English
30
Step 8:
Turn to the “ON” position Main Power Switch and Chiller Pump Circuit Breaker (all other Circuit Breakers should stay in
the “OFF” position).
Check correct rotation of the Chiller Pump
Please note:
there is an arrow located at the back part of the pump for direction
indication. Reverse two phases R-S-T on the terminal board in case of incorrect rotation.
CAUTION:
The pump must not flat running or in inverse direction; therefore the checking of the correct rotation
must be quick
Step 9:
Let Chiller Pump running for Minimum 20 minutes in order to allow the purging of all residual air within Hydraulic
Circuit.
Stop Chiller Pump and check Pre-Charge Pressure.
Refill if necessary.
Step 10:
Turn to the ON position all Circuit Breakers.
The Chiller Unit is now ready to operate
CAUTION
: Additional Air purge valves into external hydraulic circuit may be required should the Chiller be
installed on a low level (thus Air purge valve 3 not being at the highest point of the entire hydraulic system)
Please note
CLOSE LOOP
Chillers are provided with a Safety Discharge Valve (component 2 within
Picture 26
above)
set at 4 bar
(87 PSI) .
Max Operating Hydraulic Pressure value (PS) on Chiller type label has to be considered in addition to the pre-charge
pressure.
Regurarly check hydraulic system pre-charge pressure and refill if necessary.
Summary of Contents for EB 130 WT
Page 20: ...English 20 APPENDIX A1...
Page 21: ...English 21 APPENDIX A2...
Page 26: ...English 26 Max pressure valve Thermostatic Valve Evaporator Refrigerant pipes Fan Pump...
Page 54: ...Deutsch 54 ANLAGE A1...
Page 56: ...Deutsch 56 ANLAGE A2...
Page 62: ...Deutsch 62 H chstdruckventil Thermostatisches Ventil Verdampfer K hlmittelrohre L fter Pumpe...
Page 89: ...Italiano 89 ALLEGATO A1...
Page 91: ...Italiano 91 ALLEGATO A2...
Page 124: ...Espa ol 124 ANEXO A1...
Page 126: ...Espa ol 126 ANEXO A2...
Page 159: ...Fran ais 159 ANNEXE A1...
Page 161: ...Fran ais 161 ANNEXE A2...
Page 177: ...177 1 2 3 4 5 6 7 8 8 1 9 10 11 12 A1 A2 B1 B2 C 1 2 D 1 12 2 EN 60204...
Page 178: ...178 30 435 PSI 5 8 85 PSI PWW PS 12...
Page 182: ...182 4 7 3...
Page 183: ...183 3 b PWW 3 4 PWW 9000 12000 1 PWW 18000 24000 3 4 PWW 9000 12000 1 PWW 18000 24000 4...
Page 187: ...187 60 90 m PFANNENBERG 18 15 ISO 4406 10 40 C 45 C 50 C 15 C PFANNENBERG 0 C 11 A1 A2 PWW A2...
Page 189: ...189 11 12 13 14...
Page 190: ...190 l R S T 15 16 17...
Page 191: ...191 5 R S T 18 19 20 21...
Page 192: ...192 PFANNENBERG...
Page 193: ...193 12 KLIXON 2 1 Klixon...
Page 194: ...194 40 C...
Page 195: ...195...
Page 196: ...196 A1...
Page 198: ...198 A2...
Page 200: ...200 B1 n 842 2006 2 PWW 22 23...
Page 201: ...201 A2 20 30 5 7 11 24 25...
Page 202: ...202 24 36 25 309 1 2004...
Page 203: ...203 B2 EB EB150 T EB190 WT...
Page 204: ...204...
Page 205: ...205 C 1 Pfannenberg PFANNENBERG 1 2 3 26 2 1 0...
Page 210: ...210 2 PWW INLET 2 1 31 PWW Air purge valve Max safety valve Refill valve...
Page 211: ...211 D 1 1 1 90 m pH 1 2 3 4 32...