SE—Structure and Environment: Temperature Control and Energy Conservation in a Plastic Greenhouse

Two-dimensional air#ows and temperature distributions, corresponding to a typical single-cell Rayleigh} Benard convection pattern, were characterized in a reduced scale, mono-span, greenhouse module. The module has #oor heating; it is kept airtight and the walls are insulated. It is designed to simu

Experiments were conducted in a full-scale, commercial greenhouse, to study the vertical distributions of temperature and humidity ratio under closed and naturally ventilated conditions. A comparison was made between ventilation by continuous roof openings only and ventilation by opening both roof a

A concept for a greenhouse dehumidi"er has been designed. Important constraints for the design are low-energy consumption and homogeneous greenhouse climate. From a survey of dehumidifying methods, condensation to a cooled surface was selected as most promising. Low-energy demand is achieved by natu

This paper presents an algorithm developed to predict the dynamic ambient greenhouse air conditions which optimize net pro"ts for the production of a greenhouse tomato crop. Pro"ts are equated to the crop yield value less the energy costs for heating and dehumidi"cation and the CO injection cost. Th

The present project tested a model predicting the dynamic ambient greenhouse air conditions maximizing a tomato crop yield value less the energy cost. For simpli"cation, this yield value less energy cost is referred to as net pro"ts. Net pro"ts were equated to crop yield value, computed from the dyn

Greenhouse lettuce with high nitrate levels is unmarketable in the European Union. To avoid the loss of a crop, an economical environmental control strategy, based on a suitable crop model, is required. A recently developed dynamic lettuce growth model, in conjunction with a simple greenhouse model,