Hi, I am Jesus P. Xaman Villasenor, My LiveDNA is 52.11160
 
   
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Dr. Jesus P. Xaman Villasenor
 
Highest Degree: Ph.D. in Mechanical Engineering from National Center for Research and Technological Development, Mexico
 
Institute: National Center for Research and Technological Development, Mexico
 
Area of Interest: Physical Science Engineering
  •   Solar Energy
  •   Energy
  •   Buildings
  •   Computational Fluid Dynamics
 
URL: http://livedna.org/52.11160
 
My SELECTED Publications
1:   Aguilar, J.O., J. Xaman, G. Alvarez, I. Hernandez-Perez and C. Lopez-Mata, 2015. Thermal performance of a double pane window using glazing available on the mexican market. Renewable Energy, 81: 785-794.
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2:   Alvarado, R., J. Xaman, J. Hinojosa and G. Alvarez, 2008. Interaction between natural convection and surface thermal radiation in tilted slender cavities. Int. J. Therm. Sci., 47: 355-368.
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3:   Alvarado-Juarez, R., G. Alvarez, J. Xaman and I. Hernandez-Lopez, 2013. Numerical study of conjugate heat and mass transfer in a solar still device. Desalination, 325: 84-94.
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4:   Alvarado-Juarez, R., J. Xaman, G. Alvarez and I. Hernandez-Lopez, 2015. Numerical study of heat and mass transfer in a solar still device: Effect of the glass cover. Desalination, 359: 200-211.
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5:   Arce, J., J. Xaman and G. Alvarez, 2011. Numerical study of mixed convection and conduction in a 2-D square ventilated cavity with an inlet at the vertical glazing wall and outlet at the top surface. Heat Mass Transfer, 47: 223-236.
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6:   Arce, J., J.P. Xaman, G. Alvarez, M.J. Jimenez, R. Enriquez and M.R. Heras, 2013. A simulation of the thermal performance of a small solar chimney already installed in a building. J. Solar Energy Eng., Vol. 135. 10.1115/1.4007088.
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7:   Arce, J., M.J. Jimenez, J.D. Guzman, M.R. Heras, G. Alvarez and J. Xaman, 2009. Experimental study for natural ventilation on a solar chimney. Renewable Energy, 34: 2928-2934.
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8:   Chavez, Y., J. Xaman, J. Serrano and G. Alvarez, 2010. Discussion of numerical study of natural convection dominated heat transfer in a ventilated cavity: Case of forced flow playing simultaneous assisting and opposing roles by A. Raji, M. Hasnaoui, A. Bahlaoui [Int. J. Heat Fluid Flow 29 (2008) 1174-1181]. Int. J. Heat Fluid Flow, 31: 734-735.
9:   Flores, J.J., G. Alvarez and J.P. Xaman, 2008. Thermal performance of a cubic cavity with a solar control coating deposited to a vertical semitransparent wall. Solar Energy, 82: 588-601.
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10:   Gijon-Rivera, M., G. Alvarez, I. Beausoleil-Morrison and J. Xaman, 2011. Appraisal of thermal performance of a glazed office with a solar control coating: Cases in Mexico and Canada. Build. Environ., 46: 1223-1233.
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11:   Gijon-Rivera, M., Xaman, J., G. Alvarez and J. Serrano-Arellano, 2013. Coupling CFD-BES Simulation of a glazed office with different types of windows in Mexico city. Build. Environ., 68: 22-34.
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12:   Hernandez-Perez, I., G. Alvarez, J. Xaman, I. Zavala-Guillen, J. Arce and E. Sima, 2014. Thermal performance of reflective materials applied to exterior building components-A review. Energy Build., 80: 81-105.
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13:   Juarez, J.O., J.F. Hinojosa, J.P. Xaman and M.P. Tello, 2011. Numerical study of natural convection in an open cavity considering temperature-dependent fluid properties. Int. J. Therm. Sci., 50: 2184-2197.
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14:   Noh-Pat, F., J. Xaman, G. Alvarez, M. Gijon-Rivera, I. Hernandez-Perez, J. Arce and E. Villanueva-Vega, 2015. Unsteady-rans simulation of conjugate heat transfer in a cavity with a vertical semitransparent wall. Comput. Fluids, 117: 183-195.
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15:   Noh-Pat, F., J. Xaman, G. Alvarez, Y. Chavez and J. Arce, 2011. Thermal analysis for a double glazing unit with and without a solar control film (SnS-CuxS) for using in hot climates. Energy Build., 43: 704-712.
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16:   Ramirez-Davila, L., J. Xaman, J. Arce, G. Alvarez and I. Hernandez-Perez, 2014. Numerical study of earth-to-air heat exchanger for three different climates. Energy Build., 76: 238-248.
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17:   Rodriguez, N., J.F. Hinojosa and J. Xaman, 2015. Experimental and numerical mixed convection study in a ventilated cavity. J. Heat Transfer, Vol. 137. .
18:   Serrano-Arellano, J., J. Xaman and G. Alvarez, 2013. Optimum ventilation based on the ventilation effectiveness for temperature and CO2 distribution in ventilated cavities. Int. J. Heat Mass Transfer, 62: 9-21.
