CSRT-XHE 82-302
Contents
1. iS W3 1 REMOVABLE PANEL FOR ACCESS TO THE COMPRESSOR COMPARTMENT ELECTRICAL PANEL 3 MICROPROCESSOR KEYBOARD 1500 POWER INPUT HUMIDIFIER INLET CONNECTIONS CONDENSATE DISCHARGE FUNCTIONAL CLEARANCES WATER INLET INTEGRATING COIL Y 1 1 4 WATER OUTLET INTEGRATING COIL Y 1 1 4 0 RE HEATING COIL OPTIONAL 1 TREATMENT COIL 2 WATER HEATING COIL OPTIONAL 3 ELECTRONIC AIR FILTERS F7 BAG FILTERS OPTIONAL 14 G4 AIR FILTERS 15 SUPPLY FAN 6 4 5 6 7 8 9 1 1 1 1 WEIGHT DISTRIBUTION Constructional configuration recirculated outside air mixing box B 16 EXHAUST FAN ONLY FOR C VERSION POSITIONING THE UNIT We kg 246 258 eee che FONTER We Kg 226 287 19 OVER PRESSURE DAMPER AIR EXHAUST pa kg 294 308 ONLY FOR C VERSION Mg 284 806 20 ACCESS FOR INSPECTION OF COILS FILTERS HEA Wa kg 30 32 TING ELEMENTS Shipping weight kg 1075 1125 R AMBIENT AIR INTAKE 2 3 M AMBIENT AIR DISTRIBUTION AE FRESH AIR INTAKE ES AIR EXHAUST ONLY FOR C VERSION Constructional configuration free cooling version with extract H1 WALL WITH SAME HEIGHT AS UNIT ON A MAXIMUM OF T recirculated fresh air intake box C BUD NEN Mc ERE wi o gon 29 jve ag om 20 We Kg 816 3380 Wa Kg 320 3844 Shipping weight kg 1135 1185 DIME2. 2 50 a Ch 1908 246 y at 1500 LU MM e MOG LI IL T 1 EE SEMEN e e LO VVEIGHT DISTRIBUTION Constructional configuration recirculated outside air mixing box B wi TJ a 3280 Weg 935 988 wag au am We Tag am Shipping weight kg 1530 1580 Constructional configuration free cooling version with extract recirculated fresh air intake box C wi LW ao 38 wa e ai ler Was ls le va Tag ar 46 Shipping weight kg 1625 1678 2300 1 REMOVABLE PANEL FOR ACCESS TO THE COMPRESSOR COMPARTMENT 2 ELECTRICAL PANEL 3 MICROPROCESSOR KEYBOARD POWER INPUT HUMIDIFIER INLET CONNECTIONS CONDENSATE DISCHARGE FUNCTIONAL CLEARANCES WATER INLET INTEGRATING COIL 1 1 2 WATER OUTLET INTEGRATING COIL 1 172 RE HEATING COIL OPTIONAL TREATMENT COIL WATER HEATING COIL OPTIONAL ELECTRONIC AIR FILTERS F7 BAG FILTERS OPTIONAL G4 AIR FILTERS SUPPLY FAN EXHAUST FAN ONLY FOR C VERSION LIFTING BRACKETS REMOVABLE IF REQUIRED AFTER POSITIONING THE UNIT 18 FRESH AIR SHUTTER 19 OVER PRESSURE DAMPER AIR EXHAUST ONLY FOR C VERSION 20 ACCESS FOR INSPECTION OF COILS FILTERS HEATING ELEMENTS R AMBIENT AIR INTAKE M AMBIENT AIR DISTRIBU
3. 2180 2300 1 REMOVABLE PANEL FOR ACCESS TO THE COMPRESSOR COMPARTMENT ELECTRICAL PANEL 3 MICROPROCESSOR KEYBOARD POWER INPUT HUMIDIFIER INLET CONNECTIONS CONDENSATE DISCHARGE FUNCTIONAL CLEARANCES RE HEATING COIL OPTIONAL TREATMENT COIL ELECTRONIC AIR FILTERS F7 BAG FILTERS OPTIONAL G4 AIR FILTERS SUPPLY FAN EXHAUST FAN ONLY FOR C VERSION LIFTING BRACKETS REMOVABLE IF REQUIRED AFTER POSITIONING THE UNIT 15 FRESH AIR SHUTTER 16 OVER PRESSURE DAMPER AIR EXHAUST ONLY FOR C VERSION 17 ACCESS FOR INSPECTION OF COILS FILTERS HEATING ELEMENTS 18 GAS MODULE 9 DISCHARGE WASTE GAS PROVIDED UN ASSEMBLED INTAKING AIR BURNER GAS BURNER COMPARTMENT 2 3 4 5 6 7 8 9 1 1 1 1 1 0 1 2 3 4 1 20 21 22 GAS MODULE SUPPLY 1 GAS 23 SAFETY THERMOSTAT INSPECTION COMPARTMENT R AMBIENT AIR INTAKE M AMBIENT AIR DISTRIBUTION AE FRESH AIR INTAKE ES AIR EXHAUST ONLY FOR C VERSION H1 WALL WITH SAME HEIGHT AS UNIT ON A MAXIMUM OF THREE SIDES VIBRATION MOUNTS POSITION SUGGESTED CLEARANCE O ur eno G i O o LLI 00 o E en 39 O SS m o O O LLI oo o H m 40 PACKAGED 82 302 DIMENSIONAL DRAWING SIZE 262 302 DIMENSIONAL DRAWING 7 3570 2260
4. ELECTRONIC AIR FILTERS F7 BAG FILTERS OPTIONAL 11 G4 AIR FILTERS 12 SUPPLY FAN 13 EXHAUST FAN ONLY FOR C VERSION 14 LIFTING BRACKETS REMOVABLE IF REQUIRED WEIGHT DISTRIBUTION AFTER POSITIONING THE UNIT 15 FRESH AIR SHUTTER E 16 OVER PRESSURE DAMPER AIR EXHAUST Constructional configuration recirculated outside air mixing box B GYN FORC VERSION SS 17 ACCESS FOR INSPECTION OF COILS FILTERS 18 GAS MODULE TARRO STE WASTE GAS PROVIDED UN ASSEMBLED 22 GAS MODULE SUPPLY 1 GAS TMENT M AMBIENT AIR DISTRIBUTION AE FRESH AIR INTAKE ES AIR EXHAUST Constructional configuration free cooling version with extract eae FOR C VERSION iri H1 WALL WITH SAME HEIGHT AS UNIT ON A MAXIMUM recirculated fresh air intake box C OE LEE SIBES VIBRATION MOUNTS POSITION SUGGESTED CLEARANCE 2 3 O ur eno G i O o LLI 00 o E en We KP 38 D e ae NE Shipping weight e lone um 35 O T m o O O LLI oo o H m 36 PACKAGED 82 302 DIMENSIONAL DRAWING SIZE 122 162 DIMENSIONAL DRAWING 3 i be O LO SUME UT 596 ES rs m 5 1915 15007 C o 1500 P AX of S I W MENTES 1 U LU
5. PACKAGED 82 302 THERMODYNAMIC RECOVERY ACTIVE WITH 45 OF EXPELLED FRESH AIR Return air temperature D B kVVt kWe kWt kWe kWt kWe kWt kWe kWt kWe kWt kWe kWt kWe 5734 0708 5 39 7 6 10 82 15713 5154 07 06 5 39 716 1 10 82 15713 ATAN ear 26 3a ou as es 34 0708 5 39 7167 1082 15713 S154 IEC FEE IE a ss E 39 254 87 292 38 070 6 5 39 716 1 1082 15 13 5 5 64 36 7 37 71 37 273 38 0 0 6 513 9 716 1 10 8 2 15 13 BAY I ros 28 37 279 38 0 0 6 5 39 716 1 10 82 15 13 5554 0 56 37 57 ses se 405 59 01 06 375 se 380 57 ses 58 392 59 39 60 4 61 415 62 5 39 386 6o 391 6o 396 61 402 63 409 64 416 65 423 66 7 61 390 61 396 62 401 63 407 64 413 65 420 67 427 68 10 82 395 63 400 64 405 65 411 66 417 67 424 69 431 70 15 13 404 67 409 68 415 69 420 71 426 72 432 73 439 75 5 54 472 73 482 75 491 76 498 77 504 78 508 79 510 80 0 0 6 475 76 484 78 491 79 499 so 505 82 512 83 517 85 5 39 481 80 488 82 495 83 503 85 510 86 518 88 526 89 7 61 485 82 492 84 499 85 506 87 514 88 522 90 530 92 10 82 489 85 496 86
6. 32 71 30 25 27 80 25 39 22 96 20 55 3505 3241 2978 2746 24 59 22 01 0 PCOS CONSTANT VALUE FLOW RATE ADJUSTER This device adjusts the speed of the fans to keep a constant flow rate adapting to system losses and compensation for the filters as they get dirty It is composed of a pressure sensor located in the supply section which measures the pressure and a differential pressure switch that transforms the value into an electrical signal based on the parameters detected the machine intervenes adjusting the speed of the motors to re establish the set flow rate value o Es cn Ze e e LLI 00 E ca FLOW RATE VALUE CAN BE SET FROM THE KEYPAD PRESSURE SENSOR ON SUPPLY DIFFERENTIAL PRESSURE MACHINE LOGIC WHICH BASED ON FAN SWITCH FOR SIGNAL THE SIGNAL ADJUST MOTOR SPEED PROCESSING 25 o cn o e LLI Es H m 26 PACKAGED 82 302 AIR FILTERING This is an essential function for proper maintenance of conditions of well being and hygiene in the served rooms For this reason it is the subject of precise standards based on the specific applications The units are standard equipped with filters with an efficiency of G4 on the treatment section They have an ample surface and low pressure drops The second filtering stage is available through innovative high efficiency filters electro static automatically controlled class H10 Than
