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K20340EN ed.2 1
Condenserless unit with scroll compressors
and refrigerant R410A
Y-FLOW E TCEEBY 115 ÷ 4360
K20340EN ed.2 2
GENERAL TECHNICAL FEATURES The units TCEEBY are condenserless water chillers. They are intended for use in conditioning plant where a supply of chilled water is required. The machine is designed for indoor installation. In order to operate condenserless units must be connected to a remote condenser. On request are available remote condensers.
Constructional features Structure in galvanised and RAL 9018 painted steel plate, coated on the inside with sound-absorbing panels Hermetic, Scroll-type rotary compressors, complete with internal circuit breaker protection and crankcase heater activated automatically when the unit stops (as long as the power supply to the unit is preserved).Braze welded plate type heat-exchangers in stainless steel with closed-cell expanded polyurethane foam insulation complete with antifreeze elements.Differential pressure switchMale threaded hydraulic connections on 1 and 2 compressors units, Victaulic connections on 4 compressors unitsRefrigerant circuit realized with mild copper tubes (EN 12735-1-2) and welded with silver alloy. Complete with dryer filter, thermostatic valve/s, load connections, safety pressure switch on the high pressure side with manual rearm, pressure switch on the low pressure side with automatic rearm, safety valves (starting from mod. 122), liquid indicator and insulation of the intake line, cocks equipped with threaded connections for flared pipes (mod.115÷240) taps and flanged joint (mod.245÷4360) on the discharge and liquid lines. Unit with IP21 protection rating. iDRHOSS compatible with AdaptiveFunction Plus. The unit are pre-charged with R410A refrigerant with the purpose of protecting the refrigerant circuit. The correct charge must be established by the installer based on the length of the lines between the condenserless and the remote condenser.
Model Compressors/Steps Circuits 115 ÷ 125 1 / 1 1 230 ÷ 2185 2 / 2 1
4180 4360 4 / 4 2
Electrical control board Option with iDRHOSS compatible. Electrical control board accessible by opening the front panel, conforming with current IEC norms, can be opened and closed with a suitable tool. Complete with: electrical wiring arranged for power supply 400V-3ph+N-50Hz for 1 and 2 compressors units (115 ÷ 2185) and 400V-3ph-50Hz for 4 compressors units (4180 ÷ 4360);auxiliary power supply 230V-1ph+N-50Hz drawn from the main power supply (without N for mod. 4180 ÷ 4360); compressor protection phase sequence and missing phase monitor (4180 ÷ 4360); general isolator complete with door interlocking isolator; automatic compressor protection switch;protection fuse for auxiliary circuit; compressor power contactor; automatic switch pump protection (with mod. 115 ÷ 240 only for three-phase pump); pump power contactor (with mod. 115 ÷ 240 only for three-phase pump); remote controls. Programmable electronic board with microprocessor, controlled by the keyboard inserted in the machine. The electronic board performs the following functions: Regulation and management of the outlet water temperature set points, of the safety timer delays; of the circulating pump, of the compressor, of the electronic antifreeze protection, of the functions which control the operations of the individual parts making up the machine;complete protection of the unit, automatic emergency shutdown and display of the alarms which have been activated; phase sequence monitor protecting the compressor; unit protection against low or high voltage (only for model 115 ÷ 2185) visual indication of the programmed set points via the display; of the in/out water temperature via the display; of the alarms via the display; self-diagnosis with continuous monitoring of the functioning of the unit;
user interface menù; alarm code and description; alarm history management (menù protected by manufacturer password)For each alarm the controllers shows: date and time of intervention (if present the option KSC); alarm code and description; inlet and outlet water temperature when the alarm intervened; alarm delay time from the switch-on of the connected device; compressor status at the moment of alarm; Advanced functions: configured for serial connection (option SS o FTT10); configured for management of time bands and operation parameters with the possibility of daily/weekly operating programs (with option KSC for unit 115 ÷ 2185); check-up and monitoring of maintenance scheduled status; computer-assisted unit testing; self-diagnosis with continuous monitoring of the unit functioning status. Set point regulation via the AdaptiveFunction Plus with two options: fixed set-point (Precision function) shifting set-point (Economy function)
Factory fitted accessories GM – Refrigerant circuit high and low pressure gauges (option not available for model 115 ÷ 240). CR – Condensatori di rifasamento (cos φ 0,91). Option available only for model 245 ÷ 4360. SFS – Soft-Starter device. SIL – Silenced set-up. CS – Set point adjustable (4-20 mA signal). Not available with DSP option. DSP - Double set point (digital input). It modifies the evaporator set points. Not available with CS option. P1 – Installation with basic static pressure single pump. DP1 – Installation with basic static pressure double pump, including an automatically activated pump in stand- by (only for model 245 ÷ 4360). P2 – Installation with high-head pressure. DP2 – Installation with increased static pressure double pump, including an automatically activated pump in stand-by (only for model 245 ÷ 4360). The installations P1, DP1 and P2, DP2 also envision the following: expansion tank, safety valve (3 Barg for model 115÷240 and 6 Barg for model 245÷4360), water pressure gauge, filling cock, pumps hut-off cock (only for model 245÷4360), drain cock and manual air bleeding vents. In the event of double pump DP1,DP2 (only for model 245 ÷ 4360) the hydraulic circuits also include a non return valve and an intake cock for each pump. SS –RS485 serial interface card to create dialogue networks between cards and the building automation or external supervision systems or Rhoss supervision system (protocols supported: proprietary protocol; Modbus RTU) (models 245÷4360, supplied loose for models 115 ÷ 240) FTT10 –FTT10 serial interface card for connection to supervision systems (LonWorks system) (models 245÷4360, supplied loose for models 115 ÷ 240).
