Energy–Water Management System Based on MPC for a Greenhouse in a Mapuche Indigenous Community


Abstract:

Featured Application: Implementation of an integrated EWMS using a model pbkp_redictive control strategy based on fuzzy optimization. The proposed EWMS is used to optimize irrigation for an indoor greenhouse crop. Rural communities usually settle in territories where crop self-consumption is the main source of sustenance. In this context, climate change has made these environments of crop control susceptible to water shortages, impacting crop yields. The implementation of greenhouses has been proposed to address these problems, together with strategies to optimize water and energy consumption. In this study, an energy–water management system based on a model pbkp_redictive control strategy is proposed. This control strategy consists of a fuzzy optimizer used to determine the optimal consumption from isolated microgrids considering the local resources available. The proposed controller is implemented on two timescales. First, medium-term optimization over one month is used to estimate the necessary water demand required to support crop growth and a high yield. Second, short-term optimization is used to determine the optimal climate conditions inside the greenhouse for managing crop irrigation, refilling the reserve water tank, and providing ventilation. Experiments were conducted to test this approach using a case study of an isolated community. For such a case, energy consumption was reduced, and the irrigation process was optimized. The results indicated that the proposed controller is a viable alternative for implementing intelligent management systems for greenhouses.

Año de publicación:

2023

Keywords:

  • energy–water nexus
  • Pbkp_redictive control
  • fuzzy optimization
  • Energy Management System

Fuente:

scopusscopus

Tipo de documento:

Article

Estado:

Acceso abierto

Áreas de conocimiento:

  • Ciencias Agrícolas
  • Ingeniería energética

Áreas temáticas:

  • Ingeniería y operaciones afines
  • Dirección general
  • Economía de la tierra y la energía