A Building Energy Simulation (BES) model based on TRNSYS, was developed to investigate the overall heat transfer coefficient (U-value) of greenhouse covers including polyethylene (PE), polycarbonate (PC), polyvinyl chloride (PVC), and horticultural glass (HG). This was used to determine the influences of inside-to-outside temperature difference, wind speed, and night sky radiation on the U-values of these materials. The model was calibrated using published values of the inside and outside convective heat transfer coefficients. Validation of the model was demonstrated by the agreement between the computed and experimental results for a single-layer PE film. The results from the BES model showed significant changes in U-value in response to v...
The paper explores possibility of using BES in performance evaluation of commercial agricultural gre...
Achieving favorable environment in the greenhouses under cold winter or hot and sunny summer conditi...
Times Cited: 0International audienceHumidity and temperature are key factors in greenhouse climate m...
A Building Energy Simulation (BES) model based on TRNSYS, was developed to investigate the overall h...
Energy management of the greenhouse is considered to be one of the most important challenges of gree...
The energy demand in greenhouses is enormous, and high-performance covering materials and thermal sc...
Greenhouses are important for stable food production, but require large amounts of energy to maintai...
Greenhouse covering material is the most governing member of the construction which controls two maj...
Thermal simulation models for the time-dependent heating requirement of greenhouses are very importa...
Two isothermal hot boxes designed, built, and set up in the open to investigate the overall heat tra...
This study proposes a building energy simulation (BES) model of an air-to-water heat pump (AWHP) sys...
Greenhouse technology is an important energy consumer sector representing an indispensable solution ...
This paper presents an experimental determination of energy requirement for greenhouse heating. The ...
Cladding material is one of the most important parts of a greenhouse. Thermal performances of a new ...
AbstractThe conventional agricultural tunnel greenhouse is highly widespread in Mediterranean countr...
The paper explores possibility of using BES in performance evaluation of commercial agricultural gre...
Achieving favorable environment in the greenhouses under cold winter or hot and sunny summer conditi...
Times Cited: 0International audienceHumidity and temperature are key factors in greenhouse climate m...
A Building Energy Simulation (BES) model based on TRNSYS, was developed to investigate the overall h...
Energy management of the greenhouse is considered to be one of the most important challenges of gree...
The energy demand in greenhouses is enormous, and high-performance covering materials and thermal sc...
Greenhouses are important for stable food production, but require large amounts of energy to maintai...
Greenhouse covering material is the most governing member of the construction which controls two maj...
Thermal simulation models for the time-dependent heating requirement of greenhouses are very importa...
Two isothermal hot boxes designed, built, and set up in the open to investigate the overall heat tra...
This study proposes a building energy simulation (BES) model of an air-to-water heat pump (AWHP) sys...
Greenhouse technology is an important energy consumer sector representing an indispensable solution ...
This paper presents an experimental determination of energy requirement for greenhouse heating. The ...
Cladding material is one of the most important parts of a greenhouse. Thermal performances of a new ...
AbstractThe conventional agricultural tunnel greenhouse is highly widespread in Mediterranean countr...
The paper explores possibility of using BES in performance evaluation of commercial agricultural gre...
Achieving favorable environment in the greenhouses under cold winter or hot and sunny summer conditi...
Times Cited: 0International audienceHumidity and temperature are key factors in greenhouse climate m...