Supplied loose accessories KFA – Water filter (option available only for model 125 ÷ 2185). KSA – Rubber antivibration mountings. KSAM – Spring antivibration mountings (option available only for model 4180 ÷ 4360). KTR – Remote keypad for control at a distance with rear illuminated LCD display (same functions as the one built into the machine). KEAP – Outdoor air sensor for set-point compensation. Incompatible with CS option. KSC - Clock board to display date/time and to regulate the machine with daily/weekly start/stop time bands, with the possibility to change the set points (standard for models 4180 ÷ 4360). KRS232 – RS485/RS232 serial converter for interconnection between RS485 serial network and supervision systems with serial connection to the PC via RS232 serial port (RS232 cable provided). KUSB – RS485/USB serial converter for interconnection between RS485 serial network and supervision systems with serial connection to the PC via USB port (USB cable provided).
K20340EN ed.2 3
K20340EN ed.2 4
TECHNICAL DATA preliminary
MODEL TCEEBY 115 118 122 125 230 240 TECHNICAL DATA Cooling capacity kW 13,7 16,4 20,1 23,3 26,8 36,9
Condenser heating rejection capacity kW 17,8 20,4 25,5 29,3 35,1 46,6
EER * 3,26 4,0 3,65 3,76 3,12 3,69
Evaporator water flow m3/h 2,3 2,8 3,5 4,0 4,6 6,3
Evaporator pressure drop kPa 12 15 14 13 15 16
Pump external static pressure P1 kPa 89 85 82 119 110 112
Pump external static pressure P2 kPa 169 155 174 151 129 135
GENERAL DATA
Sound power level (standard unit) dB(A) 58 58 62 63 64 67
Sound power level with option SIL dB(A) 53 53 57 58 59 62
Refrigerant Tipo R410A R410A R410A R410A R410A R410A
Compressors scroll / steps n. / n. 1 / 1 1 / 1 1 / 1 1 / 1 2 / 2 2 / 2
Circuits n. 1 1 1 1 1 1
Exchanger water content l 1,6 1,6 2,2 2,6 2,8 3,7
Water connections Ø 1 ½” GM 1 ½” GM 1 ½” GM 1 ½” GM 1 ½” GM 1 ½” GM
DIMENSIONS
Lenght (L) mm 700 700 700 700 700 700
Height (H) mm 1140 1140 1140 1140 1140 1140
Depth (P) mm 560 560 780 780 780 780
ELECTRICAL DATA
Electrical absorbed power ** kW 4,2 4,1 5,5 6,2 8,6 10
Electrical absorbed power pump P1 kW 0,4 0,4 0,4 0,75 0,75 0,75
Electrical absorbe power pump P2 kW 0,55 0,55 0,37 0,37 1,12 1,12
Main power supply V-ph-Hz 400-3+N-50
Auxiliary power supply V-ph-Hz 230-1-50
Maximum current ** A 9,4 10,2 14,3 15,2 18,8 24,2
Current absorbed pump P1 A 1,5 1,5 1,5 1,9 1,9 1,9
Current absorbed pump P2 A 2,5 2,5 3 3 2,2 2,2
Starting current ** A 64 64 101 95 74 87
Starting current with SFS ** A 45 45 71 67 54 65 At this conditions: Evaporator water temperature in/out 12/7°C; Condensing temperature 50°C. * The calculations of the E.E.R do no hold account of the absorption of the pumps. ** The electric absorption does not consider the absorption of the pumps. Total sound power in dB(A) based on measurement taken according to standard ISO 3744 ed Eurovent 8/1; at this conditions : evaporator water temperature in/out 12/7°C; 40°C condensing temperature. The noise data refers to units without pump. Attention:
- The TCEEBY condenserless units must be connected to the remote condenser; their installation and the realization of the refrigerant circuit are to be handled by the installer and msut be performed properly.
- Poor execution of the refrigerant circuit may substantially reduce the machine’s performance and compromise its life cycle. - The above data refer only to the condenserless unit, prior to pressure drope due to the condensation refrigeration circuit. - RHOSS S.P.A. shall not be held responsible for any malfunctions of the machine resulting from problems connected with the
realization of the condensation refrigerant circuit, which is the responsibility of the user.
