文献类型: 会议论文
第一作者: B. Morille
作者: B. Morille 1 ; C. Migeon 1 ; P.E. Boumet 1 ;
作者机构: 1.UP EPHor, Agrocampus Ouest Institut National d'Horticulture et de Paysage Angers France
关键词: crop activity;temperature;humidity;evapotranspiration
会议名称: GREENSY2011
主办单位:
页码: 755-762
摘要: The crop activity inside a greenhouse is strongly affected by the local microclimatic conditions (radiation, temperature and humidity of air in particular). In order to reduce the consumption of energy and water, the control of these parameters is of prime interest. A better knowledge of the local climate may also help to formalize processes in CFD studies. The objectives of the present study are: (i) to analyse the evolution of the microclimate in the vicinity of the canopy all day long and (ii) to assess the spatial heterogeneity of the radiation distribution, air humidity and temperature above the crop, and crop évapotranspiration. In this prospect, a 100 m~2 greenhouse compartment located in Angers (47° 28' N, 0° 33' E) was equipped with a set of sensors including temperature and humidity probes as well as solar silicium cells and pyranometers. Crop evapotranspiration was measured at two locations with balances. Under rather clear sky conditions, the horizontal distribution of the climatic parameters was analysed as well as their temporal evolutions which were compared to each other. At a short time scale (2 hours), strong radiation and humidity spatial-heterogeneities are observed without impact on temperature distribution: different evolutions of their characteristics all over the day, mainly due to shadows, are reported, but averaging the values of the climatic parameters over time (from 8 am to 4 pm) erases these heterogeneities. The investigations of the temporal evolution of the climatic parameters evidence the role played by the radiation. Knowing both the spatial distribution and temporal evolution of the crop activity could help to select hypotheses for CFD simulations as well as to identify the plant requirements and to adapt a strategy for heating and irrigation.
分类号: S62-532
- 相关文献
[1]Study on temperature and humidity coupling control of plant factory based on ANFIS. Liu Jiayao,Guo Xiaokun,Liu Yong,Hu Wenwen,Xu Shipu,Wang Yunsheng. 2022
[2]OLED study for military applications. F. Barre,A. Chiquard,S. Faure,L. Landais,P. Patry. 2005
作者其他论文 更多>>
-
Predicting the Distributed Climate inside a Venlo Glasshouse with CFD Considering the Variation of Solar Radiation at Daily Time Scale
作者:A. Cablé;P.E. Bournet;B. Morille;G. Chassériaux
关键词:airflow;climate;CFD;crop;greenhouse;heat transfer;radiation;transpiration
-
A Dehumidifying Heat Pump for Greenhouses
作者:C. Migeon;A. Pierart;D. Lemesle;A. Travers;G. Chassériaux
关键词:dehumidification;heat pump;greenhouse climate;energy
