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Assistant Professor, Department of Mechanical Engineering, Faculty of Engineering, Thammasat University

PUBLICATIONS

International journals


1) Pakdee W., and Mahalingam S. Accurate Method to Implement Boundary Conditions for Reacting Flows Based on Characteristic Wave Analysis. Combustion Theory and Modelling 2003; 7: 705-729.

2) Zhou, X., Pakdee W., and Mahalingam S. Assessment of Flame Surface Density-Based Subgrid Turbulent Combustion Model for Nonpremixed Flames of Wood Pyrolysis Gas. Physics of fluids 2004;16: 3795-3807.

3) Pakdee W., and Rattanadecho P. Unsteady Effects on Natural Convective Heat Transfer through Porous Media in Cavity due to Top Surface Partial Convection. Applied Thermal Engineering 2006; volume 26, issues 17-18, pages 2316-2326.

4) Pakdee W., and Mahalingam S. Numerical Investigation of Turbulent Nonpremixed Combustion of Wood Pyrolysis Gas-Implication for Turbulent Model Development. Combustion, Explosion, and Shock Waves 2007; volume 43: 258-275.

5) Rattanadecho, P., Pakdee, W., and Stakulcharoen, J., Analysis of Multiphase Flow and Heat Transfer: Pressure Buildup in an Unsaturated Porous Slab Exposed to Hot Gas, Drying Technology An International J.2008, Vol. 26, pp. 39- 53.

6) Cha-um, W., Rattanadecho, P., and Pakdee, W., Experimental analysis of microwave heating of dielectric materials using a rectangular wave guide (MODE: TE10) (Case study: Water layer and saturated porous medium), Experimental Thermal and Fluid Science 2009, Vol. 33, pp. 472-481.

7) Cha-um, W., Rattanadecho, P., and Pakdee, W., Experimental and Numerical Analysis of Microwave Heating of Water and Oil Using a Rectangular Wave Guide: Influence of Sample Sizes, Positions, and Microwave Power, Food and Bioprocess Technology 2009, pp. 1-15.

8) Pakdee W., and Rattanadecho P. Numerical Analysis of Natural Convection in Porous Cavity with Partial Convective Cooling Condition, Journal of Porous Media 2009,Vol.12, pp. 1083-1100.

9) Cha-um, W., Rattanadecho, P., and Pakdee, W., Experimental analysis of microwave heating of dielectric materials using a rectangular wave guide (MODE: TE10) (Case study: Water layer and saturated porous medium), Experimental Thermal and Fluid Science 2011, Vol. 33, pp. 472-481.

10) Pakdee, W., and Rattanadecho, P. Natural Convection in a Saturated Variable-Porosity Medium Due to Microwave Heating; ASME J. of Heat Transfer 2011, 133: 625021–625028.

11) Klinbun, W., Rattanadecho, P, and Pakdee, W., Microwave heating of saturated packed bed using a rectangular waveguide: Influence of particle size, sample dimension, frequency, and placement inside the guide; Int. J. Heat Mass Transfer 2011, 54: 1763-1774.

12) Sungsoontorn, S., Rattanadecho, P. and Pakdee, W., " One-dimensional Model of Heat and Mass Transports and Pressure Built-up in Unsaturated Porous Materials subjected to Microwave Energy " Drying Technology An International J. : 29, pp.189-204, 2011: Impact factor 1.048

13) Pattamaprom, C., Pakdee, W., and Ngamjaroen, S., Storage degradation of palm-derived biodiesel: Its effects on chemical properties and engine performance; Renewable Energy 2012, 37: 412-418.

14) S. Klayborworn, W. Pakdee, P. Rattanadecho S. Vongpradubchai, "Effects of material properties on heating processes in two-layered porous media subjected to microwave energy", International Journal of Heat and Mass Transfer Vol. 61(2013), pp.397-408

15) Watit Pakdee, Cattaleeya Pattamaprom, Sirichai Phanumnuay,"Effects of Incomplete Transesterification Reaction of Palm Oil Biodiesel on Fuel Quality and Engine Performance", International Review of Mechanical Engineering (I.R.E.M.E.), Vol. 7(4), pp.673-678

National journals


1) Sureerat Ngamjaroen, Watit Pakdee and Cattaleeya Pattamaprom,The Effect of Storage Degradation of Palm- Stearin Biodiesel on Engine Performance and Exhaust Emission, Thammasat Int. J. Sc. Tech., Vol. 15, Special Edition, September 2010

 

Conferences


1) Pakdee W., and Mahalingam S. Direct Numerical Simulations Analysis of Flame Surface Density for Diffusion Flame of Pyrolysis Gas. (2001) American Physical Society, 54th Annual Meeting of the Division of Fluid Dynamics November 18 - 20, 2001 San Diego, California Meeting ID: DFD01, abstract #FP.006

2) Pakdee W., Zhou X., and Mahalingam S. Direct and Large Eddy Simulation applied to Modeling of Combustion of Pyrolysis Gas. (2002) 40th Aerospace Sciences Meeting and Exhibit 14-17 January Reno, NV, AIAA 2002-1083.

