Simple climate models performed with a widespread computer tool (Microsoft® Excel) could be useful for researchers or even greenhouse growers. A model of this type was used in three independent studies (heating, ventilation and cooling). The error in the calculation of temperature was lower than 2.5 ºC, and the error in the calculation of relative humidity was lower than 9%, in the validation of the model. The main advantage of the method of modelling is the possibility of fitting the coefficients with the tool SOLVER of Microsoft® Excel in each greenhouse, an easy method for both scientist and growers
While thermal structures such as greenhouses are complex to model under transient conditions because...
[EN] This work focuses on development of control algorithms by incorporating energy and water consum...
With the aim of developing a model-based method to design greenhouses for a broad range of climatic ...
Performance of greenhouse environmental control systems can be evaluated by predictive climate model...
Model-based control techniques are commonly applied to control the greenhouse climate. As well-know...
Strategies for humidity control —with and without heating— were evaluated via simulations performed ...
A physical model of humidity within a greenhouse was developed, whereby ambient vapour concentration...
Model-based greenhouse climate control combined with use of reliable sensors can achieve ideal balan...
Most greenhouse climate models are specific for a particular combination of greenhouse type, crop, r...
The energy balance for a greenhouse canopy is complicated, since the transfer of energy cannot be as...
This paper describes two implementation approaches for modelling the air temperature of an automated...
In this book some physical aspects of greenhouse climate are analyzed to show the direct interrelati...
The main aim of this PhD research was to model heat and mass transfer in a greenhouse in order to si...
While thermal structures such as greenhouses are complex to model under transient conditions because...
A greenhouse is a complex environment in which various biological and non-biological phenomena occur...
While thermal structures such as greenhouses are complex to model under transient conditions because...
[EN] This work focuses on development of control algorithms by incorporating energy and water consum...
With the aim of developing a model-based method to design greenhouses for a broad range of climatic ...
Performance of greenhouse environmental control systems can be evaluated by predictive climate model...
Model-based control techniques are commonly applied to control the greenhouse climate. As well-know...
Strategies for humidity control —with and without heating— were evaluated via simulations performed ...
A physical model of humidity within a greenhouse was developed, whereby ambient vapour concentration...
Model-based greenhouse climate control combined with use of reliable sensors can achieve ideal balan...
Most greenhouse climate models are specific for a particular combination of greenhouse type, crop, r...
The energy balance for a greenhouse canopy is complicated, since the transfer of energy cannot be as...
This paper describes two implementation approaches for modelling the air temperature of an automated...
In this book some physical aspects of greenhouse climate are analyzed to show the direct interrelati...
The main aim of this PhD research was to model heat and mass transfer in a greenhouse in order to si...
While thermal structures such as greenhouses are complex to model under transient conditions because...
A greenhouse is a complex environment in which various biological and non-biological phenomena occur...
While thermal structures such as greenhouses are complex to model under transient conditions because...
[EN] This work focuses on development of control algorithms by incorporating energy and water consum...
With the aim of developing a model-based method to design greenhouses for a broad range of climatic ...