7. 460 580 580 COOLING PERFORMANCE OUTDOOR AIR TEMPERATURE C 15 N 30 22 15 4 93 1 75 5 17 1 51 8 75 5 178 51 3 75 3 18 8 50 6 749 206 49 3 745 22 0 48 3 32 23 5 78 0 15 6 53 9 77 7 17 3 52 6 77 6 180 52 1 77 3 190 51 4 76 7 20 8 50 1 76 0 22 2 49 1 24 17 85 5 16 2 64 0 18 6 61 7 86 9 19 8 60 7 86 9 21 8 59 0 86 5 23 6 57 6 89 o D T gt O de N 26 19 19 0 61 5 89 2 20 1 60 5 89 2 22 1 58 9 89 1 23 8 57 6 27 19 5 89 89 8 23 8 59 4 co pw o al o al Te o o m A 00 C2 O c i o o N N o o O do N 00 o o N o N O N C2 00 o co N N N O o N 92 N 28 21 16 7 63 2 92 5 18 5 61 7 92 4 19 2 61 1 92 3 20 4 60 1 92 1 22 3 58 6 91 9 24 0 57 3 94 Wu 30 22 16 8 66 5 94 4 186 65 0 94 3 19 4 64 4 94 1 20 5 63 4 93 7 22 4 61 9 93 3 24 0 97 4 17 0 67 9 97 4 18 8 66 3 97 4 19 5 65 6 97 1 20 7 64 7 96 4 22 6 63 1 95 6 24 2 61 9 DB WB Pa awe e wr ive ws o i Je ww or awe or we 6 38 21 6 31 3 7 16 21 0 31 3 7 49 20 7 31 3 7 98 20 4 31 4 8 83 19 7 31 4 9 53 19 2 6 42 22 2 31 6 7 20 21 5 31 6 31 6 8 01 20 9 31 6 8 84 20 3 31 7 9 54 19 8 6 51 21 5 32 5 7 29 20 9 32 5 7 61 20 7 32 4 8 09 20 3 32 4 8 90 19 7 32 5 9 57
8. PACKAGED 82 302 2 CLIVET CSRT XHE 82 302 HIGH EFFICIENCY PACKAGED ROOF TOP ONLY COOLING AIR CONDITIONER e REDUCED ENERGY CONSUMPTION e COMPACT DIMENSIONS e THERMODYNAMIC HEAT RECOVERY SYSTEM CONSTRUCTION CONFIGURATION C a ICSRT XHE 82 302 R 410A r SZ we e iv BF e a e yR d ad Performance data are referred to operation with 3096 of fresh air intake and same amount of air exhaust The CSRT XHE series of autonomous roof top air conditioners air air cooling only is a turning point in this type of unit Intended for use in small and medium sized areas with average crowds supermarkets stores offices small production areas it includes the very latest in technology featuring VERSATILITY OF USE The wide range of versions options and accessories allow unique integration and flexibility of choice regardless of the intended use and the external climate EASE OF POSITIONING AND INSTALLATION The units are exceptionally compact perfect for positioning on especially crowded roofs Attention to client needs and care for details has led to the creation of a machine than can be quickly installed and immediately commissioned REDUCED OPERATING COSTS These are now guaranteed thanks to the high efficiency of the innovative refrigeration circuit for operation at partial load of the free cooling and of the heat recovery standard on all models equipped with air expulsion of the optional electro Static air fil
9. PERFORMANCES OF HOT WATER COIL 2 ROWS Ti To C o E o SS 3 2500 o E o El E S El 3 o p a o E a o i E 154 38 Ta air temperature entering the air handling coil C Qo air flow l s Ti To water temperature inlet outlet C kWt Heating capacity kW 3WVM MODULATING THREE WAY VALVE To be used in conjunction with the hot water coil optional It is controlled by the on board microprocessor by means of a 0 10V signal and allows fully automatic adjustment of the hot water coil The valve with modulating actuator is provided already installed and wired on the machine ES o 160 0 o E 82 222 o 140 0 E 262 302 aa 120 0 100 0 E 80 0 60 0 PRESSURE DROP MODULATING THREE VVAY VALVE Q L S VVATER FLOVV RATE 0 5 1 0 1 5 2 0 2 5 3 0 3 5 4 0 4 5 5 0 5 5 Q l s 19 o aa O O e e LLI Es e Fe m 20 PACKAGED 82 302 GH GAS BURNER This option is advisable for very cold climates The gas module is available in various powers and allows heating of the served room Perfect for situations in which climatic conditions make heat pump operation inconvenient or even unsuitable The gas module must be capable of working as an alternative to the heat pump R Therefore it must be sized with the same thermal power as the design R Than
10. mw em onw METHANE GAS SUPPLY PRESSURE G20 methane 20 MIN 17 MAX 25 GAS CONSUMPTION 15 C 1013mbar mm 1 64 6 14 2 33 8 26 3 18 10 38 4 50 15 80 GAS CONNECTION DIAMETER 1SO7 1 3 4 M IS071 1 M 1SO7 1 1 M ISO 7 1 1 M LPG SUPPLY PRESSURE G31 2 mbar 37 GAS CONSUMPTION 15 C 1013mbar m n 0 98 3 64 1 39 4 89 1 88 6 14 2 76 9 71 GAS CONNECTION DIAMETER 1SO7 1 3 4 M ISO 7A i M 1S07 1 1 M ISO 7 1 1 M PACKAGED 82 302 RCAW ACTIVE WINTER THERMODYNAMIC RECOVERY ON EXPELLED AIR Option available for cold only unit equipped with heating system via hot water coil or gas heating module Re commended when local standards or the energy objectives of the project require recovery of the energy contained in the flow of air expelled from the unit The recovered energy is used to produce thermal energy with high efficiency via a special cooling circuit and de dicated adjustment which allow it to function in the winter as a heat pump while running only one of the main com pressors Seasonal energy consumption is therefore substantially lower than that of a unit equipped with static recovery thanks to the high power generated by the thermodynamic recovery which reduces the thermal integration on the main heating system and the lack of high pressure drops of traditional recoveries which reduces the energy required for ventilation THERMODYNAMIC RECOVERY ACTIVE WITH 15