K20340EN ed.2 5
TECHNICAL DATA preliminary
MODEL TCEEBY 245 250 260 270 275 290
TECHNICAL DATA
Cooling capacity kW 39,8 47,3 53,6 61,3 67,9 80,6
Condenser heating rejection capacity kW 51,6 60,9 69,3 79 87,3 103
EER * 3,29 3,38 3,30 3,76 3,39 3,49
Evaporator water flow m3/h 6,8 8,1 9,2 10,5 11,6 13,8
Evaporator pressure drop kPa 18 24 24 22 26 35
Pump external static pressure P1 – DP1 kPa 116 109 134 95 84 87
Pump external static pressure P2 – DP2 kPa 214 195 182 188 171 185
GENERAL DATA
Sound power level (standard unit) dB(A) 67 67 68 68 69 70
Sound power level with option SIL dB(A) 63 63 64 64 65 66
Refrigerant Tipo R410A R410A R410A R410A R410A R410A
Compressors scroll / steps n. / n. 2 / 2 2 / 2 2 / 2 2 / 2 2 / 2 2 / 2
Circuits n. 1 1 1 1 1 1
Exchanger water content l 4,4 4,4 5,1 6,5 6,5 7,0
Water connections Ø 1 ½” GM 1 ½” GM 1 ½” GM 1 ½” GM 1 ½” GM 2” GM
DIMENSIONS
Lenght (L) without pump mm 1000 1000 1000 1000 1000 1000
Lenght (L) with pump P1/P2-DP1/DP2 mm 1250 1250 1250 1250 1250 1250
Height (H) mm 1400 1400 1400 1400 1400 1400
Depth (P) mm 870 870 870 870 870 870
ELECTRICAL DATA
Electrical absorbed power ** kW 12,1 14 16,2 18,2 20 23,1
Electrical absorbed power pump P1 – DP1 kW 0,75 1,12 1,10 1,10 1,10 1,10
Electrical absorbed power pump P2 – DP2 kW 1,50 1,50 1,50 1,50 1,50 2,20
Main power supply V-ph-Hz 400-3+N-50
Auxiliary power supply V-ph-Hz 230-1-50
Maximum current ** A 30,5 34,8 41,0 45,8 49,9 58,8
Current absorbed pump P1 – DP1 A 1,53 2,21 2,21 2,21 2,21 2,21
Current absorbed pump P2 – DP2 A 2,89 2,89 2,89 2,89 2,89 4,08
Starting current ** A 110 128 139 141 195 203
Starting current with SFS ** A 72 84 92 94 125 134 At this conditions: Evaporator water temperature in/out 12/7°C; Condensing temperature 50°C. * The calculations of the E.E.R do no hold account of the absorption of the pumps. ** The electric absorption does not consider the absorption of the pumps. Total sound power in dB(A) based on measurement taken according to standard ISO 3744 ed Eurovent 8/1; at this conditions : evaporator water temperature in/out 12/7°C; 40°C condensing temperature. The noise data refers to units without pump. Attention:
- The TCEEBY condenserless units must be connected to the remote condenser; their installation and the realization of the refrigerant circuit are to be handled by the installer and must be performed properly.
- Poor execution of the refrigerant circuit may substantially reduce the machine’s performance and compromise its life cycle. - The above data refer only to the condenserless unit, prior to pressure drope due to the condensation refrigeration circuit. - RHOSS S.P.A. shall not be held responsible for any malfunctions of the machine resulting from problems connected with the
realization of the condensation refrigerant circuit, which is the responsibility of the user.
K20340EN ed.2 6
TECHNICAL DATA preliminary
MODEL TCEEBY 2100 2115 2130 2145 2165 2185
TECHNICAL DATA
Cooling capacity kW 91,7 103,4 115,0 128,2 145,7 162,3
Condenser heating rejection capacity kW 118,0 133,5 149,0 165.,5 189,1 211,6
EER * 3,38 3,34 3,29 3,34 3,26 3,19
Evaporator water flow m3/h 15,7 17,7 19,7 22,0 25,0 27,8
Evaporator pressure drop kPa 36 24 25 25 27 33
Pump external static pressure P1 – DP1 kPa 116 119 108 117 118 106
Pump external static pressure P2 – DP2 kPa 177 180 169 178 193 182
GENERAL DATA
Sound power level (standard unit) dB(A) 71 72 73 74 74 75
Sound power level with option SIL dB(A) 67 68 69 70 70 71
Refrigerant Tipo R410A R410A R410A R410A R410A R410A
Compressors scroll / steps n. / n. 2 / 2 2 / 2 2 / 2 2 / 2 2 / 2 2 / 2
Circuits n. 1 1 1 1 1 1
Exchanger water content l 8,0 9,6 10,6 12,1 13,5 13,5
Water connections Ø 2” GM 2 ½” GM 2 ½” GM 2 ½” GM 2 ½” GM 2 ½” GM
DIMENSIONS
Lenght (L) without pump mm 1270 1270 1270 1270 1270 1270
Lenght (L) with pump P1/P2-DP1/DP2 mm 1500 1500 1500 1500 1500 1500
Height (H) mm 1550 1550 1550 1550 1550 1550
Depth (P) mm 870 870 870 870 870 870
ELECTRICAL DATA
Electrical absorbed power ** kW 27,1 31,0 35,0 38,4 44,7 50,8
Electrical absorbed power pump P1 – DP1 kW 1,50 1,50 1,50 1,50 2,20 2,20
Electrical absorbed power pump P2 – DP2 kW 2,20 2,20 2,20 2,20 4,00 4,40
Main power supply V-ph-Hz 400-3+N-50
Auxiliary power supply V-ph-Hz 230-1-50
Maximum current ** A 62,9 70,8 78,1 85,9 99,4 112,8
Current absorbed pump P1 – DP1 A 2,89 2,89 2,89 2,89 4,08 4,08
Current absorbed pump P2 – DP2 A 4,08 4,08 4,08 4,08 6,88 6,88
Starting current ** A 253 300 307 315 353 366
Starting current with SFS ** A 163 191 198 206 229 243 At this conditions: Evaporator water temperature in/out 12/7°C; Condensing temperature 50°C. * The calculations of the E.E.R do no hold account of the absorption of the pumps. ** The electric absorption does not consider the absorption of the pumps. Total sound power in dB(A) based on measurement taken according to standard ISO 3744 ed Eurovent 8/1; at this conditions : evaporator water temperature in/out 12/7°C; 40°C condensing temperature. The noise data refers to units without pump. Attention:
- The TCEEBY condenserless units must be connected to the remote condenser; their installation and the realization of the refrigerant circuit are to be handled by the installer and msut be performed properly.
