| 1 |
Adsorption cycle "heat from cold" for upgrading the ambient heat: The testing a lab-scale prototype with the composite sorbent CaClBr/silica
Tokarev MM, Gordeeva LG, Grekova AD, Aristov YI
Applied Energy, 211, 136, 2018 |
| 2 |
Modeling of a new absorption heat pump-transformer used to produce heat and power simultaneously
Hernandez-Magallanes JA, Heard CL, Best R, Rivera W
Energy, 165, 112, 2018 |
| 3 |
Performance analysis of absorption heat transformer cycles using ionic liquids based on imidazolium cation as absorbents with 2,2,2-trifluoroethanol as refrigerant
Ayou DS, Curras MR, Salavera D, Garcia J, Bruno JC, Coronas A
Energy Conversion and Management, 84, 512, 2014 |
| 4 |
Optimal operation conditions for a single-stage heat transformer by means of an artificial neural network inverse
Colorado D, Hernandez JA, Rivera W, Martinez H, Juarez D
Applied Energy, 88(4), 1281, 2011 |
| 5 |
Exergy analysis of an experimental heat transformer for water purification
Rivera W, Huicochea A, Martinez H, Siqueiros J, Juarez D, Cadenas E
Energy, 36(1), 320, 2011 |
| 6 |
Analysis and characterization of an optical fiber for Carrol-Water liquid pair
Basurto-Pensado MA, Romero RJ, Sanchez-Mondragon JJ, Dorantes-Romero D
Energy, 36(7), 3952, 2011 |
| 7 |
Energy and exergy analysis of an experimental single-stage heat transformer operating with the water/lithium bromide mixture
Rivera W, Cerezo J, Martinez H
International Journal of Energy Research, 34(13), 1121, 2010 |
| 8 |
Integration of absorption heat pumps in a Kraft pulp process for enhanced energy efficiency
Costa A, Bakhtiari B, Schuster S, Paris J
Energy, 34(3), 254, 2009 |
| 9 |
Energy and exergy analysis of a double absorption heat transformer operating with water/lithium bromide
Martinez H, Rivera W
International Journal of Energy Research, 33(7), 662, 2009 |
| 10 |
Different methods for modeling absorption heat transformer powered by solar pond
Sencan A, Kizilkan O, Bezir NC, Kalogirou SA
Energy Conversion and Management, 48(3), 724, 2007 |
