High humidities of the greenhouse air reduce crop transpiration and nutrient uptake and increase the risk of fungal diseases. That is why growers keep the vents of the greenhouse at least on a crack during most of the time. This carries off the excess humidity but also valuable heat and CO2. The Greenhouse Horticulture and Flower Bulbs Business Unit of Wageningen University & Research is therefore investigating various dehumidification systems that can keep the greenhouse better closed. Results in a cucumber crop with such a system show a more than 60% reduction of heat consumption.
There are various ways to dehumidify the air in a greenhouse. Opening the vents a little or inserting outside air with ventilators are the most common. But, with these methods, dehumidification compromises the design objective of a greenhouse, which is to create a closed growing space. By using outside air for dehumidification, the greenhouse is deliberately made 'leaky.'
In recent years, several systems for internal dehumidification have appeared on the market. With such machines, heat and CO2 remain inside the greenhouse, and excess air humidity is converted to liquid water. Water is ready to be reused for irrigation. This system is principally equal to the energy-saving heat pump-based tumble dryers. However, the existing systems are mainly intended for plants growing in pots and cut flowers. Affordable internal dehumidification systems for high-wire crops (tomatoes, cucumbers, peppers) are still unexplored territory.
That is why WUR is investigating the practical implication of an as simple as possible heat pump-based air treatment unit tailored for high wire cropping systems. The researchers refurbished an existing air treatment unit, originally intended for outside air intake, with three simple construction dryers. Together, these provided a dehumidification capacity of 12 liters per hour, which is 24 grams/(m² hour) for the 500 m² test greenhouse. This allowed the greenhouse to be sufficiently dehumidified during cold periods and at night when the windows and screens were closed. With such a system, the greenhouse uses not more than 9 m³ of natural gas per m² per year while just keeping normal cucumber production. That is less than 35% compared to the current standard. Of course, the system does use electricity, namely about 30 kWh/(m² year).
This autumn, WUR will work with Van Dijk Heating on a further improvement of the system in order to have the electricity consumption and/or gas consumption of the greenhouse reduced even further.
Source: wur.nl