TY - JOUR
T1 - Modular Design and CFD-FEM Simulation of a Fog Collector for Atmospheric Water Harvesting
AU - Maravi, Heydi Karina Hinostroza
AU - Almidon, Nelfa Estrella Ayuque
AU - Contreras, Aron Jhonatan Aliaga
AU - Montesinos, Jean Fernando Perez
N1 - Publisher Copyright:
© 2026 Seventh Sense Research Group®.
PY - 2026/1
Y1 - 2026/1
N2 - The following study presents the design and simulation-based validation of a modular fog collector, which is structurally robust and aerodynamically optimized for high-altitude environments. By using CAD modelling, Finite Element Method Analysis (FEM), and Computational Fluid Dynamics (CFD), the system was evaluated under circumstances in which wind and gravity loads were combined. The results of this study show that the structure maintains safety factors greater than 2.6 and maximum displacements of less than 2 mm. In addition, CFD simulations revealed an effective interaction between the airflow and the collector surfaces, confirming its omnidirectional capture capability. When the present study was compared to conventional flat collectors, it was proven that the proposed design offers a better structural integrity as well as a better aerodynamic performance. As a result, this work brings a multidisciplinary approach to fog harvesting, with the potential for scalable implementation in different regions where the water source is scarce.
AB - The following study presents the design and simulation-based validation of a modular fog collector, which is structurally robust and aerodynamically optimized for high-altitude environments. By using CAD modelling, Finite Element Method Analysis (FEM), and Computational Fluid Dynamics (CFD), the system was evaluated under circumstances in which wind and gravity loads were combined. The results of this study show that the structure maintains safety factors greater than 2.6 and maximum displacements of less than 2 mm. In addition, CFD simulations revealed an effective interaction between the airflow and the collector surfaces, confirming its omnidirectional capture capability. When the present study was compared to conventional flat collectors, it was proven that the proposed design offers a better structural integrity as well as a better aerodynamic performance. As a result, this work brings a multidisciplinary approach to fog harvesting, with the potential for scalable implementation in different regions where the water source is scarce.
KW - Computational Fluid Dynamics (CFD)
KW - Design
KW - Finite Element Method Analysis (FEM)
KW - Fog water harvesting
KW - Modular collector design
UR - https://www.scopus.com/pages/publications/105028527629
U2 - 10.14445/23488352/IJCE-V13I1P114
DO - 10.14445/23488352/IJCE-V13I1P114
M3 - Original Article
AN - SCOPUS:105028527629
SN - 2348-8352
VL - 13
SP - 166
EP - 173
JO - SSRG International Journal of Civil Engineering
JF - SSRG International Journal of Civil Engineering
IS - 1
ER -