- Poor execution of the refrigerant circuit may substantially reduce the machine’s performance and compromise its life cycle. - The above data refer only to the condenserless unit, prior to pressure drope due to the condensation refrigeration circuit. - RHOSS S.P.A. shall not be held responsible for any malfunctions of the machine resulting from problems connected with the
realization of the condensation refrigerant circuit, which is the responsibility of the user.
K20340EN ed.2 7
TECHNICAL DATA preliminary
MODEL TCEEY 4180 4205 4235 4260
TECHNICAL DATA Cooling capacity kW 161,2 182,9 205,0 229,4
Total condenser heating rejection capacity kW 205,5 233,6 262,1 293,2
Heating rejection capacity for each circuit kW 102,75 116,8 131,05 146,6
EER * 3,53 3,50 3,48 3,49
Evaporator water flow m3/h 27,7 31,4 35,2 39,4
Evaporator pressure drop kPa 33 36 36 40
Pump external static pressure P1 – DP1 kPa 107 132 114 118
Pump external static pressure P2 – DP2 kPa 182 172 196 201
GENERAL DATA
Sound power level (standard unit) dB(A) 77 77 78 79
Sound power level with option SIL dB(A) 75 75 76 77
Refrigerant Tipo R410A R410A R410A R410A
Compressors scroll / steps n. / n. 4 / 4 4 / 4 4 / 4 4 / 4
Circuits n. 2 2 2 2
Exchanger water content L 11,0 12,2 13,9 15,1
Water connections Ø 3" 3" 3" 3"
DIMENSIONS
Lenght (L) without pump mm 2509 2509 2509 2509
Lenght (L) with pump P1/P2-DP1/DP2 mm 3734 3734 3734 3734
Height (H) mm 1855 1855 1855 1855
Depth (P) mm 870 870 870 870
ELECTRICAL DATA
Electrical absorbed power ** kW 45,7 52,3 58,9 65,8
Electrical absorbed power pump P1 – DP1 kW 2,20 3,00 4,00 4,00
Electrical absorbed power pump P2 – DP2 kW 4,00 4,00 7,50 7,50
Main power supply V-ph-Hz 400-3-50
Auxiliary power supply 230-1-50
Maximum current ** A 114 133,6 153,2 168,2
Current absorbed pump P1 – DP1 A 4,08 5,42 6,88 6,88
Current absorbed pump P2 – DP2 6,88 6,88 12,5 12,5
Starting current ** A 240 259 325 340
Starting current with SFS ** A 178 221 241 248 At this conditions: Evaporator water temperature in/out 12/7°C; Condensing temperature 50°C. * The calculations of the E.E.R do no hold account of the absorption of the pumps. ** The electric absorption does not consider the absorption of the pumps. Total sound power in dB(A) based on measurement taken according to standard ISO 3744 ed Eurovent 8/1; at this conditions : evaporator water temperature in/out 12/7°C; 40°C condensing temperature. The noise data refers to units without pump. Attention:
- The TCEEBY condenserless units must be connected to the remote condenser; their installation and the realization of the refrigerant circuit are to be handled by the installer and msut be performed properly.
- Poor execution of the refrigerant circuit may substantially reduce the machine’s performance and compromise its life cycle. - The above data refer only to the condenserless unit, prior to pressure drope due to the condensation refrigeration circuit. - RHOSS S.P.A. shall not be held responsible for any malfunctions of the machine resulting from problems connected with the
realization of the condensation refrigerant circuit, which is the responsibility of the user.
K20340EN ed.2 8
TECHNICAL DATA preliminary
MODEL TCEEBY 4290 4330 4360
TECHNICAL DATA
Cooling capacity kW 253,8 287,4 320,9
Total condenser heating rejection capacity kW 324,2 368,9 413,5
Heating rejection capacity for each circuit kW 162,1 184,45 206,75
EER * 3,50 3,42 3,36
Evaporator water flow m3/h 43,5 49,3 55,1
Evaporator pressure drop kPa 39 44 45
Pump external static pressure P1 – DP1 kPa 111 136 123
Pump external static pressure P2 – DP2 kPa 196 241 257
GENERAL DATA
Sound power level (standard unit) dB(A) 80 81 82
Sound power level with option SIL dB(A) 78 79 80
Refrigerant Tipo R410A R410A R410A
Compressors scroll / steps n. / n. 4 / 4 4 / 4 4 / 4
Circuits n. 2 2 2
Exchanger water content L 17,6 19,3 22,6
Water connections Ø 3" 3" 3"
DIMENSIONS
Lenght (L) without pump mm 2509 2509 2509
Lenght (L) with pump P1/P2-DP1/DP2 mm 3734 3734 3734
Height (H) mm 1855 1855 1855
Depth (P) mm 870 870 870
ELECTRICAL DATA
Electrical absorbed power ** kW 72,6 84,0 95,5
Electrical absorbed power pump P1 – DP1 kW 4,00 5,50 5,50
Electrical absorbed power pump P2 – DP2 kW 7,50 9,20 11,0
Main power supply V-ph-Hz 400-3-50
Auxiliary power supply V-ph-Hz 230-1-50
Maximum current ** A 183,2 207,8 232,4
Current absorbed pump P1 – DP1 A 6,88 9,26 9,26
Current absorbed pump P2 – DP2 A 12,5 15,3 18,3
Starting current ** A 347 372 461
Starting current with SFS ** A 263 322 347 At this conditions: Evaporator water temperature in/out 12/7°C; Condensing temperature 50°C. * The calculations of the E.E.R do no hold account of the absorption of the pumps. ** The electric absorption does not consider the absorption of the pumps. Total sound power in dB(A) based on measurement taken according to standard ISO 3744 ed Eurovent 8/1; at this conditions : evaporator water temperature in/out 12/7°C; 40°C condensing temperature. The noise data refers to units without pump. Attention:
- The TCEEBY condenserless units must be connected to the remote condenser; their installation and the realization of the refrigerant circuit are to be handled by the installer and msut be performed properly.