3) Zhou X., Pakdee W., and Mahalingam S. Large Eddy Simulation of Turbulent Nonpremixed Fames of Wood Pyrolysis Gas. (2003) 41st Aerospace Sciences Meeting and Exhibit 14-17 January Reno, NV, AIAA 2003-0961.

4) Pakdee W., Zhou X., and Mahalingam S. A Detailed Examination of Turbulent Nonpremixed Fame Structure of Wood Pyrolysis Gas via Numerical Simulations. (2003) Proceedings of the Third Joint Meeting of the U.S. Sections of the Combustion Institute 16-19 March Chicago, IL.

5) Pakdee W., and Mahalingam S. Analysis of Turbulent Flames of Wildfire using Direct Numerical Simulation Implication for Development of Predictive Capability of Wildfire Behavior. Proceedings of the 18th Conference of the Mechanical Engineering Network of Thailand (ME-NETT 18). 18-20 October 2004, Khonkaen, TSF045.

6) Pakdee W. and Rattanadeco P. Natural Convective Heat Transfer through Porous Media in Cavity due to Top Surface Convection, Proceedings of the 19th Conference of the Mechanical Engineering Network of Thailand (ME-NETT 19). 19-21 October 2005, Phuket, Paper no. TFM035.

7) Pakdee W. and Rattanadeco P. Natural Convection in Porous Enclosure caused by Partial Heating or Cooling . Proceedings of the 20th Conference of the Mechanical Engineering Network of Thailand (ME-NETT 20). 18-20 October 2006, Nakhon Ratchasima, Paper no.TSF015.

8) Stakulcharoen J., Pakdee W., and Ratanadecho P. Analysis of Transport Phenomena in Concrete Walls Exposed to Hot Gas. Proceedings of the 20th Conference of the Mechanical Engineering Network of Thailand (ME-NETT 20). 18-20 October 2006, Nakhon Ratchasima, Paper no.TSF038.

9) Phunumnuay S. and Pakdee W. Effects of incompletely converted biodiesel from palm oil on engine performance, Proceedings of the 22nd Conference of the Mechanical Engineering Network of Thailand (ME-NETT 22). 15-17 October 2008, Pathumthani, Paper no. AEC035.

10) Utaivorawit N. and Pakdee W. Numerical investigation of laminar combustion in porous media, Proceedings of the 22nd Conference of the Mechanical Engineering Network of Thailand (ME-NETT 22). 15-17 October 2008, Pathumthani, Paper no. AEC034.

11) Pakdee W., and Rattanadecho P. Numerical model of microwave heating in a saturated non-uniform porosity medium using a rectangular waveguide., International Symposium on Engineering, Energy and Environment (ISEEE), 26-27 November 2009, Rayong, Paper no. 705.

12) Pattamaprom C., Pakdee W. and Ngamjareon S. The Effect of Air Exposure on the Degradation Characteristics and Engine Performance of Biodiesel, Conference on Energy Network of Thailand, 5-7 May 2010, Petchburi, Paper no. ENETT6-1092.

13) Phanumnuay, S., Pattamaprom, C. and Pakdee, W. Effects of incompletely converted palm oil on biodiesel quality and engine performance, The 2nd TSME International Conference on Mechanical Engineering (TSME-ICoME), 19-21 October 2011, Krabi, Paper no. AEC25

14) Klayborwarn, S. Rattanadecho, P. and Pakdee, W. Effects of Non-Uniform Porosity on Convection in Saturated Porous Media Subjected to Microwave Heating, Proceedings of the 25th Conference of the Mechanical Engineering Network of Thailand (ME-NETT 25). 18-21 October 2011, Krabi, Paper no. TSF04.

15) Watit Pakdee, Bowonsak Yuwakanit, "Convective heat transfer in a porous medium filled with compressible fluid subjected to magnetic field", 3rd European Energy Conference, Budapest, Hungary, October 27-30, 2013

16) Kevin R. Anderson, Maryam Shafahi, Alfredo Gutierrez and Watit Pakdee, "Numerical Study of Forced Air Cooling of Heated Porous Foam Pyramid Array", Proceedings of the 5th International Conference on Porous Media and its Applications in Science And Engineering ICPM5, June 22-27, 2014, Kona, Hawaii, US.