resistance measurement for groove-wicked flat-plate heat pipes: Various working fluids and powder-groove evaporator, 10th International Heat Pipe Symposium, Nov. 6-9, 2011, Taipei.
11.S.-C. Wong*, C.-W. Chen (2011) Visualization and evaporation resistance measurement for groove-wicked flat-plate heat pipes, ASME 9th Int. Conference on Nanochannels, Microchannels, and Minichannels, June 19-22, 2011, Edmonton, Canada.
12.S.-C. Wong* (on behalf of AVC Co.), Novel vapor chamber heat sink development, AMD TFE 2010, Oct. 19, Taipei, 2010.
13.S.-C. Wong*, S.-F. Huang, K.-C. Hsieh (2010) Performance tests on a novel vapor chamber using water, methanol or acetone as the working fluid, IMPACT 2010 & International 3D IC Conference, Oct. 20-22, Taipei, 2010.
14.S.-C. Wong*, Y.-C. Lin, J.-H. Liou (2010) Visualization and evaporation resistance measurement in operating flat -plate heat pipes charged with water, methanol or acetone, 15th International Heat Pipe Conference, April 25-30, 2010, Clemson, SC, USA.
15.S.-C. Wong*, S.-F. Huang, K.-C. Hsieh (2010) Performance tests on vapor chambers charged with water, methanol or acetone, 15th International Heat Pipe Conference, April 25-30, 2010, Clemson, SC, USA.
16.K.-C. Hsieh, S.-C. Wong* (2009) Performance tests on a novel vapor chamber, IMPACT 2009 & International 3D IC Conference, Oct. 21-23, 2009, Taipei.
17.S.-C. Wong*, J.-H. Liou, C.-W. Chang (2009) Evaporation resistance measurements with visualization for sintered copper-powder evaporator in operating flat-plate heat pipes, IMPACT 2009 & International 3D IC Conference, Oct. 21-23, 2009, Taipei.
18.J.-H. Liou, C.-W. Chang, C. Chao, S.-C. Wong* (2009) Visualization and thermal resistance measurement for the sintered mesh-wick evaporator in operating flat-plate heat pipes, ASME Summer Heat Transfer Conference, July 19-23, 2009, San Francisco, CA, USA.
19.S.-C. Wong*, J.-D. Wu, W.-L. Han (2008) Experiments on a novel vapor chamber, Inter Society Conference on Thermal Phenomena, May 28-31, 2008, Orlando, FL., USA.
20.S.-W. Lee, S.-C. Wong* (2005) Design and fabrication of multi-directional micro bubble separator, The SPIE Symposium on MOEMS-MEMS Micro & Nano Fabrication, Jan. 22-27, 2005, San Jose, CA, USA.
21.S.-H. Wang, C.-C. Chiu, S.-C. Wong* (1997) Validity of quasi-steady-gas- phase ignition criterion for droplets in sprays, 16th International Colloquium on the Dynamics of Explosions and Reactive Systems, Cracow, Poland.
22.H. Chang, S.-C. Wong* (1996) Dynamics of therapeutic aerosols in human airways. International Conference on Aerosol Science and Technology, Taipei, Taiwan.
23.S.-C. Wong*, C. Wang (1993). Numerical simulation of combustion wave initiation in monodisperse fuel sprays by an ignition kernel. The 29th AIAA/SAE/ASME/ASEE Joint Propulsion Conference, Monterey, CA, USA.
24.S.-B. Lan, S.-C. Wong*, J.-C. Chang (1992) Observations of flame structures and developing processes in monodisperse clouds after spark ignition. The Second National Conference on Combustion Science and Technology, Tainan, Taiwan, R.O.C.
25.S.-C. Wong*, A.-C. Lin, H.-Y. Chi, (1990) Microexplosion mechanism of aluminum/carbon slurry Droplets. Seventh National Conference of CSME, Hsinchu, Taiwan, R.O.C.
26.S.-C. Wong*, S.R. Turns (1988) An Experimental study of disruptive burning of aluminum/carbon slurry droplets. Technical Meeting, Eastern Sections of the Combustion Institute, Clearwater, FL.
27.S.R. Turns, S.-C. Wong*, F.J. Zupanc, E. Ryba (1986) Combustion characteristics of aluminum/carbon slurry blends. Technical Meeting, Eastern Sections of the Combustion Institute, San Juan, Puerto Rico.
28.S.R. Turns, S.-C. Wong* (1985) Ignition and combustion of aluminum and aluminum/ carbon slurry droplets. Proceeding 22nd JANNAF Combustion Meeting, Pasadena, CA.
29.S.-C. Wong*, S.R. Turns (1985) Ignition and combustion characteristics of aluminum-based slurry fuels. Technical Meeting, Eastern Sections of the Combustion Institute, Philadelphia, PA.
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