Javier Bonilla scite author profile

Abstract:The water deficit in the Mediterranean area is a known matter severely affecting agriculture. One way to avoid the aquifers' exploitation is to supply water to crops by using thermal desalination processes. Moreover, in order to guarantee long-term sustainability, the required thermal energy for the desalination process can be provided by solar energy. This paper shows simulations for a case study in which a solar multi-effect distillation plant produces water for irrigation purposes. Detailed models of the involved systems are the base of a predictive controller to operate the desalination plant and fulfil the water demanded by the crops.

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New approach for solar tracking systems based on computer vision, low cost hardware and deep learning

Carballo

Bonilla

Berenguel

et al. 2019

Renewable Energy

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In this work, a new approach for Sun tracking systems is presented. Due to the current system limitations regarding costs and operational problems, a new approach based on low cost, computer vision open hardware and deep learning has been developed. The preliminary tests carried out successfully in Plataforma solar de Almería (PSA), reveal the great potential and show the new approach as a good alternative to traditional systems. The proposed approach can provide key variables for the Sun tracking system control like cloud movements prediction, block and shadow detection, atmospheric attenuation or measures of concentrated solar radiation, which can improve the control strategies of the system and therefore the system performance.

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Javier Bonilla

Chattering in dynamic mathematical two-phase flow models

Technological recovery potential of waste heat in the industry of the Basque Country

Predictive Control Applied to a Solar Desalination Plant Connected to a Greenhouse with Daily Variation of Irrigation Water Demand

New approach for solar tracking systems based on computer vision, low cost hardware and deep learning

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