11. OF EXPELLED FRESH AIR Return air temperature D B Wi 5 54 303 58 306 59 308 60 309 61 309 62 309 63 307 64 0 06 322 60 323 61 324 62 325 63 326 64 327 65 327 67 5 39 347 62 347 63 348 64 349 65 350 67 35 68 353 69 7 61 361 63 362 64 362 66 363 67 365 68 366 70 368 71 10782 377 ss 377 66 378 ez 379 es se 70 sea 71 384 787 15 13 417 68 420 70 422 71 423 73 424 74 425 76 425 77 5 54 ss 76 87 7 78 362 80 ses 62 ser 83 ses 84 383 86 0 06 404 so 408 81 414 83 413 85 415 86 417 88 ais oo 5 39 440 83 441 85 443 86 444 88 447 90 449 92 452 94 7 61 458 85 459 87 460 89 461 90 464 92 466 94 469 96 10782 are a7 e es 477 9 9 o2 4e 94 aaa o6 456 99 15 13 518 92 520 94 521 96 522 os 524 100 525 102 527 104 Ta fresh air temperature D B W B DB dry bulb WB wet bulb kWt Heating capacity kW kWe Compressor power input in kW Performance refers to operation with 15 of expelled and outside air not all thermal yields take into account the heat dissipated by the fan motors Good operation of winter active thermodynamic recovery is ensured if the limit temperature of t
12. R AMBIENT AIR INTAKE M AMBIENT AIR DISTRIBUTION AE FRESH AIR INTAKE ES AIR EXHAUST ONLY FOR C VERSION H1 WALL WITH SAME HEIGHT AS UNIT ON A MAXIMUM OF THREE SIDES i VIBRATION MOUNTS POSITION Constructional configuration recirculated outside air mixing box B o SUGGESTED CLEARANCE WI Pg 297 310 weg 272 285 We kg a4 ETA Wa Kg 872 389 Shippingweight kg 1295 1355 4 5 6 7 8 9 1 1 1 1 1 1 1 0 1 2 3 4 5 6 1500 2 3 WEIGHT DISTRIBUTION O SS m o O e LLI oo o E m Constructional configuration free cooling version with extract recirculated fresh air intake box C Weg 306 3177 wooo deja TE Kg 384 398_ ooo Kg 389 403 Shipingwegh kg 1380 1430 38 DIMENSIONAL DRAWING SIZE 182 222 GAS MODULE 74 96 kw DIMENSIONAL DRAWING 6 toO Vo U Uu LI uu PA TATA PA P KA gr VVEIGHT DISTRIBUTION Constructional configuration recirculated outside air mixing box B PACKAGED 82 302 2130 1895 1500 Constructional configuration free cooling version with extract recirculated fresh air intake box C sw 1 un Hi
13. RAD radial ventilation 4 Net outside static pressure to win the outlet and intake onboard pressure drops 5 AX axial flow fan OPERATING LIMITS COOLING THE LIMITS ARE INDICATIVE AND HAVE BEEN CALCULATED CONSIDERING VALUES GENERAL AND NOT SPECIFICATIONS STANDARD AIR FLOW RATE NON CRITICAL POSITIONING AND CORRECT USE OF THE UNIT OPERATION AT FULL LOAD WITH UNIT OPERATING IN INTAKE OF OUTSIDE AIR CALCULATE THE TEMPERA TURES OF MIXES WHICH ARE GENERATED FROM THE EXCHANGERS INLET TO KNOW THE LIMITS TO TEMPERATURE OF AIR ENTERING THE EXTERNAL EXCHANGER D B C DB DRY BULB TA INTERNAL EXCHANGER INLET AIR TEMPERATURE W B C WB WET BULB 1 THE DASHED AREA REFERS TO THE FIELD OF UNITS OPERATION STANDARD 2 INTHE CROSS HATCHED AREA IS IDENTIFIED THE UTILITY FIELD FOR UNIT WITH LOW TEMPERATURE DEVICE BTO8E006GB 00 PACKAGED 82 302 CONSTRUCTIONAL CONFIGURATION MIXING BOX FOR RECYCLE FRESH AIR B F L A FULL LOAD CURRENT AT MAX ADMISSIBLE CONDITIONS ELECTRICAL DATA FLA Compressori a 102 ma ms 164 26 306 306 306 F L A Compressor2 A 98 98 143 152 152 152 226 306 F L A Single Extemal Fan A 25 25 23 41 25 25 41 41 ELA Singesuppyfan A 22 43 43 49 49 49 43 49 FLA Total VLA 252 aa 357 ai 482 562 705 7
14. 0 40 32 59 57 0 Fax 49 0 40 32 59 57 194 info de clivet com CLIVET TFAIR SYSTEMS P LTD Malur INDIA Tel 91 8151 232683 5 Fax 91 8151 232684 info clivettfa com The data contained in this bulletin is not binding and may be changed by the manufacturer without prior notice All reproduction even partial is prohibited Copyright CLIVET S p A Feltre BL Italy
15. 10 84 17 39 2650 17 98 19 37 21 43 22 85 24 96 8 93 10 00 11 59 12 67 14 30 10 12 11 33 13 13 14 37 16 22 2000 2500 15 25 16 41 18 16 19 35 21 13 17 39 18 73 20 72 22 09 24 12 16 61 17 98 20 04 21 45 23 00 15 24 16 61 18 66 20 05 22 14 14 09 16 06 22 76 13 90 20 75 12 94 14 75 21 41 11 79 13 44 20 06 1255 19 37 11 20 17 99 3600 24 56 34 04 22 70 32 13 20 85 30 23 10 65 11 79 13 49 14 66 16 40 12 13 13 44 15 39 16 72 18 72 9 52 10 65 12 35 13 50 15 24 10 84 12 14 14 07 15 40 17 39 2500 3060 19 82 21 33 23 58 25 12 27 41 22 35 24 06 26 61 28 35 30 95 2 O o Cjn ol o o 18 32 20 66 29 22 16 84 18 98 27 49 15 36 17 32 25 78 sch RO ojcoljojkiv 19 01 28 35 17 20 26 47 15 38 24 61 3900 25 71 35 63 23 76 33 64 21 82 31 65 Ta C 13 89 15 66 24 07 12 43 14 01 22 37 3050 3610 22 31 30 89 24 60 34 09 20 62 22 73 32 18 18 94 20 88 30 28 10 00 11 07 12 66 13 75 15 39 11 32 12 54 14 35 15 60 17 46 O o lt NENO o 19 91 21 84 24 74 26 72 29 68 18 00 19 91 22 80 24 77 27 71 17 29 18 95 21 46 23 17 25 73 19 04 20 89 23 67 25 56 28 39 15 63 17 30 19 78 21 48 24 02 17 23 19 05 21 81 23 70 26 51 Ta C isle Oe oo o n 16 09 18 01 20 87 22 83 25 76 5150 13 98 15 64 18 10 19 80 22 33 15 41 17 24 19 97 21 84 24 65 35 65 38 39 42 44 45 24 49 38 3750 4440 29 60 31 85 35 20 37 50 40 93 32 71 35 21 38 93 41 48 45 28 2737
16. 173 173 ll E LA EH17 18 kW electric heaters LA EE 26 SI F LA EH2O 24 KW electric heaters CCS CA Pr pr 1846 346 346 346 mo ELA EH24 36 kW electric heaters A pe a Ao e al dise ED ELA HSES Electrode boiler steam humidifier from3kg n A 32 32 32 32 32 32 32 32 M ELA HSES Electrode boiler steam humidifier fromSkg h CAT 87 87 87 87 87 87 87 87 F L A HSES Electrode boiler steam humidifier from 8kg h CA 87 87 87 87 87 87 87 87 F L A HSE9 Electrode boiler steam humidifier from 15 kg h CAT 160 t t 162 162 162 162 F L A FES High efficiency H10 electrostatic air filter CAT oe oe 11 11 15 15 15 22 F L l ABSORBED POWER LI EHO7 3kWelecrichealers LL 32 32 FLILEH10 6kWelectricheaters JW 6 6 6 6 j FLIEHI2 9kWelectricheaters wW _ 9 9 9 9 J FLIEHi4 i2kWeletrcheaters LU te 12 12 12 LI EH17 18 kW electric heaters Wt 18 18 18 18 18 F L I EH20 24 kW electric heaters KW Fl EH24 36 kW electric heaters KW 88 ELL HSES Electrode boiler steam humidifier from 3kgh kW 23 23 23 23 as 23 23 23 F L I HSES Electrode boiler steam humidifier from 5 kgh kW 60 60 60 60 60 60 60 60 F L I HSE8
17. 5 42 3 27 19 5 12 4 48 8 65 3 13 6 47 5 65 2 14 2 46 9 65 0 15 0 46 1 64 4 16 3 44 8 63 6 17 5 43 7 28 21 12 5 47 5 67 1 13 8 46 2 67 0 14 3 45 7 66 7 15 1 44 9 on 16 5 43 6 65 0 17 6 42 5 30 22 12 6 51 5 68 4 13 9 502 68 3 14 4 49 7 68 0 15 2 489 67 2 165 47 7 MES 22 16 690 14 7 51 9 ES 16 3 50 6 69 8 16 9 50 0 70 1 179 49 2 70 6 19 7 47 9 70 9 21 2 46 8 24 17 148 55 1 70 7 16 4 53 8 70 8 17 1 53 3 71 0 18 1 52 6 71 3 199 51 3 71 7 21 4 50 3 26 19 15 1 54 8 73 4 16 7 53 5 73 3 17 4 53 1 73 3 184 523 734 20 2 51 1 735 21 6 50 1 27 19 5 15 2 56 5 74 1 16 8 55 3 74 1 175 548 74 0 185 540 740 20 2 52 7 740 21 6 51 7 28121 15 4 544 76 5 17 1 53 0 76 4 17 7 525 76 3 18 7 51 6 76 1 20 4 50 2 75 7 21 7 49 1 o F m Oj O O LLI oo o m 30 22 15 6 57 7 78 1 17 2 56 2 78 2 17 8 55 6 78 1 18 8 54 7 77 7 20 4 53 1 77 1 21 7 51 9 22 16 16 2 65 4 872 17 9 63 6 87 5 18 6 62 9 87 9 19 7 61 8 88 4 21 6 59 9 88 6 23 3 58 5 24 17 16 3 69 3 88 9 18 0 675 89 2 18 7 66 8 89 5 19 8 65 7 89 8 21 7 63 9 og 23 4 62 5 26 19 16 6 68 2 925 18 3 66 4 92 7 19 0 65 7 92 8 20 1 64 7 92 6 22 0 62 9 92 3 23 6 61 5 27 19 5 16 7 70 2 93 5
