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Chap 10. Temperature. Temperature and Heat Units Thermal Properties of Water Movement of Heat Energy Biological Influence of Temperature Dew Point and Frost Thermal Belt and Temperature Inversion Temperature Control for Crop Protection Controlled Environment Agriculture (CEA).
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Chap 10. Temperature Temperature and Heat Units Thermal Properties of Water Movement of Heat Energy Biological Influence of Temperature Dew Point and Frost Thermal Belt and Temperature Inversion Temperature Control for Crop Protection Controlled Environment Agriculture (CEA)
Heat of Vaporization • Heat is absorbed from surrounding when water evaporates • Heat of vaporization = 970 BTU per lb of water evaporated • Greenhouse cooling by the pad-and-fan evaporative system
Pad-and-fan evaporative cooling system • Evaporative pad on one side wall and fans mounted on the other side wall • Flow of cooled air from pad area to fan area (one air exchange/min) • Maximum distance from pad to fan = 200 feet • Temperature differential (∆T) between pad and fan areas is usually 7 oF • Greenhouse air can be cooled down to the wet-bulb temperature Cool-cell pad Exhaust fans mounted on the side wall
Psychrometric Chart • Illustrates the thermal properties of air • Dry-bulb temperature • Air temperature of sensible heat • measured by dry-bulb thermometer • Wet-bulb temperature • Temperature of an aspirated thermometer • measured with the bulb encased in a water • saturated wick Measure the room temperature Dry-bulb temp: ________oF Wet-bulb temp: ________oF
Greenhouse Cooling with High-Pressure Fogging System • Use high-pressure (1000 psi) to generate fog (size 25-40 µ diam) • Use stainless steel pipe to prevent corrosion problem • Use low-salinity de-ionized water to prevent clogging of nozzles • More efficient in cooling the ambient air where it is needed • Less disease and algae problem, compared to misting system • Cost of installation high Summer cooling of greenhouse with fogging system High-pressure fogging
Heat of Fusion • Heat is released to surrounding when water freezes • Heat of fusion is used to protect citrus fruits from freezing
Heat of fusion from ice formation protects citrus crops exposed to freezing temperature in Florida
Overhead water sprinkling on citrus crops in Florida to save them from freezing
Cell Damage by Low Temperature • Ice crystals rupture cell walls • Intracellular or intercellular event • Leakage of cell contents • Readily occurs in tender plants • Influence of “extensin” on cell wall Ice crystals Cell wall ruptures Extensin (rupture-resistant)
Cryogenic Storage • Liquid nitrogen (-196 oC, -320 oF) • Permanent storage of pollen, seed, meristems
Thermal Belt • Good site for locating an orchard • Usually on a sloped hill side • North-facing slope is better the south-facing slope cold warm warm cold warm slope warm slope Normal Condition Temperature Inversion
Peach orchard located on a thermal belt, Western Slope, Colorado
Grape orchards (vinyards) in Napa Valley, California Frost damage in vinyards is not as severe in other orchards because flowering of grapes occurs after shoot emergence
Prevention of frost damage by movement Windmills and helicopters are used to mix the air to prevent frost damage on fruit crops during temperature inversion
Frost Damage on Strawberry Plants in California A B Normal Damaged B. Crop failure often results from freezing of flower parts that are delicate and fragile. Stigmas and anthers are easily damaged by light freeze and become incapable of pollination and fertilization. A. Freezing of leaves is often initiated by the presence of ice nucleating active (INA) bacteria that secrete proteins that act as primers for ice crystal formation
Ice Nucleating Active (INA) Bacteria on Strawberries • INA bacteria secrete protein on the leaf • Protein serves as a primer for ice crystal formation • Mutant INA bacteria secrete defective proteins (ice-) • Mutant proteins are incapable of forming Ice crystals Wild type INA bacteria Mutant type INA bacteria defective protein Ice crystals formed on the leaf → frost damage No ice crystals formed on the leaf → no frost damage
Plant Growing Structures Controlled Environment Agriculture (CEA) Cold Frames Hotbeds Cloches and Plastic Tunnels Greenhouses Shade and Lath Houses