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Immersion heating elements applicable for heating of technological solutions
Immersion heater consists of a sheathing (quartz glass or stainless steel), inserted heating element and splash-proof head. On the sheathing there is ring-shaped sign of minimal draught in the solution. It defines length of effective part of the heater. Inserted heating element is ceramic. The head is manufactured from polypropylene resistant for operation of solutions and their steams. The head with sheet rubber gaskets forms splash-proof sheath for electric terminals of the heater.
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TECHNICAL DATA
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Voltage
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230V for 3,5 kW
400V lub 3x400V for more than 3,5 kW
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Max. temperature
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150°C
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Material of the sheath
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quartz glass
precious steel 1H18N9 or H17N13M2T
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| Heating elements are adapted for operation in vertical position |
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TYPE GGK
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| Heating elements in a sheath made from quartz glass, diameter of the tube Ø 51 |
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Application:
- acid solutions, solutions that contain metals (Ni, Cd, Cr, Fe, Cu, Pt, Zn, Sn)
- organic acids
- soldering waters
- solutions of table salt and with potassium permanganate
- acidify rinse waters (without fluorine), water-supply and sea water
- fluxes
NOTE: Do not apply type GGK heating elements in alkaline solutions!
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| HEATING ELEMENTS IN QUARTZ GLASS SHEATH Ø 51mm |
 Heating el. GGK-1kW/230V L=390mm Lmin=280mm |
Heating el. GGK-1,25kW/230V L=390mm Lmin=280mm
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Heating el. GGK-1,5kW/230V L=590mm Lmin=440mm
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Heating el. GGK-1,8kW/230V L=590mm Lmin=440mm
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Heating el. GGK-2,0kW/230V L=790mm Lmin=580mm
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Heating el. GGK-2,2kW/230V L=790mm Lmin=580mm
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Heating el. GGK-2,5kW/230V L=950mm Lmin=700mm
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Heating el. GGK-2,8kW/230V L=950mm Lmin=700mm
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Heating el. GGK-3,5kW/230V L=1310mm Lmin=1000mm
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Heating el. GGK-3,5kW/400V L=1310mm Lmin=1000mm
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Heating el. GGK-4…5kW/400V L=1310mm Lmin=1000mm
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Heating el. GGK-4…6kW/400V L=1590mm Lmin=1250mm
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TYPE GGS and GGSM
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Heating elements in a sheath made from precious steel
(steel 1H18N9 - type GGS or H17N13M2T - type GGSM) diameter of the tube Ø 54 |
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Application:
- degrease solutions
- degrease solutions that contain metals (Cu, Cd, Au, Ag, Zn, Sn brass)
- rinse water solutions polluted with alkalies (without halogens)
NOTE: Do not apply type GGS heating elements in solutions that contain lye (sodium hydroxide NaOH and potasium hydroxide KOH)
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HEATING ELEMENTS IN STEEL SHEATH
TYPE GGS (0H18N8T) Ø 54mm |
Heating el. GGS-1kW/230V L=380mm Lmin=280mm
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Heating el. GGS-1,25kW/230V L=390mm Lmin=280mm
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Heating el. GGS-1,5kW/230V L=590mm Lmin=440mm
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Heating el. GGS-1,8kW/230V L=590mm Lmin=440mm
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Heating el. GGS-2kW/230V L=790mm Lmin=600mm
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Heating el. GGS-2,2kW/230V L=790mm Lmin=600mm
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Heating el. GGS-2,5...3kW/230V L=950mm Lmin=710mm
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Heating el. GGS-3,5kW/230V L=1310mm Lmin=1000mm
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Heating el. GGS-4...4,5kW/400V L=1590mm Lmin=1240mm
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Heating el. GGS-4...5kW/400V L=1990mm Lmin=1400mm
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HEATING ELEMENTS IN STEEL SHEATH
TYPE GGSM (H17N13M2T) Ø 54mm |
Heating el. GGSM-1kW/230V L=390mm Lmin=280mm
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Heating el. GGSM-1,25kW/230V L=390mm Lmin=280mm
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Heating el. GGSM-1,5kW/230V L=590mm Lmin=440mm
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Heating el. GGSM-1,8kW/230V L=590mm Lmin=440mm
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Heating el. GGSM-2kW/230V L=790mm Lmin=600mm
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Heating el. GGSM-2,2kW/230V L=790mm Lmin=600mm
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Heating el. GGSM-2,5kW/230V L=950mm Lmin=710mm
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Heating el. GGSM-3,5kW/230V L=1300mm Lmin=1120mm
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Heating el. GGSM-4...4,5kW/400V L=1590mm Lmin=1240mm
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Heating el. GGSM-4,5...5kW/400V L=1990mm Lmin=1400mm
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Heating el. GGSM-6kW/400V L=1990mm Lmin=1400mm
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Heating el. GGSM-6kW/400V L=2490mm Lmin=1800mm
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Assembly of the heater
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The head which is bearing element of the heater should be supported with the bottom part on the bracket located on the tank with solution (the bracket is not included in the set).
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The bracket should keep the heater immovable during any movements of the solution. It should also keep distance between the heater and walls and bottom of the tank in order to provide unrestricted flow of solution.
  
Directions
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Quartz glass sheath of the heater is sensitive to mechanical impacts and sudden changes of temperature.
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In order to complement solution in the tank use liquids with the temperature close to the temperature of the solution or put the liquid gradually to avoid thermal shock.
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During the operation inserted heating element can reach the temperature of approximately 400°C. That is why on the sheath of the heater immersed in the solution with temperature lower than 100°C occurs considerable drop in temperature that causes stress in the sheath's material.
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Before taking the heater out of the solution disconnect supply and wait until it cools down
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Do not use the heater if the level of solution in the tank is lower than ring-shaped sign of minimal draught.
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The deposits that settle on the heater's sheath should be removed periodically
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