18. 503 88 510 89 518 91 526 93 535 95 15 13 500 90 508 92 515 94 523 96 53 os 538 oo 546 101 Ta fresh air temperature D B W B DB dry bulb WB wet bulb kWt Heating capacity KW kWe Compressor power input in KW Performance refers to operation with 4596 of expelled and outside air not all thermal yields take into account the heat dissipated by the fan motors Good operation of winter active thermodynamic recovery is ensured if the limit temperature of the air of mixture between fresh air and recirculation air does not drop below 2 C with unit equipped with hot water coil 10 C with unit equipped with gas module O ur eno G i O o LLI 00 o E en 23 PACKAGED 82 302 EH ELECTRIC HEATERS This option is advisable for cold climates Available in various powers it allows heating of the served room The electrical heating elements are managed by a thermal control device with two power settings The fins are made of aluminium with a size suitable to ensure high efficiency and maintain low power density on the surfaces to limit overheating The low temperature of the heating elements increases their lifespan and limits the effect of air ionization COMBINATIONS ELECTRIC HEATERS A This operation involves variation of the main electrical data of the machine A hot water coil and electric heaters cannot be mounted at the same time CPHG HOT GAS
19. 7 25 2 33 7 7 57 8 03 24 6 33 8 1 8 80 23 9 33 9 9 42 23 4 27 19 5 34 1 6 52 26 7 33 9 7 31 26 1 33 9 7 62 25 8 33 9 8 07 25 4 34 0 8 82 248 34 3 9 41 24 3 28 21 35 2 25 6 346 7 44 25 0 345 7 76 24 7 345 8 20 243 348 8 87 23 7 33 4 N a co 16 12 22 8 33 6 8 05 22 1 33 7 840 21 8 33 9 8 98 21 3 34 4 9 85 20 6 35 0 10 6 20 0 34 6 N ov 20 14 27 5 34 8 8 26 26 8 34 9 8 61 26 4 35 1 9 15 26 0 35 5 10 1 25 2 35 9 10 8 24 5 24 17 36 5 7 67 28 5 36 7 8 54 27 7 36 8 8 90 27 4 36 9 9 44 26 9 37 2 10 4 26 1 37 4 11 1 25 5 26 19 38 0 7 84 28 7 38 1 8 72 27 9 38 1 9 07 27 6 38 2 9 61 27 2 38 3 10 5 26 5 38 4 11 2 25 9 27 19 5 38 4 7 89 29 9 38 4 8 76 29 2 38 5 9 11 28 9 38 5 9 65 1 28 5 38 6 10 6 27 8 38 7 11 3 27 2 28121 39 5 8 01 30 7 39 5 8 88 30 1 39 5 9 24 39 4 9 76 29 4 28 8 39 5 11 4 28 3 41 16112 30 5 41 1 9 86 29 4 41 2 10 3 28 9 41 3 10 9 28 3 41 9 12 1 27 2 42 5 13 0 26 3 42 al 20 14 34 0 42 5 10 1 33 1 42 6 10 5 32 7 42 7 11 2 32 1 43 2 123 31 1 43 7 133 30 3 44 00 24 17 37 6 448 10 5 36 7 448 10 9 36 4 44 9 11 5 35 9 45 2 12 7 35 0 45 4 13 6 34 3 46 26 19 46 5 11 1 35 9 11 8 35 4 46 5 12 9 34 7 46 6 13 8 3
20. Electrode boiler steam humidifier from 8 kgh kW 60 60 60 60 60 60 60 60 ELL HSE9 Electrode boiler steam humidifier from 15 kg h kW dia 113 dis 113 113 113 jo EL FES High efficiency H10 electrostatic air fler kW 0 5 015 025 025 033 0 33 O33 05 PACKAGED 82 302 SOUND LEVELS Sound Power Level dB Sound S d oun pressure el power level Octave band Hz 2000 4000 8000 6 12 dB A Co NO dB A mjejsj s re es as es E re jer jer es re er so e ES re oo or e ES re 71 es e ES GAL ES 13 5 72 65 73 67 72 67 76 76 71 78 72 1 74 co CO OJN Co eo 7 76 eo 76 78 e s 00 ales EIEH s ez a eo os 65 ss pere The sound levels are referred to units vvorking at full load in nominal conditions The sound pressure level is referred at a distance of 1 m from the ducted unit surface working in free field conditions External static pressure 50 Pa standard UNI EN ISO 3744 Please note that when the unit is installed in conditions other than nominal test conditions e g near walls or obstacles in general the sound levels may undergo substantial variations PRESSURE DROPS OF OPTIONAL COMPONENTS The value of static pressure available on the supply and return duct is obtained by subtracting from the available net maximum pressure See general table of technical data the pressure drops of any acces
21. ON MEDIUM SIZED UNITS USED ON A SHOPPING CENTRE THAT IS OPEN 12 HOURS A DAY 6 DAYS A WEEK AND SU A BJECT TO ROUTINE MAINTENANCE 3 TIMES A YEAR l 0 1 2 3 4 5 6 Time years Cost related to standard unit The values are to be considered approximate A The H10 class electrostatic filters and the F7 pocket filters cannot be included simultaneously on the machine PSAF DIFFERENTIAL PRESSURE SWITCH FOR DIRTY AIR FILTERS It makes it possible to detect and signal with a suitable alarm when the dirtiness of the air filter reaches its maximum level This provides the machine operator with information on when filter maintenance is required The detection signal is installed in the unit It is already connected to the electrical panel and pre calibrated in the factory Calibration can be modified by a specialized service centre during the commissioning phase 27 o cn o e LLI Es H m 28 PACKAGED 82 302 HSE ELECTRODE BOILER STEAM HUMIDIFIER This device is perfect for the winter period when it is necessary to add humidity to the room without cooling the air flow The modulating automatic adjustment makes it possible to adapt the production of steam and the related operating costs to meet actual needs Available in different powers the device is suitable for use with unsoftened water of medium conductivity It is complete with water filling
