Chrysanthemum growers Arcadia and Van Uffelen are definitively going to use 'The Next Generation Growing' at their nurseries in De Lier and Maasland. Technokas was asked to equip the companies with the air conditioning systems needed.
Van Uffelen’s greenhouse was designed and built by Technokas two years ago. The chrysanthemum nursery was also prepared to some extent for the installation of the climate system required by The Next Generation Grwoing. The Arcadia installation is part of a new project involving replacement and expansion at an existing site. The installation will suck dry outside air via the gable ends, possibly mix this with greenhouse air, and if necessary heat this locally until it reaches the indoor temperature. It will then be distributed among the cultivation departments with transparent hoses.
Portals in gable ends
Air handling units (AHUs) will be installed in the purpose-made portals in the gable ends. The greenhouses will be provided with manifolds and mix groups for the heating elements, where these do not already exist. In addition, the installations for sprinkling and lighting are designed in such a way that the air distribution tubes can easily be hung over the crops, and do not negatively affect the reach of the treated air from the holes in the hose. These greenhouses are also provided with a second energy screen.
Arcadia and Van Uffelen decided to use this climate system as a result of the good results achieved with them in one of Arcadia’s other sites. Wageningen UR, Kas als Energiebron, DLV, Deliflor and other chrysanthemum growers have been testing this system for a long time. During prolonged tests with other crops, positive results in terms of controllability of climate requirements and energy efficiency have also been achieved using Technokas’ climate system.
Energy savings and a better climate
Growers expect the Technokas installation to help further improve the regulation of temperature distribution and relative humidity of the climate in a cultivation department. In addition to a more uniform climate, growers expect that this, in combination with the energy screens, will result in 15 to 30 percent savings in energy consumption. The technology is also expected to lead to even better quality chrysanthemums.
Source: Technokas. Photos: Fotostudio GJ Vlekke.
Van Uffelen Flowers held an open-doors day to show off its newly delivered four-hectare chrysanthemum greenhouse at Herenwerf in Maasland on Saturday 16 April, together with its builders and installers.
The newly designed Greenhouse was built by Technokas. The greenhouse cover was executed in diffuse glass, with a haze factor of 70. Another interesting detail is the double screening system by Svensson (Harmony 2515) and Bonar (energy-saving blackout cloth), executed by Huisman Scherming. The lighting system was provided by Hortilux Schréder (1,000 Watt SON-T narrow-angle lighting fixtures, 10,000 lux), and the other water and electrical systems were by Stolze.
Next Generation Cultivation
The greenhouse is prepared for the installation of air handling units for mixing the air in the greenhouse with air blown in from outside, in accordance with the basic principles of Next Generation Cultivation. ‘This system allows the entire air content of a greenhouse to be complete renewed approximately once every hour,’ explains Hans van Tilborgh of Technokas. ‘It will not be replacing the air vents, but will comprise a useful addition to them.’ Before the outside air is blown into the greenhouse through a large hose, it is heated to the greenhouse temperature. This is to prevent climate differences in the greenhouse.
However, the system does not provide in heat recovery, like tomato grower Ted Duijvesteijn’s ID Greenhouse. ‘That would mean installing a much more complex system. It also saves energy. In combination with a double screen this greenhouse will allow us to save 30 to 40 per cent more energy than in a conventional chrysanthemum greenhouse,’ continues Van Tilborgh.
In addition to the greenhouse, Technokas also supplied Van Uffelen Flowers with hoistable heating frames and production halls, designed by the Poortinga & Zwinkels architecture firm. According to architect Hester Poortinga, Van Uffelen aims to have its new building reflect the brand identity and values of Zentoo: transparent, unifying and innovative. Zentoo is the trademark under which Van Uffelen chrysanthemums are marketed. The chrysanthemum varieties are supplied by Fides and Deliflor.
Other technical tours de force at Van Uffelen Flowers are the Robur fully automated spray boom, the ISO Group peat block planting machine and the Bercomex harvester. Once harvested, the flowers are transported to the shed on underground conveyor belts. The cooling facilities with pre-cooling units were supplied by Hamelink Koeling BV.
Text/photos: Mario Bentvelsen.
‘The focus points of our brainstorming sessions are sustainability, sustainability and sustainability.’
