Manuel Fuentes Conde
Manuel Fuentes Conde
Profesor de Electrónica UJA
Verified email at
Cited by
Cited by
S Roaf, M Fuentes, S Thomas-Rees
Routledge, 2014
The problem of drinking water access: A review of disinfection technologies with an emphasis on solar treatment methods
N Pichel, M Vivar, M Fuentes
Chemosphere 218, 1014-1030, 2019
Design of an accurate, low-cost autonomous data logger for PV system monitoring using Arduino™ that complies with IEC standards
M Fuentes, M Vivar, JM Burgos, J Aguilera, JA Vacas
Solar Energy materials and solar cells 130, 529-543, 2014
Application and validation of algebraic methods to predict the behaviour of crystalline silicon PV modules in Mediterranean climates
M Fuentes, G Nofuentes, J Aguilera, DL Talavera, M Castro
Solar Energy 81 (11), 1396-1408, 2007
Ecohouse-: A Casa Ambientalmente Sustentável
S Roaf, M Fuentes, S Thomas-Rees
Bookman Editora, 2014
Characterisation of Si-crystalline PV modules by artificial neural networks
F Almonacid, C Rus, L Hontoria, M Fuentes, G Nofuentes
Renewable Energy 34 (4), 941-949, 2009
IoT application for real-time monitoring of solar home systems based on Arduino™ with 3G connectivity
A López-Vargas, M Fuentes, M Vivar
IEEE Sensors Journal 19 (2), 679-691, 2018
Tables for the estimation of the internal rate of return of photovoltaic grid-connected systems
DL Talavera, G Nofuentes, J Aguilera, M Fuentes
Renewable and sustainable energy reviews 11 (3), 447-466, 2007
An experimental comparison between commercial hybrid PV-T and simple PV systems intended for BIPV
M Fuentes, M Vivar, J de la Casa, J Aguilera
Renewable and Sustainable Energy Reviews 93, 110-120, 2018
Solar still with vapor adsorption basin: Performance analysis
R Kannan, C Selvaganesan, M Vignesh, BR Babu, M Fuentes, M Vivar, ...
Renewable energy 62, 258-264, 2014
Modelling the influence of atmospheric conditions on the outdoor real performance of a CPV (Concentrated Photovoltaic) module
B García-Domingo, J Aguilera, J De la Casa, M Fuentes
Energy 70, 239-250, 2014
Low-Cost datalogger intended for remote monitoring of solar photovoltaic standalone systems based on Arduino™
A López-Vargas, M Fuentes, MV García, FJ Muñoz-Rodríguez
IEEE Sensors journal 19 (11), 4308-4320, 2019
Energy recovery from a vapour compression refrigeration system using humidification dehumidification desalination
K Srithar, T Rajaseenivasan, M Arulmani, R Gnanavel, M Vivar, ...
Desalination 439, 155-161, 2018
Challenges and opportunities of the internet of things for global development to achieve the united nations sustainable development goals
A López-Vargas, M Fuentes, M Vivar
IEEE Access 8, 37202-37213, 2020
Initial field performance of a hybrid CPV‐T microconcentrator system
M Vivar, V Everett, M Fuentes, A Blakers, A Tanner, P Le Lievre, ...
Progress in Photovoltaics: Research and Applications 21 (8), 1659-1671, 2013
Lessons learned from the field analysis of PV installations in the Saharawi refugee camps after 10 years of operation
M Fuentes, M Vivar, H Hosein, J Aguilera, E Muñoz-Cerón
Renewable and Sustainable Energy Reviews 93, 100-109, 2018
Comparison of photovoltaic and photocatalytic performance of non-concentrating and V-trough SOLWAT (solar water purification and renewable electricity generation) systems for …
L Qin, Y Wang, M Vivar, Q Huang, L Zhu, M Fuentes, Z Wang
Energy 85, 251-260, 2015
Results from a first autonomous optically adapted photocatalytic–photovoltaic module for water purification
M Fuentes, M Vivar, J Scott, K Srithar, I Skryabin
Solar energy materials and solar cells 100, 216-225, 2012
Effect of common rooftop materials as support base for solar disinfection (SODIS) in rural areas under temperate climates
M Vivar, M Fuentes, J Castro, R García-Pacheco
Solar energy 115, 204-216, 2015
First lab-scale experimental results from a hybrid solar water purification and photovoltaic system
M Vivar, M Fuentes, N Dodd, J Scott, I Skryabin, K Srithar
Solar Energy Materials and Solar Cells 98, 260-266, 2012
The system can't perform the operation now. Try again later.
Articles 1–20