- Poor execution of the refrigerant circuit may substantially reduce the machine’s performance and compromise its life cycle. - The above data refer only to the condenserless unit, prior to pressure drope due to the condensation refrigeration circuit. - RHOSS S.P.A. shall not be held responsible for any malfunctions of the machine resulting from problems connected with the
realization of the condensation refrigerant circuit, which is the responsibility of the user.
K20340EN ed.2 9
OPERATING LIMITS TCEEBY 115÷240
35
5 12 15 20 23
40
45
50
6055
T (°C) = Condensing temperature t (°C) = Evaporator outlet temperature Maximum evaporator inlet water temperature 28°C ○ Minimum water pression 0,5 Barg ○ Maximum water pression acqua 3 Barg Temperature differentials permitted through the exchangers: ○ temperature differential at the evaporator: 3°C ÷ 8°C ATTENTION For evaporator outlet water at less 5°C (option BT) quotation on request. In this case is compulsory to use a control of condensation on the remote condenser. TCEEBY 245÷4360
35
40
45
50
5755
5 12 15 20 23
T (°C) = Condensing temperature t (°C) = Evaporator outlet temperature Maximum evaporator inlet water temperature 28°C ○ Minimum water pression 0,5 Barg ○ Maximum water pression acqua 6 Barg Temperature differentials permitted through the exchangers: ○ temperature differential at the evaporator: 3°C ÷ 8°C ATTENTION For evaporator outlet water at less 5°C (option BT) quotation on request. In this case is compulsory to use a control of condensation on the remote condenser.
K20340EN ed.2 10
EXCHANGER PRESSURE DROPS G = Water flow rate Dpw = Pressure drop TCEEBY 115÷240
TCEEBY 245÷2185
K20340EN ed.2 11
TCEEBY 4180÷4360
10
20
30
50
100
200
300
10 20 30 50 100 200 300G (m³/h)
Dpw
kPa
1 2 3 4 56 7
1 = 4180 2 = 4205 3 = 4235 4 = 4260 5 = 4290 6 = 4330 7 = 4360
K20340EN ed.2 12
RESIDUAL STATIC PRESSURE G = Water flow rate Dpr = Resudual static pressure Calculation of residual static pressure The residual static pressure can be obtained from graph based on the measured flow rates. Note: For all units, always refer to the admissible operating limits and temperature differentials (∆T). Residual static pressure P1 TCEEBY 115÷240
Residual static pressure P2 TCEEBY 115÷240
K20340EN ed.2 13
Residual static pressure P1 – DP1 TCEEBY 245÷2185
Residual static pressure P2 – DP2 TCEEBY 245÷2185
K20340EN ed.2 14
Residual static pressure P1 – DP1 TCEEBY 4180÷4360
010
50
100
150
200
250
290
0 10 20 30 40 50 60 70 80 90 100 110G (m³/h)
Dpw
kPa
41804235
4260 4360
4290
43304205
Residual static pressure P2 – DP2 TCEEBY 4180÷4360
010
50
100
150
200
250
300
350
390
0 10 20 30 40 50 60 70 80 90 100 110 120G (m³/h)
Dpw
kPa
4205
4260
4290
4330
43604235
4180
K20340EN ed.2 15
NOISE DATA Lw = Total sound power level in dB(A). Lp = Sound pressure level in dB(A). (*) Sound power level emitted in nominal operating conditions: evaporator inlet/outlet water 12°C/7°C – condensing temperature 40°C. (**) The sound pressure level refers to measurement in free field at a distance of 1m (models 115-240) and of 10 m (models 245-4360) from the unit, with a directionality factor Q=2.
