HYDRION-LINE, TOWARDS A CLOSED SYSTEM FOR WATER AND NUTRIENTS: FEEDBACK CONTROL OF WATER AND NUTRIENTS IN THE DRAIN

TH.H. Gieling, F.J.M. Corver, H.J.J. Janssen, G. van Straten, R.J.C. van Ooteghem, G.J. van Dijk
The development and market introduction of affordable ion specific sensors, like the ISFET sensor, has paved the way for completely new systems for application of fertilisers to crops in greenhouses. This paper describes the use of information feedback from flow sensors and ion specific sensors to regulate the supply of water and nutrients to a model gully. When a controller keeps the drain flow and the concentrations of the individual ions in the drain at a sufficiently high fixed value, the uptake of the plants is intrinsically compensated, i.e. the demand of the plants is exactly satisfied. Time series measurements of flow and concentration in supply and drain are used to design the controller for applying nutrients to a tomato crop in a near-practice greenhouse. Data are shown of fertiliser concentrations and flow in supply and drain during the design phase and test phase of the controller.
Gieling, TH.H., Corver, F.J.M., Janssen, H.J.J., van Straten, G., van Ooteghem, R.J.C. and van Dijk, G.J. (2005). HYDRION-LINE, TOWARDS A CLOSED SYSTEM FOR WATER AND NUTRIENTS: FEEDBACK CONTROL OF WATER AND NUTRIENTS IN THE DRAIN. Acta Hortic. 691, 259-266
DOI: 10.17660/ActaHortic.2005.691.30
https://doi.org/10.17660/ActaHortic.2005.691.30
fixed drain flow, fixed drain concentration, ion specific controller, ion sensor
English

Acta Horticulturae