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Vilter Korea Corporation http://www.vilter.net
Fax 82 51 254 6968 Tel 82 51 248 9907
For order contact MR sung woo Ryoo
Cell 82 11 558 5500
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flake ice is the most effective and economical choice
for your cooling needs Faster cooling: flake ice has more than 17,000
square feet of surface area per ton of ice, providing greater cooling efficiency
than any other ice. Other types of ice, such as tube, plate, shell or crushed,
offer only 4,250 to 13,500 square feet of cooling surface area per ton
of ice.Thorough product mixing: flake ice melts rapidly to dissipate
heat and add moisture to mixtures, aiding the blending process, and will
not damage blending equipment.
Cooling Surface Area Per Ton of Ice
Better product coverage:Flake ice is formed in flat flakes
which flow more freely and provide greater contact area than any other
type of ice.Greater product protection:flake ice remains dry, packs
well and cushions products against damage. Its flat shape will not create
indentations in perishable products.Easier storage and distribution:flake
ice is completely dry, so it will not rapidly fuse together in a low-temperature
storage bin or clog screw conveyors or pneumatic delivery systems.Cost-effective
production:Flake ice is the most economical ice to produce, requiring only
1.3 tons of refrigeration per ton of ice from 60F (16?C) water.
standard conditions*
Capacity is rated under the following standard conditions
Necessary Freezing capacity calculation
for compressor selection of WOCFIM Model buyer
Water temperature 60F (16C), incoming 1. One refrigeration
ton (T)3.86kw(1.03TR)
Refrigerant evaporator temperature -15F (-26C), 2. Required
Ton (W)
Condensing temperature: 95F (35C) 3. Heat exchange facor
(R) 1.15
Ice thickness 1/16" (1.5mm), 4. Correction factor
according to supply water S
Ambient temperature 40F -> 100F (5C ->38C), 5.
Evaporative temp -25C base
60Hz electrical supply. Capacity will be less for higher
temperatures, 50 Hz CALCULATION EXAMPLE
Electric supply and on units using expansion valves.
Required ice production ton :5 tons, Supply water temp 15C Assiuming
So the necessary freezing capacity is asi follows:
QKIW = T X W X R X S
QKIW = T(i3.86) X W(5TON) X R(1.15) X S(I.19)=26.I4KIW
AT -25C ET