Modeling, Characterization and Analysis of the dynamic behavior of heat transfers through polyethylene and glass walls of Greenhouses

Bibi-Triki, N.; Bendimerad, S.; Chermiti, Ali; Mahdjoub, Tewfik; Draoui, Belkacem; Abene, A.

doi:10.1016/j.phpro.2011.10.011

Cited by 14 publications

(14 citation statements)

References 6 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…And plexiglass: it is a vapor barrier, in the form of a coating, it is installed inside the room in contact with the plaster-plaster insulation to prevent the humidity of the air from affecting the latter. This coating consists of polymethyl methacrylate [13] with a thermal conductivity λ = 0.19 W.m -1 K -1 comparable to that of the plaster plaster material and density ρ = 1.19 kg.m -3 .…”

Section: The Use Of a Wall Consisting Ofmentioning

confidence: 99%

Influence of Excitation Period on Thermal Transfer of Tow-Plaster Thermal Insulation Plate Attached to Wall: Application to Cold Room

Mbengue¹,

Diagne²,

N’Diaye³

et al. 2020

IJAR

View full text Add to dashboard Cite

Composite wall consisting of three layers placed from outside to inside in concrete, plaster and plexiglass, is subject to external climatic constraints evolving in frequency dynamic regime. Goal is to maintain indoor environment at lower temperature for thermal comfort in homes or thermal insulation of cold rooms. By means of excitation pulse, periods of external climatic stresses for which thermal insulation is effective for this wall system are determined

show abstract

Section: The Use Of a Wall Consisting Ofmentioning

confidence: 99%

Influence of Excitation Period on Thermal Transfer of Tow-Plaster Thermal Insulation Plate Attached to Wall: Application to Cold Room

Mbengue¹,

Diagne²,

N’Diaye³

et al. 2020

IJAR

View full text Add to dashboard Cite

show abstract

“…This article deals with the modeling and simulation of our The T wall temperature evaluation model (Bibi-Triki et al, greenhouse model which is based on the method of GUESS P 2011), closest to reality is determined based on the average (Jamisson, 2006). GUESS is a model set in parameter block, temperatures T and T : meaning that spatial heterogeneity is ignored and it is assumed that Pi Pe the inner content and the flow through the system boundary are evenly distributed.…”

Section: Modeling the Greenhouse 23 Evaluation Model Of The Wall Tementioning

confidence: 99%

“…evaporative cooling methods can be modeled as adiabatic cooling process; the minimum temperature and the achievable maximum 2.4. Heating systems vapor pressure is equal to the wet bulb (Jamisson, 2006).…”

Section: Cooling Pads Modelmentioning

confidence: 99%

Modeling and simulation of fuzzy logic controller for optimization of the greenhouse microclimate management

Faouzi¹,

Bibi-Triki²,

Draoui³

et al. 2017

AST

Self Cite

View full text Add to dashboard Cite

Abstract. Agricultural greenhouse is largely answered in the agricultural sphere, despite the shortcomings it has, including overheating during the day and night cooling which sometimes results in the thermal inversion mainly due to its low inertia. The glasshouse dressed chapel is socio-economic analysis of populations in the world leaves appear especially the last two decades of rapid and profound transformations These changes are accompanied by changes in eating habits, mainly characterized by rising consumption spread along the year. To effectively meet this demand, greenhousesystems have evolved, particularly towards greater control of production conditions (climate, irrigation, ventilation techniques, CO supply, etc.). Technological 2 progress has allowed the development of greenhouses so that they become increasingly sophisticated and of an industrial nature (heating, air conditioning, control, computer, regulation, etc.)

show abstract

“…Whether the distributed system modeling approach or the lumped capacitance modeling approach is used, the underlying physical laws of conservation of energy and conservation of mass are the starting point of the modeling process. The authors in [5] have used the lumped capacitance modeling approach to derive differential equations in state-space form by applying the principle of conservation of energy governing the heat transfer processes occurring in a typical greenhouse system. The authors in [6] have used the thermal network approach to model the dynamics of a solarium/greenhouse system.…”

Section: B Modelling Of Greenhouse Systemsmentioning

confidence: 99%

Environmental Control of a Greenhouse System Using NI Embedded Systems Technology

Papageorgiou¹,

Sadriwala²,

Almoalem³

et al. 2016

JOACE

View full text Add to dashboard Cite

This paper presents the application of an automated environmental control system for a prototype greenhouse system using commercial embedded systems technology. The prototype greenhouse system was developed and instrumented with appropriate sensors to measure various environmental variables like the temperature, the light intensity, the soil moisture, the air humidity and CO 2 concentration. These measurements are provided to the control algorithm which is implemented on a commercial embedded system and manipulates various actuators like, a heating and cooling actuator, fans, lights, irrigation system, and louvers in order to achieve the desired set-points, as specified by the user through a Human-Machine Interface implemented in LabView software. Certain aspects of the greenhouse dynamics have been modeled in Matlab/Simulink using nonlinear differential equations and the simulation model has been validated against experimental data, showing good agreement between the simulation and the experimental data. The purpose of this work is to enhance research related to the accurate environmental control of greenhouse systems in order to minimize energy and water consumption and to develop a robust educational platform for teaching control system design, analysis, instrumentation and embedded systems development at the Engineering School of Bahrain Polytechnic.  IndexTerms-environmental control, automated greenhouse system, embedded system, temperature regulation 331

show abstract

Modeling, Characterization and Analysis of the dynamic behavior of heat transfers through polyethylene and glass walls of Greenhouses

Cited by 14 publications

References 6 publications

Influence of Excitation Period on Thermal Transfer of Tow-Plaster Thermal Insulation Plate Attached to Wall: Application to Cold Room

Influence of Excitation Period on Thermal Transfer of Tow-Plaster Thermal Insulation Plate Attached to Wall: Application to Cold Room

Modeling and simulation of fuzzy logic controller for optimization of the greenhouse microclimate management

Environmental Control of a Greenhouse System Using NI Embedded Systems Technology

Contact Info

Product

Resources

About