Open Access3D Printed hydroponic system
Author(s) -
Fernando G. Aponte-Ortiz,
Andrea López-Rodríguez,
Carlos Díez Arroyo,
Jaycie A. Candelaria-Hernández,
César A. Román-Orellana,
Clara E. Isaza,
Mauricio CabreraRíos
Publication year - 2020
Publication title -
ingenierias
Language(s) - English
Resource type - Journals
ISSN - 1405-0676
DOI - 10.29105/ingenierias23.86-2
Subject(s) - flexibility (engineering) , yield (engineering) , 3d printed , variety (cybernetics) , computer science , mechanical engineering , seeding , engineering , process engineering , engineering drawing , manufacturing engineering , materials science , mathematics , composite material , aerospace engineering , statistics , artificial intelligence
Hydroponic systems have been around for many years and there is alarge variety of designs. This project approaches the design of a stackable hydroponic system for domestic use aiming for high yield. The 3-D printed prototype consisted of cylindrical elements each with three entries for seeding.These elements can be stacked up and rotated around one another providing configuration flexibility. In addition, the cap of our system is a half cylindrical element. A preliminary test included the use of Rockwool to grow coriander for 14 days. Being a prototype, it is still necessary to optimize the design, fine-tune its operation beyond its initial feasibility to both, maximize yield and minimize cost, which implies compromising on these two conflicting objectives.