plant-canopy Downloads
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Since all droplets have the same charge, they repel each other, creating a fine spray mist less prone to runoff and coalescence. The opposite charges of the plant attract the particles to it, drawing the spray deep inside the plant's ...
Since all droplets have the same charge, they repel each other, creating a fine spray mist less prone to runoff and coalescence. The opposite charges of the plant attract the particles to it, drawing the spray deep inside the plant's ...
Since all droplets have the same charge, they repel each other, creating a fine spray mist less prone to runoff and coalescence. The opposite charges of the plant attract the particles to it, drawing the spray deep inside the plant's ...
Since all droplets have the same charge, they repel each other, creating a fine spray mist less prone to runoff and coalescence. The opposite charges of the plant attract the particles to it, drawing the spray deep inside the plant's ...
Since all droplets have the same charge, they repel each other, creating a fine spray mist less prone to runoff and coalescence. The opposite charges of the plant attract the particles to it, drawing the spray deep inside the plant's ...
Since all droplets have the same charge, they repel each other, creating a fine spray mist less prone to runoff and coalescence. The opposite charges of the plant attract the particles to it, drawing the spray deep inside the plant's ...
Since all droplets have the same charge, they repel each other, creating a fine spray mist less prone to runoff and coalescence. The opposite charges of the plant attract the particles to it, drawing the spray deep inside the plant's ...
This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired ...
Capture wide-angle plant canopy images while instantly estimating Leaf Area Index (LAI) and measuring Photosynthetically Active Radiation (PAR) levels. ...
LAI-2200C Plant Canopy AnalyzerWorld Standard for Indirect LAI MeasurementsThe LAI-2200C Plant Canopy Analyzer calculates Leaf Area Index (LAI) and other canopy structure attributes from radiation measure-ments made with a fisheye optical sensor (148° field of view). ...
ByDMP Ltd.
The leaf wetness sensor FAR75XXX detects the presence and duration of wetness on a leaf’s surface, enabling users to forecast disease and protect plant canopies. ...
ByMTX Srl
Thanks to the axial propeller from 800mm, this tower sprayer develops a powerful air blast that easily penetrates even the thickest vegetable wall. Towers move the air and nozzles closer to the target compared to the curved booms on a conventional airblast sprayer. When the distance-to-target is reduced, the odds of droplets reaching the target are improved. That means less pesticide drift and ...
Now featuring six spectra, VYPR 3p offers high fixture PPF up to 2330 µmol/s and high efficacy up to 3.8 µmol/s, enabling the direct replacement of a 1000W HPS fixture at more than 40% energy savings. The optional reflector kit provides a wider light pattern and uniform PPFD at plant ...
The wind that protects your crops provides excellent coverage and penetration even to dense canopy crops protecting the plant from top to ...
BioChambers’ plant growth chamber model TPCV-37 was specifically designed to maximize the light intensity at the top of the plants by incorporating a counterbalanced adjustable height lamp canopy. As the plants grow, the researcher easily adjusts the height of the lamp canopy to maintain the light intensity at the top of the plants. The chamber features an open channel floor delivering ...
BioChambers’ plant growth room series TPR was specifically designed to maximize the light intensity at the top of the plants by incorporating a counterbalanced adjustable height lamp canopy. As the plants grow, the researcher easily adjusts the height of the lamp canopy to maintain the light intensity at the top of the plants. Airflow is sent downward in the center aisle to the floor where ...
BioChambers’ plant growth room series TPRF was specifically designed with an open channel floor delivering upward airflow providing uniform conditions on a horizontal plane. Maximum light intensity is achieved at the top of the plants by incorporating a counterbalanced adjustable height lamp canopy. As the plants grow, the researcher easily adjusts the height of the lamp canopy to maintain ...
Typical applications include measurement of spectral output (energy flux density, photon flux density, or illuminance) of different radiation sources (often for plant or human lighting), and reflectance and transmittance measurements of natural and synthetic surfaces and materials (often plant leaves and ...
BioChambers’ plant growth chamber model TPC-19, first in the industry, was specifically designed for facilities with high ceilings, allowing a design which maximizes the available floor space. Maximum light intensity is achieved at the top of the plants by incorporating a counterbalanced adjustable height lamp canopy. As the plants grow, the researcher easily adjusts the height of the lamp ...