Duijvestijn Tomaten in Pijnacker was elected ‘world’s best tomato grower’ in the Crop & Process Technology category in 2015. Ted Duijvestijn explains the innovative projects his firm is currently working on and what prompted their development. An interview with a passionate entrepreneur.
We are speaking to Ted Duijvestijn in his company’s Innovation Center.
Why do you have an Innovation Center?
‘When we switched from natural gas to geothermal heat we got a lot of interested visitors. And when we built the ID Greenhouse® in 2013, we realised that we needed a solution to be able to continue receiving visitors on this scale. This gave birth to the idea of the Innovation Center, with a big reception area and a balcony with a view over the entire ID Greenhouse®.
‘We attach great value to hygiene and safety. We can now receive visitors and show them what we do without any concessions to either hygiene or safety. Apart from that, we can now receive our customers in a pleasant environment while our day-to-day operations can be carried out without any disturbance.’
What prompted you to choose that name?
‘Our firm has grown step-by-step to 14.5 hectares. After the last expansion we asked ourselves: “How shall we continue: will we try to cut as many costs as possible or are there other opportunities for growth?” We decided that our greatest affinity lay in the field of innovation and that this is precisely where new opportunities can be found. This is our Innovation Center. We regularly hold brainstorming sessions here. This is where we discuss how to respond to changes and what is really important to us. These discussions have generated several innovative projects, such as the ID Greenhouse®. The focus points of our brainstorming sessions are sustainability, sustainability and sustainability. And of course, we always ask ourselves when we come up with a new idea: is it commercially viable, what will it bring us?’
Did you decide to switch to geothermal heat because it is sustainable?
‘Sustainability was a key issue when we made this choice, but our investment had to be profitable, too. We made the switch in 2011. This summer we even had a heat surplus on account of the warm weather. Due to the EHEC crisis we also had a tomatoes surplus, so we came up with the idea of producing oven-dried tomatoes. This is responding to long-term developments and seeing if you obtain a position in a new market. Of course, there is also the financial aspect to consider: can you get funding and develop more know-how? What happens is that you learn new things that take you another step further. We designed a machine dries tomatoes using geothermal heat. We conducted tests on content, taste, temperature, time, varieties - we tested everything we could possibly think of.’
Duijvestijn shows the result with due pride: wedges of dried tomato, in small round containers and in different flavours. The tomatoes were grown on the Duijvestijn premises and are marketed as “Frezta, oven-dried Dutch tomatoes”.’
Isn’t ‘oven-dried’ misleading? They aren’t dried through and through. like most dried tomatoes.
‘They are semi-dried and we add seasoning plus a little oil. You do have to store them in the refrigerator.’
Was it difficult to find distributors?
‘We are still working on it. It is a question of getting distributors interested and gradually building up a market. We can now count several supermarkets, restaurants and delicatessen shops among our customers. In addition to the tomatoes, we also developed a tapenade that market under the name “Tomade”.’
The next innovative product you came up with was the ID Greenhouse®.
‘Looking at new greenhouse systems, we didn’t see many developments that would actually take you a lot further. The frames became higher, that was all. What’s really important is light. Another key topic is energy consumption, even if you have geothermal heat. We wondered how you can combine the two and further optimize your use of energy and hit upon the idea of double glazing. The K factor (thermal conductivity coefficient) of double glazing is twice that of regular single glazing. So we launched a pilot, in collaboration with the Wageningen University Research Centre, based on the VenlowEnergy Greenhouse study that was being conducted at that time. This resulted in the ID Greenhouse®, with a surface area of one hectare. This lets you perform tests on a substantial scale, without being too small to get genuine results.’
How does the ID Greenhouse® distinguish itself from other greenhouses?
‘The ID Greenhouse® has diffuse double glazing with panes measuring 3x2 metres; twice as big as conventional panes. The greenhouse is tilted, so that the rows are at right angles to the cover. We chose this construction because it lets you get as much light as possible to the crop. This construction consolidates the power where it needs to be in the greenhouse. As the screen runs from gutter to gutter, the screen package closes beneath the gutter and barely takes any light away. A tiny grille at the top edge of the ridge vent prevents rain from coming in when the ventilation grid is left slightly open. The exterior has a sloped wall to reinforce the frame. Besides that, you can mount equipment onto it, such as air handling units.’