Model 115 118 122 125 230 240 125 Hz 49,4 49,4 51,7 52,3 52,9 54,6 250 Hz 59,3 59,3 62,7 63,6 64,5 67,1 500 Hz 57,5 58,0 58,5 59,4 61,0 63,7
1000 Hz 50,0 51,5 57,5 58,1 60,5 62,5 2000 Hz 48,0 49,5 54,0 54,9 56,8 58,5 4000 Hz 37,6 38,0 40,2 40,9 41,5 43,5 8000 Hz 31,6 32,5 33,7 34,2 34,7 36,3 Lw (*) 58 58 62 63 64 67 Lp (**) 47 47 51 52 53 57
Lw (*) SIL 53 53 57 58 59 62
Model 245 250 260 270 275 290 125 Hz 54,6 54,6 55,2 55,2 55,8 56,3 250 Hz 67,1 67,1 68,0 68,0 68,9 69,7 500 Hz 63,0 63,0 63,9 63,9 64,7 66,4
1000 Hz 62,5 62,7 63,5 63,7 64,6 65,8 2000 Hz 59,8 60,0 60,3 60,5 61,0 61,8 4000 Hz 43,5 43,5 44,2 44,2 44,9 45,5 8000 Hz 36,3 36,3 36,8 36,8 37,4 37,9 Lw (*) 67 67 68 68 69 70 Lp (**) 39 39 40 40 41 42
Lw (*) SIL 63 63 64 64 65 66
Model 2100 2115 2130 2145 2165 2185 125 Hz 56,9 58,1 59,2 59,2 59,2 59,2 250 Hz 71,0 72,4 74,1 74,1 74,1 74,1 500 Hz 67,4 68,3 70,1 70,8 70,8 71,0
1000 Hz 66,4 67,3 69,2 70,1 70,1 70,5 2000 Hz 62,9 63,8 65,6 65,6 65,6 67,5 4000 Hz 46,9 47,5 48,9 48,9 48,9 48,9 8000 Hz 39,0 39,5 40,5 40,5 40,5 40,5 Lw (*) 71 72 73 74 74 75 Lp (**) 43 44 45 46 46 47
Lw (*) SIL 67 68 69 70 70 71
Model 4180 4205 4235 4260 4290 4330 4360 125 Hz 60,4 60,5 60,9 62,7 63,2 63,3 64,0 250 Hz 78,0 78,2 79,0 79,3 80,2 81,1 81,8 500 Hz 74,0 74,0 75,0 75,5 76,3 77,2 79,5
1000 Hz 71,7 71,8 72,6 74,7 75,6 76,6 78,0 2000 Hz 69,1 69,4 70,5 70,9 71,8 72,7 73,5 4000 Hz 52,2 52,3 52,8 53,1 53,5 54,2 54,6 8000 Hz 41,5 41,6 42,1 43,7 44,2 44,7 45,2 Lw (*) 77 77 78 79 80 81 82 Lp (**) 49 49 50 51 52 53 54
Lw (*) SIL 75 75 76 77 78 79 80
K20340EN ed.2 16
CLEARANCE TCEEBY 115 ÷ 240
L1 = min 700 mm L2 = min 700 mm L3 = min 700 mm
TCEEBY 245 ÷ 2185
L1
L2L3
L1 = min 800 mm L2 = min 600 mm L3 = min 600 mm TCEEBY 4180 ÷ 4360
L1
L2
L4
L3
L1 = min 1000 mm L2 = min 800 mm L3 = min 600 mm L4 = min 800 mm
K20340EN ed.2 17
MINIMUM WATER CIRCUIT CONTENT ○ To assure the proper functioning of the unit, the minimum water circuit content must be 2 liters/kW Water data - TCEEBY 115 ÷ 240
Model 115 ÷240 Expansion tank l 7
Safety valve calibration kPa 300 Maximum admissible pressure kPa 300
Maximum contents of water circuit The units installed with P1 or P2 are equipped with expansion tank that limits the maximum water content inside the system.
Maximum content 115 ÷ 240 Water l 243
Mixture with ethylene glycol at 10% l 212 Mixture with ethylene glycol at 20% l 196 Mixture with ethylene glycol at 30% l 182
If the amount of water exceeds the values indicated a supplementary expansion tank must be added.
Expansion tank 115 ÷ 240 Capacity l 7
Pre-charge barg 1 Maximum expansion vessel pressure barg 3
Calibration barg 3 - TCEEBY 245 ÷ 2185
Model 245 ÷ 2130 2145 ÷ 2185 Expansion tank l 12 24
Safety valve calibation kPa 600 600 Maximum admissibe pressure kPa 600 600
Maximum contents of water circuit The units installed with P1, DP1 or P2, DP2 are equipped with expansion tank that limits the maximum water content inside the system.
Maximum content 245 ÷ 2130 2145 ÷ 2185 Water l 478 956
Mixture with ethylene glycol at 10% l 415 831 Mixture with ethylene glycol at 20% l 585 771 Mixture with ethylene glycol at 30% l 357 713
If the amount of water exceeds the values indicated a supplementary expansion tank must be added.
Expansion tank 245 ÷ 2130 2145 ÷ 2185 Capacity l 12 24
Pre-charge barg 2 2 Maximum expansion vessel pressure barg 6 6
Calibration barg 6 6 - TCEEBY 4180 ÷ 4360
Model 4180 ÷ 4260 4290 ÷ 4360 Expansion tank l 24 2 x 24
Safety valve calibration kPa 600 600 Maximum admissible pressure kPa 600 600
Maximum contents of water circuit The units installed with P1, DP1 or P2, DP2 are equipped with expansion tank that limits the maximum water content inside the system.
Maximum content 4180 ÷ 4260 4290 ÷ 4360 Water l 956 1910
Mixture with ethylene glycol at 10% l 831 1660 Mixture with ethylene glycol at 20% l 771 1540 Mixture with ethylene glycol at 30% l 713 1425
If the amount of water exceeds the values indicated a supplementary expansion tank must be added.
