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Please refer to readme.html for full Instructions
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Text[0]=["Limitations","1. Minimum incoming suction temperature of 10°F.
2. Maximum incoming refrigeration liquid temperature of 130°F.
3. Do not use solenoid valves to control liquid temperature. We recommend modulating controls only as opposed to on/off controls. This will tend to avoid pressure pulsation and large temperature excursions.
4. It is strongly recommended that the same refrigerant be used on both sides of the subcooler. Failure of tubes caused by vibration or pulsatio may result in cross contamination of refrigerants, even though leakage to the atmosphere has not occurred. Use of like refrigerants will eliminate that potential liability. Standard's warranty does not include payment for refrigerant."]
Text[1]=["Selection","Selecting the proper subcooler for your application depends on the following basic sizing considerations.
Range - The temperature difference of the liquid refrigerant being subcooled, entering, and leaving the subcooler.
Approach - Difference between the subcooled liquid leaving the subcooler, and the suction temperature of your dx system.
Capacity - The number of tons of refrigerant required to subcool the liquid refrigerant of the lower temperature system.
Select the proper capacity chart identified for your particular range. At the top of the table, various approach temperatures are given. Find the approach desired and read down the tons column until you reach the capacity adequate to do the job. The subcooled refrigerant pressure drop (in psi) is listed next to the capacity figure. To determine refrigerant lbs/Min multiply tons by the factor noted below each range chart.
Load Factor table provides a multiplier to your lower temperature system in tons to determine the required capacity of a subcooler. For example, a low temperature system with 18 tons of capacity @ -20°F. evaporating temperature would use the multiplier .18 for a R-22 50° range. The required capacity of the subcooler would be:
18tons x.18=3.24 tons"]
Text[2]=["Application","Mechanical subcooling can be added to existing systems or designed into new ones. It is ideal for any refrigeration process where more capacity may be necessary, or where operating costs must be lowered. Often subcooling can be added using existing air-conditioning equipment to provide the subcooling input. Mechanical subcooling is recommended for:
*Supermarkets - Especially where present capacity is strained or additional loads (refrigerant cases) are being installed.
*Warehousing/Processing - To handle new load requirements or to permit expansion of the facilities.
*Industrial - To produce more capacity for changing product conditions or additional equipment.
Mechanical subcooling has proven cost efficient in a variety of applications. Additional equipment costs required for retrofit installations, in some instances, have been returned within three to six months due to lower energy usage. Further, subcooling has eliminated the need to scrap existing systems which have become overloaded. And in new system design, subcooling not only delivers more uniform, efficient operation, but also allows down sizing of some components like compressors and control valves."]
Text[3]=["Load Factors","Evaporating
Temperature +40 +20 0 -20 -40
from120°F.
=70° Range .20 .20 .21 .22 .22
from110°F.
=60° Range .19 .19 .20 .20 .21
from 100°F.
=50° Range .18 .18 .19 .19 .20"]
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Text[8]=["sticky style","This tip will sticky around
This is useful when you want to insert a link like this Home Page"]
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Text[13]=["different style","Wow this is a new style and position! "]
Text[14]=["This is The title","this is the text"]
Text[15]=["","This is only text"]
Text[16]=["","Some Lists list one list two list three list four"]
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