22. as external conditions allow it the unit is capable of automatically activating free cooling mode which by keeping the compressors off and drawing in suitably filtered fresh air cools the served room The fresh air flow can be varied based on actual needs This operating mode is especially useful in spring and autumn or with high ambient loads It allows substantial reduction of the unit s energy consumption and wear of the compressors O SS m o O O LLI oo o H m PACKAGED 82 302 STANDARD UNIT SPECIFICATIONS COMPRESSOR scroll compressor complete with overload thermal protection high refrigerant discharge temperature rubber antivibration mounts oil charge A oil heater is automatically switched on at the compressor shut down to pre vent oil dilution by the refrigerant The compressors are connected in tandem on a single refrigerator circuit They have bi phase equalization of the oil and are equipped with cut off bi bcocks STRUCTURE The basement is assembled with a painted galvanized steel frame The inter nal structure is made of ALUZINK bent galvanized steel The alloy that pro tects the Aluzink allow an excellent corrosion proofing thanks to the galvanic protection typical of the combination aluminium zinc PANELLING Panels of the compressor panel in steel sheet metal painted using polyester powders colour RAL 9001 and covered on the inside with ashlared sound absorbent material Sand
23. data refer to a unit with standard air flow rate in supply Efficiency n PAQC AIR QUALITY SENSOR FOR CO2 P P M CONTROL This option is recommended for areas with highly variable rates of traffic The probe measure the amount of CO2 in the environment and sends the machine a 0 10V proportional signal Based on the received signal the machine manages the input of the correct amount of refresh air preventing wasted energy and money due to a treatment of fresh air in excess of actual needs The probe is installed and wired on board the machine and is located in the unit s supply duct PAQCV AIR QUALITY SENSOR FOR CO2 AND VOC P P M CONTROL The option is recommended in areas with tobacco smoke formaldehyde from solvents deodorants glues paints detergents food preparation etc The probe measure the amount of CO2 and VOC volatile organic compounds in the environment and sends the machine a 0 10V proportional signal Based on the received signal the machine manages the input of the correct amount of refresh air preventing wasted energy and money due to a treatment of fresh air in excess of actual needs The probe is installed and wired on board the machine and is located in the unit s supply duct MHP HIGH AND LOW PRESSURE GAUGES It allows measurement of the pressure of the refrigerant at the supply and return of the compressors making these parameters easier to check by technicians assigned to operate the machine The two
24. essential component of the refrigerant circuit It offers a number of advantages as compared to the traditional thermostatic valve These include reduction of overheating temperature greater efficiency of refrigerant circuit improved compressor working conditions COP optimized reduction of output temperature of the compressor reduction of pressure at condenser less energy absorbed by compressors adaptation to all load conditions and transitories without causing swinging at partial loads All this aids in increasing the efficiency of the load for any thermal load condition and to extend the life cycle LOW EFFICIENCY DANGER OF BREAKAGE OVERHEATING HIGH EFFICIENCY OPTIMAL OPERATION LOW EFFICIENCY DANGER OF BREAKAGE PRESENCE OF LIQUID P Provided Power Variation EEV Electronic valve TEV Thermostatic valve UPDATED ELECTRONIC CONTROL The operation of the unit is fully automatic thanks to the Clivet Talk electronic adjustment system This is a modular device of automatic origins with high speed and reliability and control logic specifically designed for this type of product The user interface is easy to use This allows better use of available resources extending the life cycle of the components and thus reducing maintenance costs With the micro processor keypad it is possible to perform daily weekly programming of the set point as well as start up or shutdown of the machine The unit can als
25. heating coil Copper copper hot gas re heating coil electrode boiler steam humidifier water to waste evaporating wet deck humidifier Electric heaters Heating module with modulating condensing gas burner Air quality sensor for CO2 p p m control Air quality sensor for CO2 and VOC p p m control constant value flow rate adjuster bag filters section F7 class High efficiency electrostatic filters additional section high and low pressure gauges Active winter thermodynamic recovery on expelled air serial port RS485 with MODBUS protocol serial port RS485 with LONWORK protocol phase monitor power factor correction capacitors cosfi gt 0 9 Device for reducing consumption of the outdoor section variable speed fans phase cut Variable fan speed control for operation at lovv ambient temperature ECOBreeze differential pressure switch for dirty air filters free cooling with independent comparison of temperature and absolute humi dity only for C version smoke detector Remote control with remote microprocessor control separately supplied accessories Rubber antivibration mounts Separately supplied accessories TEST Unit manufactured according to the ISO 9001 quality standards and subject to functional testing at the end of the production line PACKAGED 82 302 AIR FLOW STANDARD GENERAL TECHNICAL SPECIFICATIONS s amp we mem wo zs 02 COOLING Cooling cap
26. liquid pressure gauges and corresponding pressure sockets are installed on the machine in an easily accessible location CREFP DEVICE TO REDUCE CONSUMPTION OF FANS OF THE EXTERNAL SECTION The device makes it possible to control the external axial fans adjusting their speed of rotation based on the condensation pressure When fresh air temperature is low a minimum air flow rate is required to hold down the condensation pressure Therefore at low fresh air temperatures fan rotation speed is reduced resulting in reduced energy consumption low temperature device PACKAGED 82 302 In certain applications where the external temperature is low and it is not possible to draw in fresh air to cool the served room free cooling the phase cut device allow the unit to operate correctly CREFB DEVICE FOR REDUCTION OF FAN CONSUMPTION ECOBREEZE This option is recommended for substantial reduction in the consumption of electrical energy for ventilation and to limit noise emissions in the external section of the machine The Eco Breeze logic makes it possible to run the external axial fans with variable rotation speed based on the condensation pressure When fresh air temperature is low a minimum air flow rate is required to hold down the condensation pressure Therefore at low fresh air temperatures fan rotation speed is reduced resulting in reduced electricity consumption and noise emission Summer operation The Eco Breeze op
