Andrés Mañas, Juan Antonio Autor

Influence of internal design on the performance of pilot vacuum-assisted air-gap membrane distillation modules for brine concentration with solar energy

  • Requena I.
  • Andrés-Mañas J.A.
  • Zaragoza G.

Desalination - 15/3/2024

10.1016/j.desal.2023.117218

Número de citas:

Treatment of wastewater coming from culture of scallop Argopecten purpuratus using O<inf>3</inf>/photo-Fenton and membrane distillation processes

  • Andrés-Mañas J.A.
  • Poblete R.
  • Zaragoza G.
  • Maldonado M.I.

Journal of Water Process Engineering - 1/2/2024

10.1016/j.jwpe.2024.104945

Número de citas:

Membrane distillation of high salinity feeds: Steady-state modelling and optimization of a pilot-scale module in vacuum-assisted air gap operation

  • Andrés-Mañas J.A.
  • Requena I.
  • Zaragoza G.

Desalination - 1/5/2023

10.1016/j.desal.2023.116449

Número de citas: 7 (Web of Science) 5 (Scopus)

Application of Machine Learning to Characterize the Permeate Quality in Pilot-Scale Vacuum-Assisted Air Gap Membrane Distillation Operation

  • Isabel Requena
  • Juan Antonio Andrés-Mañas
  • Juan Diego Gil
  • Guillermo Zaragoza

Membranes - 26/10/2023

10.3390/membranes13110857

Número de citas:

Comparative techno-economic assessment of osmotically-assisted reverse osmosis and batch-operated vacuum-air-gap membrane distillation for high-salinity water desalination

  • Zhang Z.
  • Atia A.A.
  • Andrés-Mañas J.A.
  • Zaragoza G.
  • Fthenakis V.

DESALINATION - 15/6/2022

10.1016/j.desal.2022.115737

Número de citas: 16 (Web of Science) 6 (Scopus)

Performance modelling and optimization of three vacuum-enhanced membrane distillation modules for upscaled solar seawater desalination

  • Andrés-Mañas J.A.
  • Requena I.
  • Ruiz-Aguirre A.
  • Zaragoza G.

SEPARATION AND PURIFICATION TECHNOLOGY - 15/4/2022

10.1016/j.seppur.2021.120396

Número de citas: 7 (Web of Science) 3 (Scopus)

Characterization of the use of vacuum enhancement in commercial pilot-scale air gap membrane distillation modules with different designs

  • J.A. Andrés-Mañas
  • I. Requena
  • G. Zaragoza

DESALINATION - 15/04/2022

10.1016/j.desal.2021.115490

Número de citas: 16 (Web of Science) 5 (Scopus)
Open Access

Performance increase of membrane distillation pilot scale modules operating in vacuum-enhanced air-gap configuration

  • Andrés-Mañas J.
  • Ruiz-Aguirre A.
  • Acién F.
  • Zaragoza G.

Desalination - 1/2/2020

10.1016/j.desal.2019.114202

Número de citas: 73 (Web of Science) 29 (Scopus)
Open Access

Application of solar energy to seawater desalination in a pilot system based on vacuum multi-effect membrane distillation

  • Andrés-Mañas J.
  • Roca L.
  • Ruiz-Aguirre A.
  • Acién F.
  • Gil J.
  • Zaragoza G.

Applied Energy - 15/1/2020

10.1016/j.apenergy.2019.114068

Número de citas: 77 (Web of Science) 35 (Scopus)
Open Access

Evaluation of Permeate Quality in Pilot Scale Membrane Distillation Systems

  • Alba Ruiz-Aguirre
  • Juan A. Andrés-Mañas
  • Guillermo Zaragoza

Membranes - 5/06/2019

10.3390/membranes9060069

Número de citas: 17 (Web of Science) 11 (Scopus)

Membrane Distillation Powered by Solar Thermal Energy: Pilot Projects

Membrane Distillation. Materials, Processes and Application - 2020

  • ORCID

Este autor no tiene conferencias.

Este autor no tiene patentes.

Solvent extraction regeneration technologies

  • Patricia Palenzuela
  • Juan Antonio Andrés-Mañas
  • Bartolomé Ortega-Delgado
  • Guillermo Zaragoza

Salinity Gradient Heat Engines - 2022

10.1016/b978-0-08-102847-6.00008-5

  • ORCID

Scopus: 8

Web of Science: 10

Scopus: 8

Web of Science: 10

Última actualización de los datos: 23/03/24 7:37
Próxima recolección programada: 30/03/24 3:00