Appion TEZ 8 Manuale operativo - Pagina 7

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Helpful Hints

Why Should You Use a High Vacuum Pump?

Air Conditioning and Refrigeration systems are designed and tested to operate at their most efficient only

when they are completely evacuated and charged with virgin refrigerant. Any moisture left in a system

before it is charged will decrease the system's efficiency and can lead to system damage and potentially

system failure.

Damage caused by moisture is one of the leading causes of failures in AC/R systems. Moisture

combines with refrigerants to create acids that corrode copper plating inside the system. Refrigeration

oil readily absorbs water and can turn into a sludge, losing its lubricating ability. The only way to remove

moisture from a system is to completely evacuate the system and pull a deep vacuum throughout the

entire system.

As the pressure in a system decreases, the boiling point of water also decreases. The following chart

shows that you can get water to boil at 72° F by creating a vacuum of 29.12 Inches Hg (just over 20,000

microns) in a system.

Temperature in °F

212°

205°

194°

176°

158°

140°

122°

104°

86°

80°

76°

72°

69°

64°

59°

53°

45°

32°

21°

6°

-24°

-35°

-60°

-70°

-90°

Vacuum Gauge Placement

For a system to be adequately dehydrated, a deep vacuum must be achieved throughout the entire system,

not just the point where the vacuum pump is connected. For the most accurate reading of vacuum depth

throughout the system, it is recommended that you attach a vacuum gauge at an access port on the system

that is farthest from the TEZ8.

Inches of Mercury

0.00

4.95

9.23

15.94

20.72

24.04

26.28

27.75

28.67

28.92

29.02

29.12

29.22

29.32

29.42

29.52

29.62

29.74

29.82

29.87

29.91

29.915

29.919

29.9195

29.9199

Microns*

759,968

535,000

525,526

355,092

233,680

149,352

92,456

55,118

31,750

25,400

22,860

20,320

17,780

15,240

12,700

10,160

7,620

4,572

2,540

1,270

254

127

25.4

12.7

2.54

Pounds/Sq. In. (Pressure)

14.696

12.279

10.162

6.866

4.519

2.888

1.788

1.066

.614

.491

.442

.393

.344

.295

.246

.196

.147

.088

.049

.0245

.0049

.00245

.00049

.00024

.000049

*Remaining pressure in system in microns.