27. 1 24 17 6 33 243 31 5 7 11 23 6 315 7 42 233 31 6 7 89 22 9 31 8 8 69 22 2 32 0 9 33 21 6 26 19 6 47 24 1 32 7 7 23 235 32 7 7 53 23 2 32 7 8 00 22 8 32 8 8 78 22 1 32 9 9 41 21 5 27 19 5 6 50 24 8 33 0 24 1 33 0 7 56 8 02 23 5 33 1 8 80 22 8 33 1 9 43 22 2 28121 6 58 23 7 34 0 7 34 23 1 34 0 7 64 22 8 33 9 8 10 224 33 8 8 88 21 7 33 6 9 51 21 2 30 22 6 62 249 348 7 38 24 2 34 7 7 69 23 9 345 8 15 235 342 8 94 228 339 9 57 22 3 22 16 7 48 25 5 35 1 8 33 24 8 35 2 8 69 24 5 35 3 9 25 24 0 35 4 10 2 23 3 35 3 11 1 22 1 24 17 7 56 27 1 35 6 8 43 26 4 35 7 8 79 26 1 35 8 9 35 25 7 35 9 10 3 25 0 35 9 11 1 24 4 26 19 7 73 27 2 36 8 8 61 26 5 36 8 8 98 26 2 36 9 9 53 25 7 37 0 10 5 25 0 37 1 11 3 24 5 27119 5 7 77 28 0 37 2 8 66 27 3 37 2 9 02 27 0 37 2 9 57 26 6 37 3 105 259 375 11 3 25 3 28 21 7 89 26 7 38 3 8 78 26 0 38 3 9 14 25 7 38 3 9 69 25 3 38 4 10 6 24 6 38 4 11 4 24 0 30 22 7 97 27 8 39 2 8 86 27 1 39 2 9 22 39 2 9 77 26 4 25 7 39 1 11 5 25 1 22 16 9 27 32 3 43 0 10 3 31 4 43 0 10 7 31 1 43 1 11 4 305 434 126 29 6 43 8 13 5 28 8 24 17 9 39 34 7 43 9 10 4 338 43 9 10 9 334 43 9 115 32 9 44 1 12 7 320 444 13 6 31 3 26 19 45
28. 12 4 53 9 669 13 7 52 3 669 14 2 51 6 66 7 15 0 50 7 66 3 16 3 49 1 65 8 17 4 47 8 28 21 12 6 53 2 68 8 13 9 51 0 68 7 14 4 50 2 68 4 15 2 48 9 67 8 16 5 46 7 EE 16 12 65 7 14 0 44 9 660 15 6 42 8 66 2 16 3 42 0 oe 17 3 40 7 67 5 19 0 38 7 68 4 20 3 37 0 20 14 67 9 14 4 53 9 68 3 16 0 52 2 68 4 16 6 51 6 68 8 17 6 50 6 69 4 19 4 48 9 70 0 20 8 47 6 24 17 71 6 14 9 57 1 71 8 16 5 55 8 71 9 17 2 55 2 72 0 18 1 54 5 72 3 19 9 53 1 72 6 21 3 52 1 26 19 74 4 15 2 56 2 74 3 16 8 55 0 74 2 17 5 54 6 74 2 18 5 53 8 74 3 20 1 52 6 74 5 21 5 51 7 27 19 5 75 1 15 3 57 9 74 9 16 9 56 7 74 8 17 6 56 2 74 8 18 5 55 5 74 8 20 2 54 3 75 0 21 6 53 3 28 21 77 4 15 5 55 7 76 8 17 1 54 5 76 7 17 8 54 0 76 5 18 8 53 3 76 4 20 4 52 1 76 5 21 7 51 1 16 12 81 7 15 8 54 0 82 1 17 5 52 1 82 4 18 2 51 4 82 9 19 3 50 2 84 0 21 3 48 3 85 1 23 0 46 8 20 14 85 8 16 1 68 8 86 2 17 7 669 86 4 18 4 66 2 86 7 19 5 65 1 87 2 21 5 63 2 87 6 23 2 61 7 24 17 91 3 16 4 74 2 91 6 18 1 72 4 91 6 18 8 71 6 91 6 19 9 70 5 91 6 21 8 68 7 91 4 23 4 67 2 26 19 94 5 16 7 73 3 94 6 18 4 71 5 94 6 19 2 70 7 94 5 20 2 ES 94 3 22 1 67 8 94 0 23 6 66 4 27 19 5 95 2 16 8 75 5 95 3 18 5 73 7 95 2 19 2 73 0 95 1 20 3 71 9 94 9 22 2 70 1 94 6 23 7 68 7 28 21 97 3 17 0 72 8 97 1 18 8 71 0 97 1 19 5 70 3 969 20 6 69 2 96 7 22 4 67 4 ES 23 9 66 0 Ta ambient air temperature D B W B DB dry bulb WB wet bulb KWf Cooling capacity in kW kW
29. 161 254 ss 259 38 10782 261 ss 29 40 15 13 oee 2 294 as 5754 az sr saa 5s s ss ss sa 39 55 oros ss ss so ss s n ss 51 s1 62 ssa es os 54 5 39 357 ss e1 sz es ors 00 s3 65 ser er soo 6e 7161 ss sz ora os oe 60 ss s sos 67 ss se a1 707 10782 37 es oas ss s se a7 7 es 5s as mo a2 74 15713 a TE 754 07 14 re eo 77 44 78 as so s ai daa 32 oros s T 7s x 5 39 ws oz os ass es ars as wo os ao oo 48 ot 7 61 e es as mo a7 4 as ao 9o e4 o2 48 o4 10 82 482 ss s es as o1 soo os sos o4 sos 95 15 13 51 0 9 1 51 5 9 3 52 0 9 5 52 3 9 7 52 7 9 9 52 9 10 1 53 1 10 2 Ta fresh air temperature D B W B DB dry bulb WB wet bulb kWt Heating capacity kW kWe Compressor power input in kW Performance data are referred to operation with 30 of fresh air intake and same amount of air exhaust not all thermal yields take into account the heat dissipated by the fan motors Good operation of winter active thermodynamic recovery is ensured if the limit temperature of the air of mixture between fresh air and recirculation air does not drop below 2 C with unit equipped with hot water coil 10 C with unit equipped with gas module O SS m o O O LLI oo o H m 22
30. 18 4 68 5 93 6 19 1 67 8 93 6 20 2 66 7 93 3 22 1 64 9 92 8 23 7 63 5 28 21 16 9 68 5 96 2 18 5 66 7 96 3 19 2 on 96 1 20 3 65 0 95 3 22 2 63 2 94 2 23 9 61 8 30 22 17 0 746 98 1 18 6 72 8 98 1 19 3 72 1 97 8 20 4 71 1 ES 224 693 95 0 24 0 67 9 Ta ambient air temperature D B W B DB dry bulb WB wet bulb KWf Cooling capacity in kW kWe Compressor power input in kW kWs sensible cooling capacity kW not all cooling yields take into account the heat dissipated by the fan motors 12 PACKAGED 82 302 AIR FLOW STANDARD COOLING PERFORMANCE OUTDOOR AIR TEMPERATURE C DB WB ES 22 18 Fes us s wa s m e va s ws s me ore e s om oa s SO Ca NN NF EE EE E A EA EEE a Caer EE dr ae o oe a E em ora wa ws Peraj zo ma rs ez s wre wa ma ro mx 7s we ro o Ta ambient air temperature D B W B DB dry bulb WB wet bulb KWf Cooling capacity in kW kWe Compressor power input in kW kWs sensible cooling capacity kW not all cooling yields take into account the heat dissipated by the fan motors O ur eno G i O o LLI 00 o E en 13 O T m o O O LLI oo o H m 14 PACKAGED 82 302 AIR FLOW REDUCED AIR HANDLING SECTION FANS OUTLET Air flow Vs 1200 1360 1800 2000 2600 3050 3750 4150 Max outside static pressure Pa 430 650 sso 580 550
31. 19 2 6 56 22 6 33 1 7 36 22 0 33 1 7 67 21 8 33 0 8 15 21 4 33 0 8 95 20 8 33 0 9 59 20 3 6 63 23 1 34 1 7 45 34 0 7 17 22 3 21 9 33 8 9 02 21 3 33 7 9 62 20 9 7 47 24 6 33 8 8 43 23 9 33 8 8 82 23 7 34 0 9 41 23 3 34 5 10 4 22 6 35 0 11 2 22 1 7 64 24 3 35 2 8 59 23 6 35 2 8 97 23 4 35 3 9 56 22 9 35 6 10 6 22 3 36 0 11 4 21 7 7 69 25 0 35 5 8 62 24 3 35 6 9 01 24 0 35 6 9 59 23 6 35 9 10 6 22 9 36 1 11 4 22 3 7 80 24 2 36 6 8 74 23 5 36 6 9 12 23 2 36 6 9 70 22 8 36 6 10 7 22 1 36 6 11 5 21 5 7 87 25 5 37 4 8 81 24 8 37 4 9 19 24 5 37 3 9 77 24 1 37 1 10 8 23 4 36 9 11 6 22 8 7 97 26 1 38 6 8 91 25 4 38 5 9 29 23 9 37 2 11 6 23 4 9 27 31 6 42 2 10 4 30 7 42 3 10 8 30 4 42 3 11 5 29 9 42 5 12 7 29 0 42 7 13 7 28 3 9 47 31 1 43 8 10 5 30 2 43 8 11 0 29 9 11 7 29 4 43 8 43 8 13 9 27 8 9 52 32 0 44 3 10 6 31 1 44 3 11 0 30 7 44 3 11 7 30 2 44 2 12 9 29 3 44 1 13 9 28 6 28 21 457 9 66 30 9 45 7 10 7 30 0 45 7 11 2 29 6 45 6 11 9 29 1 45 4 13 1 28 2 45 1 14 1 27 4 9 74 32 6 46 8 10 8 31 7 46 7 11 2 31 3 46 6 11 9 30 8 46 2 13 2 29 9 45 8 14 2 29 2 9 86 33 3 48 6 10 9 32 4 48 4 11 4 32 0 48 2 12 1 31 5 47 5 13 3 30 6 It 10 7 35 3 48 1 11 9 34 3 48 1 12 4 33 9 48 3 13 2 33 3 48 6 14 5 32 4 48 9 15 7 31 6 10 8 35 3 50 0 12 1 34 3 50 0 12 6 33 9 50 0 13 3 33 3 50 0 14 7 32 3 50 1 15 9 31 5 10 9 36 2 50 5 12 1 35 2 50 5 12 6 34 8 50 4 13 4 34 2 50 4 14 8 33 2 50 4 15 9 32 5 11 1 35 0 52 0 12 3 34 0 51 9 12 8 33 6 13 5 33 0 51 8 32 0 51 8 16 1 31 2 11 2 36 6