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19:   Serrano-Arellano, J., J. Xaman, G. Alvarez and M. Gijon-Rivera, 2013. Heat and mass transfer by natural convection in a square cavity filled with a mixture of Air-CO2. Int. J. Heat Mass Transfer, 64: 725-734.
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20:   Serrano-Arellano, J., M. Gijon-Rivera, J.L. Chavez-Servin, K. de la Torre-Carbot, J. Xaman, G. Alvarez and J.M. Belman-Flores, 2015. Numerical study of thermal environment of a greenhouse dedicated to amaranth seed cultivation. Solar Energy, 120: 536-548.
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21:   Serrano-Arellano, J., M. Gijon-Rivera, J.M. Riesco-Avila, J. Xaman and G. Alvarez, 2014. Indoor air quality analysis based on the ventilation effectiveness for CO2 contaminant removal in ventilated cavities. Rev. Mex. Fis., 60: 309-317.
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22:   Serrano-Arellano, J., M. Gijon-Rivera, J.M. Riesco-Avila, J. Xaman and G. Alvarez, 2014. Numerical investigation of transient heat and mass transfer by natural convection in a ventilated cavity: Outlet air gap located close to heat source. Int. J. Heat Mass Transfer, 76: 268-278.
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23:   Villa-Corrales, L., J.J. Flores-Prieto, J.P. Xaman-Villasenor and E. Garcia-Hernandez, 2010. Numerical and experimental analysis of heat and moisture transfer during drying of ataulfo mango. J. Food Eng., 98: 198-206.
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24:   Xaman, J. and G. Alvarez, 2006. Effect of heat conduction of SnS-Cux S solar control coated semitransparent wall on turbulent natural convection in a square cavity. Numer. Heat Transfer Part A Applic., 50: 79-98.
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25:   Xaman, J., A. Ortiz, G. Alvarez and Y. Chavez, 2011. Effect of a contaminant source (CO2) on the air quality in a ventilated room. Energy, 36: 3302-3318.
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26:   Xaman, J., C. Perez-Nucamendi, J. Arce, J. Hinojosa, G. Alvarez and I. Zavala-Guillen, 2014. Thermal analysis for a double pane window with a solar control film for using in cold and warm climates. Energy Build., 76: 429-439.
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27:   Xaman, J., G. Alvarez, J. Hinojosa and J. Flores, 2009. Conjugate turbulent heat transfer in a square cavity with a solar control coating deposited to a vertical semitransparent wall. Int. J. Heat Fluid Flow, 30: 237-248.
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28:   Xaman, J., G. Alvarez, L. Lira and C. Estrada, 2005. Numerical study of heat transfer by laminar and turbulent natural convection in tall cavities of facade elements. Energy Build., 37: 787-794.
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29:   Xaman, J., G. Alvarez, Y. Chavez, J.O. Aguilar and J. Arce, 2012. Average air temperature inside a room with a semitransparent wall with a solar control film: Effect of the emissivity. J. Appl. Res. Technol., 10: 327-339.
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30:   Xaman, J., G. Mejia, G. Alvarez and Y. Chavez, 2010. Analysis on the heat transfer in a square cavity with a semitransparent wall: Effect of the roof materials. Int. J. Therm. Sci., 49: 1920-1932.
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31:   Xaman, J., I. Hernandez-Lopez, R. Alvarado-Juarez, I. Hernandez-Perez, G. Alvarez and Y. Chavez, 2015. Pseudo transient numerical study of an earth-to-air heat exchanger for different climates of Mexico. Energy Build., 99: 273-283.
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32:   Xaman, J., I. Hernandez-Perez, J. Arce, G. Alvarez, L. Ramirez-Davila and F. Noh-Pat, 2014. Numerical study of earth-to-air heat exchanger: the effect of thermal insulation. Energy Build., 85: 356-361.
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33:   Xaman, J., I. Zavala-Guillen, J.O. Aguilar, G. Alvarez, C. Lopez-Mata and J. Arce, 2014. Conjugate heat transfer in a room with a laminated glazing with CuS or CuS-Cu2-xSe. Solar Energy, 105: 36-47.
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34:   Xaman, J., J. Arce, G. Alvarez and Y. Chavez, 2008. Laminar and turbulent natural convection combined with surface thermal radiation in a square cavity with a glass wall. Int. J. Therm. Sci., 47: 1630-1638.
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35:   Xaman, J., J. Tun, G. Alvarez, Y. Chavez and F. Noh, 2009. Optimum ventilation based on the overall ventilation effectiveness for temperature distribution in ventilated cavities. Int. J. Therm. Sci., 48: 1574-1585.
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36:   Xaman, J., L. Lira and J. Arce, 2009. Analysis of the temperature distribution in a guarded hot plate apparatus for measuring thermal conductivity. Appl. Therm. Eng., 29: 617-623.
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37:   Xaman, J.P., J.F. Hinojosa, J.J. Flores and R.E. Cabanillas, 2008. Effect of the surface thermal radiation on turbulent natural convection in tall cavities of facade elements. Heat Mass Transfer, 45: 177-185.
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