SE—Structures and Environment: Convective and Ventilation Transfers in Greenhouses, Part 2: Determination of the Distributed Greenhouse Climate

In this paper, the characterization and modelling of the most relevant convective transfers contributing to the elaboration of the greenhouse climate are reviewed. Convective transfers include heat and mass transfers between air and solid surfaces (walls, roof, leaves) along with air, heat, water va

Transpiration is a major cooling mechanism of greenhouse crop canopies. The larger this energy dissipation component, the smaller the required ventilation rate. The evaporation coefficient, namely the fraction of the radiation load dissipated as latent heat, is therefore an important ventilation des

A laboratory method for studying natural ventilation by thermal e!ects was applied to a single-span tunnel greenhouse with di!erent opening arrangements. One-tenth scale models of the tunnel greenhouse were made of Perspex and immersed in a water tank. The buoyancy #ux due to solar heating of the #o

The in#uence of the greenhouse ventilation regime (natural or forced ventilation) on the energy partitioning of a well-watered rose canopy (Rosa hybrida, cv. First Red) was investigated during several summer days in warm mediterranean conditions (Volos, Eastern Greece). Two types of ventilation syst

Optimized control strategies for carbon dioxide (CO 2 ) enrichment of greenhouse tomato crops using CO 2 from the exhaust gases of boilers burning natural gas are presented. In one group of strategies, the heat produced during CO 2 generation which exceeds the immediate heat requirement of the green