32. 2961 3294 3523 3864 3025 32 73 3643 38 97 42 75 25 15 2737 3070 3297 3637 27 80 30 27 33 95 36 47 40 24 32 96 46 62 30 29 43 88 27 63 41 15 25 01 38 44 22 38 35 74 5250 36 04 49 93 33 32 47 14 30 62 44 37 27 93 41 61 25 29 38 87 22 63 36 14 22 97 25 39 37 73 20 78 22 96 35 25 18 60 20 55 32 77 4150 5000 31 44 35 05 48 54 29 07 32 41 45 83 26 72 29 78 43 14 24 40 27 16 40 46 22 07 24 59 37 78 19 75 22 01 35 13 Ta outlet air temperature from the treatment coil and entering the post heating coil Qo air flow rate l s kWt thermal power provided kW The post heating coil is supplied with hot gas released between the supply of the compressor and the condensation coil Since the temperature of the hot conden sation gas is related to the outside air temperature the approximate powers of the post heating coil are expressed based on the outside air temperature O o o ojclo ROl olojkiv Ta C 22 kWi__ 17 70 1638 1507 1377 1248 1120 1901 17 59 16 19 1479 13 40 12 03 16 22 1499 13 76 12 54 1132 1042 Qo 200 10 1525 1739 L2 1409 16 00 9 14 1294 1475 S 16 1179 1344 18 10 65 1243 9 52 10 84 2235 20 66 18 98 i 15 66 1401 2460 2273 2088 1904 1723 1541
33. 4 1 47 o 27 19 5 37 9 46 9 10 8 37 2 46 9 112 36 9 46 9 118 36 4 46 9 13 0 35 7 46 9 13 9 35 1 48 T gt 28 21 D o ojoj N SI AR ol al NS w D o AK o u o N w o ho 33 8 48 3 10 9 33 1 48 2 11 3 32 9 48 1 12 0 47 9 13 1 31 9 am oo co o oo al o N ani N co 00 oo al o N N O co 00 EN al o oo bo co Co co N oo O1 T gt O 16 12 46 2 10 3 30 4 46 6 11 4 28 9 46 8 11 9 28 3 47 0 12 6 27 4 47 4 13 9 25 9 47 8 15 0 24 7 20 14 47 9 10 5 37 9 48 1 11 7 36 6 48 2 12 2 36 1 48 4 12 9 35 4 48 8 14 2 34 2 49 2 33 2 24 17 50 36 8 51 4 15 6 36 0 26119 52 6 11 0 39 1 52 6 12 3 38 1 52 5 12 7 37 8 52 6 13 5 37 2 52 7 14 8 36 2 52 9 15 8 35 4 27119 5 53 11 1 40 3 53 0 123 39 3 53 0 12 8 38 9 53 0 13 5 38 3 53 1 148 37 3 53 2 15 9 36 5 28121 54 7 11 3 39 3 54 6 12 4 38 3 54 6 12 9 37 9 54 5 13 7 37 2 54 4 15 0 36 2 54 4 16 1 35 3 16 12 58 5 11 5 41 8 58 8 12 8 40 2 58 9 13 3 39 6 59 1 14 1 38 7 59 6 15 4 37 1 60 2 16 5 35 9 20 14 60 5 11 8 49 0 60 7 13 1 47 9 EN 13 6 47 4 61 0 14 3 46 8 61 3 15 7 45 6 61 5 16 8 44 7 24 17 63 9 12 2 51 8 64 0 13 4 50 7 64 0 14 0 50 2 64 0 14 7 49 6 63 9 16 0 48 5 63 8 17 1 47 6 26 19 66 3 12 4 51 9 66 3 13 7 50 4 66 3 14 2 49 8 66 2 15 0 48 9 65 8 16 3 47 5 65 4 17 3 46 3 27 19 5 67 0
34. 53 0 12 4 35 7 52 9 12 9 35 3 52 8 13 7 34 7 52 8 15 0 33 7 52 9 16 2 32 9 11 3 37 2 54 5 12 5 36 2 54 4 13 0 35 8 54 3 13 8 35 3 54 5 15 2 34 3 54 9 16 4 33 6 12 0 43 7 59 9 13 3 42 5 59 9 13 8 42 0 59 9 14 7 41 2 59 8 16 2 40 0 59 4 17 4 39 0 12 2 43 9 62 2 13 5 42 6 62 1 14 0 42 1 62 0 14 9 41 3 61 6 16 3 40 0 61 2 17 5 39 0 12 3 45 1 62 8 13 5 43 8 62 7 14 1 43 3 62 6 14 9 42 5 62 2 16 3 41 2 61 6 17 6 40 1 12 4 43 8 64 7 13 7 42 4 64 6 14 2 41 9 64 4 15 0 41 1 63 8 16 5 39 7 63 1 17 7 38 7 30 22 860 12 5 45 9 on 13 8 44 6 65 9 14 3 44 1 65 7 15 1 43 3 65 0 16 5 41 9 64 1 17 7 40 8 12 6 46 7 68 1 13 9 45 4 68 0 14 5 44 9 67 7 15 3 44 1 66 8 16 7 42 7 KH 14 7 51 2 68 5 16 4 49 8 68 6 17 1 49 3 68 8 18 2 48 5 69 2 20 1 47 1 69 7 21 7 46 0 15 0 51 2 71 3 16 7 49 9 71 3 17 4 49 3 71 4 18 5 48 6 71 5 20 3 47 2 71 5 21 8 46 2 15 1 52 5 72 0 16 8 51 3 72 0 17 5 50 7 72 0 18 5 50 0 72 0 20 3 48 7 72 0 21 8 47 6 15 3 50 6 74 1 17 0 49 3 74 1 17 7 48 8 74 0 18 7 48 1 73 7 20 5 46 8 73 5 21 9 45 8 as mr sums we ar we mns ee mnes es aa wr omm we sums ore 32 23 5 Ta ambient air temperature D B W B DB dry bulb WB wet bulb kWf Cooling capacity in kW kWe Compressor power input in kW kWs sensible cooling capacity kW not all cooling yields take into account the heat dissipated by the fan motors PACKAGED 82 302 AIR FLOW REDUCED COOLING PERFORMANCE OUTDOOR AIR TEMPERATURE C DB WB Ps rea e s o
35. 6 9 60 34 8 45 6 10 6 34 0 45 6 11 1 33 7 45 6 11 7 33 1 45 6 129 323 45 5 13 8 31 6 27119 5 9 65 36 0 46 1 10 7 35 1 46 1 11 1 34 8 46 0 11 8 34 3 46 0 12 9 33 4 45 9 13 9 32 7 28 21 9 79 33 9 47 5 10 8 33 0 47 4 113 32 7 47 3 11 9 32 1 47 0 13 1 31 3 46 9 14 1 30 5 30 22 9 87 34 6 48 4 10 9 33 7 48 3 114 333 48 1 12 0 478 13 2 31 8 22 16 10 7 36 9 49 4 11 8 35 8 49 4 123 35 4 49 5 13 1 34 7 49 7 14 4 33 7 50 0 15 5 32 8 24117 10 8 39 1 50 3 11 9 38 0 50 3 12 4 37 6 50 4 13 2 37 0 14 5 35 9 50 8 35 1 26 19 11 0 38 7 52 2 12 2 37 7 52 2 12 7 37 3 52 1 13 4 36 6 52 2 14 7 35 6 524 15 8 34 8 27 19 5 11 1 39 8 52 7 122 38 8 52 6 12 7 384 526 13 5 37 8 527 148 36 7 528 159 35 9 28121 11 2 38 3 541 124 37 2 54 1 129 36 8 54 1 13 6 36 2 54 1 149 35 2 54 1 16 0 34 4 30 22 113 40 4 55 0 125 39 4 55 0 13 0 39 0 55 0 13 7 38 3 55 0 15 0 37 3 55 0 16 1 36 5 22 16 EN 119 456 61 5 13 2 442 61 6 13 7 43 6 618 145 428 61 7 159 41 4 61 4 17 1 40 3 24 17 12 0 48 3 62 5 13 3 46 9 62 6 13 9 46 4 62 6 14 7 45 5 62 3 16 1 44 1 61 8 17 2 43 0 26 19 12 3 47 5 64 7 13 6 46 1 64 7 14 1 45 6 64 5 14 9 44 8 63 9 16 3 43 4 63 1 17
36. 97 L R A LOCKED ROTOR AMPERES LRA Compesoi A 8 m mi M ms 173 ma v5 LRA Compesor2 A a 64 lm os 9 9 8 178 F L l FULL LOAD POWER INPUT AT MAX ADMISSIBLE CONDITION F L Compressori _ KW e 83 83 101 132 17 17 17 FLL Compressr2 kw 59 59 83 89 89 89 132 17 FLl SingeExemalFan KW 11 11 12 19 1 11 19 19 FLL Smgeswpyfan o 1 27 27 81 32 32 27 31 FLL Tora O OOOO w 13 188 208 248 277 815 907 443 M I C MAXIMUM INRUSH CURRENT MIC Vaue A 79 1181 1224 1357 1436 1986 2129 2221 Data referred to standard units voltage unbalance max 2 96 power supply 400 3 50 Hz 6 Values not including accessories CONSTRUCTIONAL CONFIGURATION FREE COOLING VERSION WITH EXTRACT RECIRCULATED FRESH AIR INTAKE BOX C ELECTRICAL DATA 82 102 122 162 182 222 262 302 F L A FULL LOAD CURRENT AT MAX ADMISSIBLE CONDITIONS FLA Compese A 2 us us 164 226 308 306 306 FLA Compese2 A 98 98 us 182 152 152 226 ae ELA Single Extemal Fan A 25 25 28 4 25 85 a 4 FLA Smgesupyfam A 22 as 43 as as 49 as 49 ELA Single exhaust si tan lass 22 22 22 49 48 49 49 FLA Tol _ a 4 s ws as s25 os 754 946 L R A LOCKE