Expansion tank 4180 ÷
4260 4290 ÷ 4360
Capacity l 24 2 x 24 Pre-charge barg 2 2
Maximum expansion vessel pressure barg 6 6 Calibration barg 6 6
K20340EN ed.2 18
INSTALLATION ○ The unit is intended for indoor installation. ○ The unit is equipped with male threaded water connections (1-2 compressors units) or Victaulic connections (4 compressors units). ○ The unit must be positioned to comply with the minimum recommended clearances, bearing in mind the access to water and electrical connections . ○ The unit can be equipped with antivibration mountings on request. ○ It is obligatory to install the low-pressure drop mesh filter on each water inlet of the unit. ○ The unit may not be installed on brackets or shelves . ○ Correct installation and positioning includes levelling the unit on a surface capable of bearing its weight. ○ Segregate the unit if installed in areas accessible to persons under 14 years of age. ○ Shut-off valves must be installed that isolate the unit from the rest of the system. Elastic connection joints and system/machine drain taps also need to be fitted. ○ The water flow through the heat exchangers should be a value corresponding to a temperature differential inside the admitted range. ○ During long periods of inactivity, it is advisable to drain the water from the system. ○ It is possible to avoid draining the water by adding ethylene glycol to the water circuit. ○ The pumps must be installed with the pump delivery towards the machine water inlet. ○ Do not use water that is corrosive or contains deposits or debris. ○ Do not use water containing chloride or is demineralised. The below listed limits must be respected to avoid corrosion of the exchangers:
If you are uncertain about the quality of the water in the above table or you have doubts regarding the presence of different materials that could cause gradual corrosion over time in the exchangers, it is always good practice to insert an intermediate exchanger that can be inspected and is made of suitable resistant material. Main suggestions for proper refrigerant installation: ○ The unit are pre-charged with R410A refrigerant for the purpose of protection the refrigerant circuit. ○ The correct charge must be established by the installer based on the length of the refrigerant lines. ○ Connecting the refrigerant pipes with the remote condenser, it is essential to make a vacuum in the whole circuit and then to charge with refrigerant. ○ It is important to check the level of oil in the compressor carefully and if necessary to top it up (for the type of oil to use always refer to the instructions on the tag located on the compressor). ○ The refrigerant lines for connection with the condensing section must be made of copper pipe for refrigerant circuits. ○ Size the refrigerant lines properly so as to obtain reduced pressure drops and refrigerant fluid speed that guarantees movement of the oil. ○ The maximum equivalent length of the refrigerant line is 30 meters. ○ The horizontal parts of the line must be inclined slightly downwards (in the direction of gas flow) so as to favour the flow of oil (inclination incluse between 0,5% and 1%). ○ When the condenser is located above the compressor, at the compressor there must be a trap which runs down to floor level. ○ In the vertical parts of the discharge line there must be traps for oil collector every 3-4 meters (maximum vertical level 10 meters). ○ It is advisable to install : - to insulate the liquid line if the outdoor temperature (solar radiation) is higher than the temperature of the liquid itself. - to insulate the gas discharge line so as to avoid the possibility of burns due to accidental contact or to avoid heating of the indoor areas. - between the outlet of the condenserless unit and the remote condenser, an antivibration device and a silencer so as to reduce the transmission of noise and vibration along the piping. - to insert after previous evaluation a non return valve near the condenser. - down the line from the remote condenser a liquid recipient of suitable (compliant with current standards) in the case of long line lenght (roughly more than 20 meters). - the units are not equipped with a solenoid valve on the liquid line; its installation must be handled by the installer and is advisable when the condenser is located above the condenserless unit.
K20340EN ed.2 19
The table below shows the external and internal diameters recommended in function of the equivalent length of the connection pipes with the condensing section.
equivalent length of refrigerant lines [m]
10 20 30
Φ Φ Φ
MODEL connection Φ line inch mm inch mm inch mm
115 gas 5/8" gas 1/2" 12,7 1/2" 12,7 5/8" 15,87
liquid 1/2" liquid 1/2" 12,7 1/2" 12,7 1/2" 12,7
118 gas 5/8" gas 1/2" 12,7 5/8" 15,87 5/8" 15,87
liquid 1/2" liquid 1/2" 12,7 1/2" 12,7 1/2" 12,7
