Requirements and technology for smart materials in greenhouses Greenhouses in The Netherlands Workshop 13 April 2016, Bleiswijk Dr. Silke Hemming, Wageningen UR Greenhouse Horticulture About 10 000 Ha Nearly all glass 1/3 with artificial light Less than 1% of cultivated land More than 30% of Dutch agricultural income 12 13 Horticultural crops Vegetables [4750 ha] 1750 ha tomato 1200 ha pepper 550 ha cucumber Important function greenhouse covering Plants need: Light humidity Plants give: Vapour Plants need: CO 2 Cut flowers [1880 ha] 390 ha chrysanthemum 280 ha rose 160 ha gerbera Potted plants [1300 ha] Photosynthesis, growth, development, production IR temperature CO 2 Plants need: Water & nutrients 14 14 Cecilia Stanghellini 15
PAR light and photosynthesis Light quantity Most important process for plant growth: Photosynthesis depending on crop light intensity Light energy is used to convert CO 2 into carbohydrates Gijzen, 1995 16 17 Light quantity - limiting factor in NL yield increase per % light increase Crop % Yield increase Lettuce 0.8 Radish 1 Cucumber 0.7-1 Tomat o 0.7-1 Rose 0.8-1 Chrysanthemum 0.6 Pointsettia 0.5-0.7 Ficus benjamina 0.6 Light quantity More light by Advanced covering material White glass (+1-2%) AR on glass (+5-8%) New plastic films ETFE, PVDF (+3%) New screens and coatings Lighter greenhouse construction, less installations Roof angle, orientation Cleaning (up to 10%) Source: Marcelis et al., 2006 19 20
Light quality Light quality plant receptors Light quality (plant shape, flowering, colour): steering light UV, purple, blue (300-500 nm) Red (600 700 nm) Far red (700 800 nm) Via photo receptors: Phytochromes: R/FR ratio Cryptochromes: day length Fototropins: movement to light, stomatal opening Influences plant hormonal balances (auxins, gibberellins, cytokinins) Thereby effects on elongation, flowering, secondary metabolites, etc. 21 21 22 Effects of light colours - LED Effects of light colours natural light 23 24
New trends: light spectrum & fluorescence transmission trasnmission [-] [-] 1.00 0.95 0.90 0.85 0.75 0.80 0.70 0.75 Reference 0.65 0.70 Blue a 0.60 0.65 0.55 0.60 Blue Blue b 0.55 0.50 Blue c 0.50 300 400 500 500 600 600 700 700 800 800 wavelength wavelength [nm] [nm] Spectrum changes are often combined with light reductions à Interaction morphogentic effects and photosynthesis Source: Hemming et al. (2006) 25 Light spectrum: plastic films Number of fruits - strawberry EU-Spectrafoil Source: Hemming et al. (2006) 26 NIR-filtering materials transmission [-] 1,00 0,90 0,80 0,70 0,60 0,50 0,40 0,30 0,20 0,10 0,00 Glass PE film PE film PH2 PE film SF2 PET film M 60µm Diffuse light 300 500 700 900 1100 1300 1500 1700 1900 2100 2300 2500 wavelength [nm] Source: Hemming et al. (2005) 30 31
Diffuse light cucumber 4-10% more yield Diffuse light tomato 8-10% more yield 32 33 Diffuse coverings Glasses Plastic films Coatings Screens Screens Diffuse light anthurium and bromelia 25% faster & 25% more fresh weight 34 35
Solar radiation Greenhouse production uses sunlight Make use of natural sunlight PAR NIR Solar radiation in Bleiswijk, The Netherlands, in 2012: Total radiation: 3745 MJ m -2 y -1 Direct radiation: 1760 MJ m -2 y -1 Diffuse radiation: 1995 MJ m -2 y -1 90 mol PAR à 1 kg fresh weight tomato 8-10 mol d -1 sunlight à pot plant production 37 38 High productivity and energy neutral: the squaring of the circle? Highly PAR-transparent greenhouse cover...yet good thermal insulation Closure of the energy loop (excess/demand) not at greenhouse level producing electricity Which excess energy to use? Not heat (is inefficient) Not PAR (as far as possible, exception potplants) NIR (although it may increase heating requirement) Direct light (in some cases) UV (in most cases) Heat and electricity production on roof at Wageningen UR Greenhouse Horticulture... IDC Energy Cecilia Stanghellini 39 40
fotos: van der Valk Systemen, Monster NIR recollection at Wageningen UR Greenhouse Horticulture... Spectral filter which focus and reflects CPV collector for producing electricity NIR Fotos: Hermans Techniek Nederland bv, Kaatsheuvel Other examples 41 NIR recollection at Wageningen UR Greenhouse Horticulture... 42 NIR recollection at Wageningen UR Greenhouse Horticulture... CPV collects reflected sun light electricity, heat Lamellae below gutter reflect and focus NIR radiation PAR is transmitted 43 44
Recollection of direct light Linear Fresnel lenses and CPV collector Fresnel lenses in South-facing r oof slope concentrate direct sun light Click for video PV collect sun light at focus line diffuse sun light is transmitted 45 De Zwart et al., 2011 46 Results Fresnel greenhouse - light regulation Flexible solar cells Measured daily PAR light sum outside (black line) and inside (grey line) Fresnel lens greenhouse from November, 1 st 2011 until October 1 st, 2012. Measured daily greenhouse transmission in Fresnel lens greenhouse depending on outside PAR light sum, data from November, 1 st 2011 until October 1 st, 2012. 47 www.zonnepaneelfolie.nl www.zonnepanelen-experts.nl www.solarpartner.nl 48
Transparant solar cells Luminscent solar concentrators www.zonnepanelen.nl www.deingenieur.nl Tu/e, TUU 49 50 PPS = new ideas Short-term material testing Light quality Questions? Sensors, materials etc. Energy production Light quantity Mid-term adaptation to innovative systems Light geometrical distribution Long-term new material development Networking 51 52