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dc.creatorViloria, Amelec
dc.creatorPineda, Omar
dc.description.abstractCurrently, the world is in a necessary stage of energy transition due to the high rates of pollutants emitted into the environment.The agricultural sector contributes only 7% of these to the environment, a figure that is not alarming but certainly intervenes in the generation of pollution [1]. Environment offers some properties that can be considered such as the radiation provided by the sun, which is used today in greenhouses ranging from small and rustic to others of large dimensions and sophisticated systems of control and monitoring. This study consists of the supervision with a data acquisition system which (temperature and relative humidity sensors), thus allowing to know which physical magnitude varies faster through
dc.publisherCorporación Universidad de la Costaspa
dc.rightsAttribution-NonCommercial-NoDerivatives 4.0 International*
dc.subjectEnergy balancespa
dc.titleEnergy balance in a greenhouse: temperature and humidity monitoringspa
dcterms.referencesAchieving Net Zero Energy Greenhouses by Integrating Semitransparent Organic Solar Cellsspa
dcterms.referencesEstimation of Ventilation Rate in Naturally Ventilated Greenhouse with Continuous Roof Ventspa
dcterms.referencesDynamic energy balance model in a greenhouse with tomato cultivation: Simulation, calibration and evaluationspa
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dcterms.referencesModeling heating demands in a Chinese-style solar greenhouse using the transient building energy simulation model TRNSYSspa
dcterms.referencesConglomerates of Latin American Countries and Public Policies for the Sustainable Development of the Electric Power Generation Sectorspa
dcterms.referencesGreenhouse Gases Emissions and Electric Power Generation in Latin American Countries in the Period 2006–2013spa
dcterms.referencesHeat transfer and MLP Neural Network models to predict inside environment variables and energy lost in a semi-solar greenhousespa
dcterms.referencesProcess-based humidity control regime for greenhouse cropsspa
dcterms.referencesOptimal control of greenhouse climate using minimal energy and grower defined boundsspa
dcterms.referencesAutomated leaf temperature monitoring of glasshouse tomato plants by using a leaf energy balance modelspa
dcterms.referencesNon-linear constrained MPC: Real-time implementation of greenhouse air temperature controlspa
dcterms.referencesA wireless sensors network for monitoring environmental variables in a tomato greenhousespa

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Attribution-NonCommercial-NoDerivatives 4.0 International
Except where otherwise noted, this item's license is described as Attribution-NonCommercial-NoDerivatives 4.0 International