122 gas 5/8" gas 5/8" 15,87 5/8" 15,87 5/8" 15,87
liquid 1/2" liquid 1/2" 12,7 5/8" 15,87 5/8" 15,87
125 gas 5/8" gas 5/8" 15,87 5/8" 15,87 3/4" 19,06
liquid 1/2" liquid 5/8" 15,87 5/8" 15,87 5/8" 15,87
230 gas 3/4" gas 3/4" 19,06 3/4" 19,06 3/4" 19,06
liquid 5/8" liquid 5/8" 15,87 3/4" 19,06 3/4" 19,06
240 gas 3/4" gas 3/4" 19,06 3/4" 19,06 3/4" 19,06
liquid 5/8" liquid 3/4" 19,06 3/4" 19,06 3/4" 19,06
equivalent length of refrigerant lines [m]
10 20 30
Refrigerant connections
TCEEBY Φ Φ Φ
MODEL connection Φ [inch] line inch mm inch mm inch mm
245 gas 1 1/8" gas 3/4" 19,06 3/4" 19,06 7/8" 22,23
liquid 7/8" liquid 3/4" 19,06 3/4" 19,06 3/4" 19,06
250 gas 1 1/8" gas 3/4" 19,06 7/8" 22,23 7/8" 22,23
liquid 7/8" liquid 3/4" 19,06 3/4" 19,06 7/8" 22,23
260 gas 1 1/8" gas 7/8" 22,23 7/8" 22,23 1" 25,4
liquid 7/8" liquid 7/8" 22,23 7/8" 22,23 7/8" 22,23
270 gas 1 1/8" gas 7/8" 22,23 1" 25,4 1" 25,4
liquid 7/8" liquid 1" 25,4 1" 25,4 1" 25,4
275 gas 1 1/8" gas 1" 25,4 1" 25,4 1" 25,4
liquid 7/8" liquid 1" 25,4 1" 25,4 1" 25,4
290 gas 1 1/8" gas 1" 25,4 1" 25,4 1 1/8" 28,57
liquid 7/8" liquid 1" 25,4 1" 25,4 1" 25,4
2100 gas 1 1/8" gas 1 1/8" 28,57 1 1/8" 28,57 1 1/8" 28,57
liquid 7/8" liquid 1" 25,4 1 1/8" 28,57 1 1/8" 28,57
2115 gas 1 3/8" gas 1 1/8" 28,57 1 1/8" 28,57 1 1/8" 28,57
liquid 1 1/8" liquid 1 1/8" 28,57 1 1/8" 28,57 1 1/8" 28,57
2130 gas 1 3/8" gas 1 1/8" 28,57 1 3/8" 34,92 1 3/8" 34,92
liquid 1 1/8" liquid 1 1/8" 28,57 1 1/8" 28,57 1 1/8" 28,57
2145 gas 1 3/8" gas 1 3/8" 34,92 1 3/8" 34,92 1 3/8" 34,92
liquid 1 1/8" liquid 1 1/8" 28,57 1 1/8" 28,57 1 1/8" 28,57
2165 gas 1 3/8" gas 1 3/8" 34,92 1 3/8" 34,92 1 3/8" 34,92
liquid 1 1/8" liquid 1 3/8" 34,92 1 3/8" 34,92 1 3/8" 34,92
2185 gas 1 3/8" gas 1 3/8" 34,92 1 3/8" 34,92 1 3/8" 34,92
liquid 1 1/8" liquid 1 3/8" 34,92 1 3/8" 34,92 1 3/8" 34,92
K20340EN ed.2 20
equivalent length of refrigerant lines [m]
10 20 30
Φ Φ Φ
MODEL circuit connection Φ line inch mm inch mm inch mm
4180
1 gas 1 3/8" gas 1" 25,4 1" 25,4 1 1/8" 28,57
liquid 1 1/8" liquid 1" 25,4 1" 25,4 1" 25,4
2 gas 1 3/8" gas 1" 25,4 1" 25,4 1 1/8" 28,57
liquid 1 1/8" liquid 1" 25,4 1" 25,4 1" 25,4
4205
1 gas 1 3/8" gas 1 1/8" 28,57 1 1/8" 28,57 1 1/8" 28,57
liquid 1 1/8" liquid 1" 25,4 1 1/8" 28,57 1 1/8" 28,57
2 gas 1 3/8" gas 1 1/8" 28,57 1 1/8" 28,57 1 1/8" 28,57
liquid 1 1/8" liquid 1" 25,4 1 1/8" 28,57 1 1/8" 28,57
4235
1 gas 1 3/8" gas 1 1/8" 28,57 1 1/8" 28,57 1 1/8" 28,57
liquid 1 1/8" liquid 1 1/8" 28,57 1 1/8" 28,57 1 1/8" 28,57
2 gas 1 3/8" gas 1 1/8" 28,57 1 1/8" 28,57 1 1/8" 28,57
liquid 1 1/8" liquid 1 1/8" 28,57 1 1/8" 28,57 1 1/8" 28,57
4260
1 gas 1 3/8" gas 1 1/8" 28,57 1 3/8" 34,92 1 3/8" 34,92
liquid 1 1/8" liquid 1 1/8" 28,57 1 1/8" 28,57 1 1/8" 28,57
2 gas 1 3/8" gas 1 1/8" 28,57 1 3/8" 34,92 1 3/8" 34,92
liquid 1 1/8" liquid 1 1/8" 28,57 1 1/8" 28,57 1 1/8" 28,57
4290
1 gas 1 5/8" gas 1 3/8" 34,92 1 3/8" 34,92 1 3/8" 34,92
liquid 1 3/8" liquid 1 1/8" 28,57 1 1/8" 28,57 1 1/8" 28,57
2 gas 1 5/8" gas 1 3/8" 34,92 1 3/8" 34,92 1 3/8" 34,92
liquid 1 3/8" liquid 1 1/8" 28,57 1 1/8" 28,57 1 1/8" 28,57
4330
1 gas 1 5/8" gas 1 3/8" 34,92 1 3/8" 34,92 1 3/8" 34,92
liquid 1 3/8" liquid 1 3/8" 34,92 1 3/8" 34,92 1 3/8" 34,92
2 gas 1 5/8" gas 1 3/8" 34,92 1 3/8" 34,92 1 3/8" 34,92
liquid 1 3/8" liquid 1 3/8" 34,92 1 3/8" 34,92 1 3/8" 34,92
4360
1 gas 1 5/8" gas 1 3/8" 34,92 1 3/8" 34,92 1 3/8" 34,92
liquid 1 3/8" liquid 1 3/8" 34,92 1 3/8" 34,92 1 3/8" 34,92
2 gas 1 5/8" gas 1 3/8" 34,92 1 3/8" 34,92 1 3/8" 34,92
liquid 1 3/8" liquid 1 3/8" 34,92 1 3/8" 34,92 1 3/8" 34,92 The equivalent lengths of refrigerant lines are to be intended as the sum of the length of the straight sections and the equivalent length corresponding to each element that is part of the cooling line which, bends, elbows, valves, check valves, valves and receiver. The junction between the attacks in the unit and the refrigerant lines must be performed in a workmanlike manner using the appropriate reduction if the diameters suggested are different.
K20340EN ed.2 21
3-4 m
1°
3-4 m
0,3
m
RL liquid receiver (installer choice) VS Solenoid valve (installer choice) VR Non return valve (installer choice) Liquid line Gas line HANDLING ○ Movement of the unit should be performed in vertical position with care, in order to avoid damage to the external structure and to the internal mechanical and electrical components. ○ Do not stack the units. ○ The temperature limits for storage and transport are: -9 ÷ 45°C; avoid exposing the unit to direct contact with sunbeams, rain, wind and sand. Avoid exposing the unit to direct contact with sunbeams as the pressure inside the refrigerant circuit may reach dangerous values and cause the safety valve to intervene.
VS RL
VR
Condenserless unit with scroll compressors and refrigerant R410A
TCEEBY 115 ÷ 4360