Does the greenhouse meet your expectations?
‘We chose this greenhouse to grow tomatoes with smallest energy input possible. The first year we used it we received some guidance from Wageningen University Research Centre and were able to achieve energy savings of 60 per cent, by using only low-quality heat. The water from the geothermal well is 75°C. In the standard greenhouse this is cooled to 45°C - depending on the return flow rate - and is then transported to the ID Greenhouse®. The challenge is to cool the water in the ID Greenhouse® down to 25°C, which means that you’re making optimum use of the geothermal energy. After using it in the standard greenhouse you get your heating water practically for free, but in the first year we unfortunately had to make some concessions to quality.’
So the greenhouse isn’t performing satisfactorily?
‘The level of quality rises every year, as is already apparent in the second year. During the first year it is particularly important to ensure that all your equipment is functioning properly. At this stage, it doesn’t pay to spend a lot of time making all sorts minute adjustments to your climate settings in an attempt to take things to the next level. Now that we’re in the second year we aim to achieve savings of 50 per cent, in combination with a higher production at the right level of quality. In first year we achieved our goal of 50 per cent, but not the production level we were after. The biggest problem was related to light loss on account of condensed moisture on the glass. Both the interior and exterior glazing had been provided with an HR coating to prevent light reflection, because you want to get the same amount of light inside the greenhouse that you would with conventional glazing. This coating creates tiny pyramids on the glass, as it were, onto which droplets of condensed moisture cling. We have since removed the coating on the inside. Now the moisture can flow away more easily. A small percentage of light is still lost in comparison to single glazing, but compared to last year we have gained 5 per cent more light.’
So the greenhouse is performing satisfactorily after all?
‘It’s too early to really say anything about it. We aim to compensate for the loss of light through the frame. You can come up with the best ideas on the drawing board, but you never know how well something is going to work until you’ve put it into practice. Only then can a product be truly tested and will you learn more. The CO2 supply - from Ocap - was adjusted in this second year, for example. It failed to produce the correct values from time to time. Instead of the extension of the CO2 supply in the other greenhouses we managed to put together provisionally there is now a direct supply.
‘We achieved the envisioned energy savings, and now we’re working on raising our production level, step by step. After only one year you can’t rightly draw any conclusions; only after about three years can you truly say anything. In the meantime you identify the challenges, look for improvements and learn from your experiences.’
Is such a small ridge vent enough to meet for ventilation needs?
‘The air vents in the greenhouse had been fitted with mesh. As a result, insects could not enter the greenhouse, which means that we can achieve an even lower maximum residue level in our tomatoes. You could then get even more out of using natural enemies. However, the fine mesh obstructed the flow of air; particularly on days with little wind and warm, humid air. Weather conditions like that put a lot of stress on the plants. We therefore abandoned that idea, since stress has a negative impact on quality and production. Now that the mesh has been removed we are able to control the climate, in combination with the AHUs, more accurately.’
Do you expect more greenhouses to be built with double-glazing on the roof?
‘Taking into account the energy savings, our expectations are high. Economically speaking, however, there is still a way to go. Double glazing is still rather expensive.’
Duijvestijn Tomaten in Pijnacker was elected ‘the world’s best tomato grower’ in the Crop & Process Technology category in 2015 by a jury who also presented the accompanying Tomato Inspiration Award. The jury was composed of experts Gene Giacomelli (University of Arizona, USA), Ep Heuvelink (Wageningen University, the Netherlands), Stefanie de Pascale (University of Naples, Italy) and Tadahisa Higashide (NARO Institute, Japan). Duijvestijn Tomaten grows 14.5 hectares of primarily round and plum tomatoes. Besides these tomatoes, they also grow Silky Pink, an exclusive new variety of pink tomato with an exceptionally fruity flavour.
Visit the website Duijvestijn Tomaten.
Would you like to know more? Download the complete interview with Ted Duijvestijn on innovative projects such as geothermal energy, the ID Greenhouse®, CHP units, LEDs, geothermal energy-dried tomatoes and packaging made from waste foliage (login required).
Copy/photo: Tuinbouwteksten.nl/Theo Brakeboer.