Atlas Copco Freeze Dryer FX 1-16

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Atlas Copco Freeze Dryer FX 1-16

FX Freeze Dryer – Wisdom Choice

Reliable performance
Stable pressure dew point
Condensing water vapor don't freeze
Water vapor will never enter the compressed air system
The Atlas Copco freeze dryer is simple, and has high reliability.
Big size high quality components
Design simple, already through the verification
Efficient control system (heat bypass)

Easy to install
Plug and play concept
Single-point circuit connection
All equipment attached to piping systems and power can be run directly
The Atlas Copco freeze dryer provides automatic adjustment.
Maintenance less workload
Maintenance interval time long
The Atlas Copco freeze dryer comes with fewer replacement components.
Man-machine engineering design, open main component faster
Large cost savings
Improve the life and reliability of tools and equipment
Reduce the pipeline leak, mean reduced energy expenditure
Reduce tools, machine and pipeline maintenance frequency
Reduce the inconvenience of faults and stop
Will carry water caused by the product defect is reduced to the minimum
No filtering, installation is complete

Pre filter
Pre filter can not only protect the dryer, but also remove the water, 1 micron big particle and 0.1 mg/m ³ big oil
End filter:
End filter can remove 0.01 micron big particle and 0.01 mg/m ³ big oil
Air system:
Finally it can offer clean and dry air, for air system and air instrument

Technical Parameters of 50 Hz Model

model	Outlet pressure dew point				Max working pressure	power	Compressed air connector
	5 °C / 41 °F		3 °C / 37 °F			-
	Inlet Flow Rate	Pressure Drop	Inlet Flow Rate	Pressure Drop		-
	m³/min	bar	m³/min	bar		-
FX 1	0.42	0.20	0.36	0.15	16	230/1/50 Hz	3/4" M
FX 2	0.72	0.33	0.60	0.25	16	230/1/50 Hz	3/4" M
FX 3	0.96	0.33	0.84	0.25	16	230/1/50 Hz	3/4" M
FX 4	1.38	0.33	1.20	0.25	16	230/1/50 Hz	3/4" M
FX 5	2.10	0.40	1.80	0.30	16	230/1/50 Hz	3/4" M
FX 6	2.70	0.42	2.34	0.32	13	230/1/50 Hz	1" F
FX 7	3.48	0.50	3.0	0.38	13	230/1/50 Hz	1" F
FX 8	4.15	0.24	3.60	0.18	13	230/1/50 Hz	1 1/2" F
FX 9	4.75	0.33	4.09	0.25	13	230/1/50 Hz	1 1/2" F
FX 10	6.01	0.24	5.23	0.18	13	230/1/50 Hz	1 1/2" F
FX 11	7.51	0.26	6.49	0.20	13	230/1/50 Hz	1 1/2" F
FX 12	8.89	0.36	7.69	0.27	13	230/1/50 Hz	1 1/2" F
FX 13	11.53	0.33	10.03	0.25	13	400/3/50 Hz	2" F
FX 14	13.82	0.40	12.02	0.30	13	400/3/50 Hz	2" F
FX 15	17.30	0.40	15.02	0.30	13	400/3/50 Hz	2" F
FX 16	20.73	0.40	18.02	0.30	13	400/3/50 Hz	2" F

Reference Working Conditions:
Environment temperature: 25 °c
Inlet temperature: 35 °c
Working pressure: 7 bar(g)
Notice:
Refrigerant: R134a is used in FX 1-5
R404a is used in FX 6-16

Restrictions:
top environment temperature: 43 ° C; minimum 5 ° C temperature environment: the highest temperature: 55, export ° C

Filter Choice

model	Outlet pressure dew point
	5 °C / 41 °F			3 °C / 37 °F
	Inlet flow	Pre filter	After filter	Inlet flow	Pre filter	After filter
	l/s	-		l/s	-
FX 1	7	DD9	PD9	6	DD9	PD9
FX 2	12	DD17	PD17	10	DD17	PD17
FX 3	16	DD17	PD17	14	DD17	PD17
FX 4	23	DD32	PD32	20	DD32	PD32
FX 5	35	DD44	PD44	30	DD32	PD32
FX 6	45	DD44	PD44	39	DD44	PD44
FX 7	58	DD60	PD60	50	DD60	PD60
FX 8	69	DD120	PD120	60	DD60	PD60
FX 9	79	DD120	PD120	68	DD120	PD120
FX 10	100	DD120	PD120	87	DD120	PD120
FX 11	125	DD120	PD120	108	DD120	PD120
FX 12	148	DD150	PD150	128	DD150	PD150
FX 13	192	DD280	PD280	167	DD175	PD175
FX 14	230	DD280	PD280	200	DD280	PD280
FX 15	288	DD280	PD280	250	DD280	PD280
FX 16	345	DD280	PD280	300	DD280	PD280

Flow Diagram

Refrigerants loop
1. gas-liquid separator: to ensure that only refrigerants gas can enter compressors, because refrigerant liquid will cause damage.
2. Refrigeration compressor: will gaseous refrigerants compressed into high-temperature high-pressure condition.
3. Maximum pressure switch (limited FX13-15)
4. Fan control only limit FX13 pressure switch (15)
5. Condenser fan
6. Condenser: will refrigerants, to make them slightly cooled by gas into liquid. Refrigerants in liquid form more effective.
7. Capillary filter: protect expansion equipment, make its from harmful particles damage.
8. Capillary: reduce pressure to reduce their refrigerant and improve the cooling ability temperature; Now all have become almost refrigerant liquid, only a few residual gas.
9. Heat bypass: adjust by gas - refrigerants heat exchangers refrigeration doses, ensure stable pressure dew point, eliminate condensate icy opportunities.
10. Air inlet: in hot saturated air into the dryer after, row breath - air heat exchangers air cooling of its own. Reduce the intake air temperature can reduce refrigerants loop load.
11. Gas - refrigerants heat exchanger: from compressed air heat transfer to cooling refrigerants, forcing the steam condensate of compressed air. Heat transfer and more efficient, the cold air, which will have more steam condensation.
12. Gas/gas heat exchanger
13. The water separator: from the airflow after cooling collect exhaling condensate. Isolation efficiency, the higher the pressure dew point will become better and better, and because not collect water vaporizing again, thereby reducing pressure dew point. Collect dropping through electronic sewage to the reliable methods from separator eduction.
14. Automatic drain
15. Air outlet: will exhaust air again, in order to avoid the heat in the factory line and condensation.

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