| 3 - 3 |
Including wind energy and building energy conservation
Rodriguez SM, Galvez JB |
| 4 - 15 |
Solar photocatalytic detoxification and disinfection of water: Recent overview
Blanco-Galvez J, Fernandez-Ibanez P, Malato-Rodriguez S |
| 16 - 21 |
New CPC solar collector for planar absorbers immersed in dielectrics. Application to the treatment of contaminated water
Chaves J, Pereira MC |
| 22 - 26 |
Comparison of solar collection geometries for application to photocatalytic degradation of organic contaminants
Bandala ER, Estrada C |
| 27 - 36 |
CFD analysis of the radiation distribution in a new immobilized catalyst bubble column externally illuminated photoreactor
Trujillo FJ, Safinski T, Adesina AA |
| 37 - 44 |
Dynamic models for hydrogen peroxide control in solar photo-fenton systems
Alvarez JD, Gernjak W, Malato S, Berenguel M, Fuerhacker M, Yebra LJ |
| 45 - 52 |
Industrial wastewater treatment by photochemical processes based on solar energy
Nascimento CAO, Teixeira ACSC, Guardani R, Quina FH, Chiavone-Filho O, Braun AM |
| 53 - 59 |
Photo-fenton treatment of olive mill wastewater applying a combined fenton/flocculation pretreatment
Gernjak W, Krutzler T, Bauer R |
| 60 - 67 |
Comparative study of 2,4-dichlorophenol degradation with different advanced oxidation processes
Bayarri B, Gonzalez O, Maldonado MI, Gimenez J, Esplugas S |
| 68 - 73 |
Intensification of water detoxification by integrating photocatalysis and pervaporation
Camera-Roda G, Santarelli F |
| 74 - 79 |
Detoxification of aqueous solutions containing the commercial pesticide metasystox by TiO2-mediated solar photocatalysis
Arques A, Garcia-Ripoll A, Sanchis R, Santos-Juanes L, Amat AM, Lopez MF, Miranda MA |
| 80 - 86 |
The effect of modifying TiO2 on catechol and resorcinol photocatalytic degradation
Arana J, Rodriguez JMD, Diaz OG, Melian JAH, Pena JP |
| 87 - 93 |
Modeling the solar photocatalytic degradation of dyes
Villafan-Vidales HI, Cuevas SA, Arancibia-Bulnes CA |
| 94 - 99 |
Solar photocatalytic decontamination of phenol using pyrolytic TiO2 films deposited inside glass tubing
Diaz J, Rodriguez J, Ponce S, Solis J, Estrada W |
| 100 - 110 |
Solar photolytic and photocatalytic disinfection of water at. laboratory and field scale. Effect of the chemical composition of water and study of the postirradiation events
Rincon AG, Pulgarin C |
| 111 - 118 |
Solar disinfection kinetic design parameters for continuous flow reactors
Gill LW, McLoughlin OA |
| 119 - 126 |
Low-cost TiO2 photocatalytic technology for water potabilization in plastic bottles for isolated regions. Photocatalyst fixation
Meichtry JM, Lin HJ, de la Fuente L, Levy IK, Gautier EA, Blesa MA, Litter MI |
| 127 - 134 |
Field tests of the solar water detoxification SOLWATER reactor in Los Pereyra, Tucuman, Argentina
Navntoft C, Araujo P, Litter MI, Apella MC, Fernandez D, Puchulu ME, Hidalgo MDV, Blesa MA |
| 135 - 140 |
A comparison of solar photocatalytic inactivation of waterborne E-coli using tris (2,2'-bipyridineftuthenium(II), rose bengal, and TiO2
Rengifo-Herrera JA, Sanabria J, Machuca F, Dierolf CF, Pulgarin C, Orellana G |
