« To news overview19.03.2015

2SaveEnergy greenhouse is making good progress

In the Innovation and Demo Centre (IDC energie) the tomato variety Cappricia (RZ) was planted in the 2SaveEnergy greenhouse on January 27 at a density of 2.5 plants/m2. In week 8, one of every 2 additional suckers was retained, so there is now 3.8 stems/m2.

The 2SaveEnergy-greenhouse consists of a combination of glass and an ETFE film that creates an insulating cavity in the greenhouse covering. The researchers want to achieve good yields and quality in this greenhouse with the least input of energy. The target of the trial is 63 kg/m2 yield for a gas consumption of 19 m3/m2. Researcher Frank Kempkes from Wageningen UR Glasshouse horticulture described his experiences with this greenhouse.
"We are now 7 weeks into the project, and the energy consumption so far, 2.8 m3/m2, is very promising. On the other hand, the winter was rather mild. Along with the double covering, the double screen also contributes to the energy savings. It has been closed for an average of 110 hours per week.


Also in terms of cultivation technology, the project is doing well. The crop is developing very fast, but with daily temperatures of around 21°C for the last 3 weeks, we wouldn't expect anything else. It is striking in this greenhouse how easily the space is warmed up by the sun. With the good weather we have been having recently, the tube heating disappears by 9 am and does not return until 7 or 8 pm.


The question asked most frequently by visitors to this greenhouse concerns the cavity. What happens when it snows? Is there any contamination, and what happens if the greenhouse covering freezes? As already stated, the winter was mild so we have not had the ultimate snow test yet. When it did snow, the air temperature quickly rose above freezing, so we cannot draw any conclusions. What we do know is that with snow and frost you cannot expect that the snow will be gone in an hour. Compared to the heat capacity of air, the energy required to melt away the snow and ice is just too great. We know from personal experience how much heat you have to add to the greenhouse at times like that to remove the snow from the covering.


What we have worked on is the control of the response to snow and especially to freezing of the greenhouse covering. In a greenhouse with an insulating covering, the temperature of the covering (on the outside) regularly drops to below the dewpoint temperature of the ambient air in the winter. At those moments the moisture in the air precipitates onto the greenhouse covering. Then it freezes there, and as a result the transmission declines significantly. In that case, we turn on the cavity ventilation, which causes the greenhouse covering to defrost and correct the loss of light. To achieve this, we installed a ‘frostpoint measurement'. Together with a surface temperature measurement of the glass on the outside of the greenhouse, we now know whether the covering is freezing. If it is, the cavity ventilation goes on."


This project is being financed by the Kas als Energiebron programme, the innovation and action programme of LTO Glaskracht Nederland and the Ministry of Economic Affairs (EZ).

 

Source: Kas als Energiebron 

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