37. BURNER COMPARTMENT GAS MODULE SUPPLY 1 GAS SAFETY THERMOSTAT INSPECTION COMPARTMENT AMBIENT AIR INTAKE 20 2 WEIGHT DISTRIBUTION is R 1 2 3 M AMBIENT AIR DISTRIBUTION Constructional configuration recirculated outside air mixing box B AE FRESH AIR INTAKE FS AIR EXHAUST ONLY FOR C VERSION EA H1 WALL WITH SAME HEIGHT AS UNIT ON A MAXIMUM OF kg 551 566 THREE SIDES we a 39 j 34 SUGGESTED CLEARANCE ws Pto m m wa kg P 5 67 Shipping weight kg 1955 2005 Constructional configuration free cooling version with extract recirculated fresh air intake box C B TRA ig Tel ms a O ur eno G i O o LLI 00 o E en ws Kg P ag 49 we Kg ea Shipping weight LI kg oso 2100 41 PACKAGED 82 302 CLIVET SPA Feltre BL ITALY Tel 39 0439 3131 CLIVET ESPA A S A CLIVET UK LTD Madrid SPAIN Fareham Hampshire U K Tel 34 91 6658280 Tel 44 0 1489 572238 Fax 39 0439 313300 Fax 34 91 6657806 Fax 44 0 1489 573033 info Oclivet it info clivet es info clivet uk co uk CLIVET NEDERLAND BV CLIVET SPA Amersfoort Netherlands BUREAU DE LIAISON EN FRANCE Tel 31 0 33 7503420 Verrier s le Buisson FRANCE Fax 31 0 33 7503424 Tel 33 0 1 69 20 25 75 info clivet nl Fax 33 0 1 69 20 60 76 info fr clivet com CLIVET GmbH Norderstedt GERMANY Tel 49
38. CMS is a Clivet supervision system that allow to schedule and manage all the installed Clivet conditioning units optimizing their functional working and the others systems in order to reduce the energy consumption Thanks to the simple use of the software and to the tridimensional graphic interface it is possible to change complex activities of system operating into simple activities made by the customer Clivet management system let to visualize the maintenance state of the conditioning units valuate and manage the alarms The user makes operation on the supervision workstation or on the PLC Programmable Logic Controller interface display The exchange data between workstation units control electronic devices remote managing electronic devices is made on serial bus networks by communication standard protocol RS485 or on local network LAN Local Area Network Ethernet TCP IP The control software let to verify the conditioning unit and to make the on line assistance directly from Clivet factory using the telephone network o cn o e LLI 00 O H m 32 PACKAGED 82 302 CSRT XHE OPTIONS CNT UO e o Eu ur OJ KT ANC ENTE e cC TT 9 s E CT a O OI Ex Partie O OO HIT TS ENTE NET E MECA 9 9 CY Sera por yny I RER Serat pa ES wan LONWORK poe ooo 9 9 9 SSC ACCESSORIES STANDARD ACCESSORIES OPTIONAL ACCESSORY NOT INCLUDED o ACCESSORY NECESSARY WITH SELECTION OF AIR QUALIT
39. D ROTOR AMPERES LRA Compesori A 64 m 101 m 118 173 173 173 LRA Compreso2 A 64 64 m 95 95 95 118 173 F L l FULL LOAD POWER INPUT AT MAX ADMISSIBLE CONDITION Fll Compressort _ kW e 83 83 101 132 17 17 17 Fli Compressor2 KW 59 59 83 89 89 89 132 17 F L l Single External Fan Wo 11 11 12 19 11 11 19 19 FLL Smgesupyfan o 1 27 27 81 832 82 27 8 Fli Singleexhaustairfan LL i i i 1 J 27 27 32 32 FLL Toal KW 153 193 218 253 304 342 429 475 M I C MAXIMUM INRUSH CURRENT MLC Vaue A 812 1203 1246 1379 1479 2029 2178 227 Data referred to standard units voltage unbalance max 2 96 power supply 400 3 50 Hz 6 Values not including accessories ELECTRICAL INPUT OF OPTIONAL COMPONENTS To obtain the electrical input of the unit including accessories add the standard data in Electrical Data table to those for the selected accessories F L A FULL LOAD CURRENT F L A EHO7 3 kW electric heaters A 48 48 j SI ELA EH10 6kWelectricheaters FAJ 87 87 87 87 mq ELA EH12 9kW electric heaters A 3933 18 13 18 ELA EH14 12kWw electric heaters AL LL ws 13
40. ESSORS 3 7 lt EER lt 4 8 APPROXIMATE VALUES SELF ADAPT ABILITY Thanks to the automatic adjustment of the operating parameters based on the system load conditions the unit is capable of optimizing its own efficiency reducing the resulting consumption and extending the life cycle of the components The temperature range to be maintained in the room can be set by the user manual set point or managed by the machine logic automatic set point When AUTOMATIC mode is set the working set points are calculated automatically and dynamically by the thermal control device based on the outside temperature and other parameters set during commissioning of the machine thus avoiding thermal shock between the treated room and the exterior w SET POINT C 00 THE GRAPH SHOWS THE TREND OF THE CURVES OF THE HOT SET POINT BOTTOM LINE AND OF THE COLD SET POINT UPPER LINE BASED ON THE OUTSIDE TEMPERATU RE THE HIGHLIGHTED TEMPERATURE VA LUES ARE THOSE SET AS DEFAULT BUT THEY MAY BE CHANGED ACCORDING TO CLIENT NEEDS aa G i O O LLI oo O H m 5 20 24 35 OUTDOOR AIR TEMPERATURE C PACKAGED 82 302 DEMAND LIMIT The Demand Limit function is a logic that controls the machine s resources dedicated to limiting the input power from the electrical mains for example when there are special agreements between the user and the operator of the electrical mains or to selecting the thermal resources to be used based
41. IENT AIR INTAKE 2 3 1 1 1 1 M AMBIENT AIR DISTRIBUTION E FRESH AIR INTAKE S AIR EXHAUST ONLY FOR C VERSION 1 WALL WITH SAME HEIGHT AS UNIT ON A MAXIMUM OF THREE SIDES VIBRATION MOUNTS POSITION SUGGESTED CLEARANCE A E H O ur eno G i O o LLI 00 o E en 37 PACKAGED 82 302 DIMENSIONAL DRAWING SIZE 182 222 DIMENSIONAL DRAWING 5 2130 1895 596 E o z 7 a 2300 a 1500 H Ad A 1 REMOVABLE PANEL FOR ACCESS TO THE COMPRESSOR COMPARTMENT ELECTRICAL PANEL 3 MICROPROCESSOR KEYBOARD POWER INPUT HUMIDIFIER INLET CONNECTIONS CONDENSATE DISCHARGE FUNCTIONAL CLEARANCES WATER INLET INTEGRATING COIL Y 1 1 4 WATER OUTLET INTEGRATING COIL 1 1 4 RE HEATING COIL OPTIONAL TREATMENT COIL WATER HEATING COIL OPTIONAL ELECTRONIC AIR FILTERS F7 BAG FILTERS OPTIONAL G4 AIR FILTERS teg Xj KE hee T LFATFAF Proa d SUPPLY FAN EXHAUST FAN ONLY FOR C VERSION 17 LIFTING BRACKETS REMOVABLE IF REQUIRED AFTER POSITIONING THE UNIT 18 FRESH AIR SHUTTER 19 OVER PRESSURE DAMPER AIR EXHAUST ONLY FOR C VERSION 20 ACCESS FOR INSPECTION OF COILS FILTERS HEATING ELEMENTS
42. IR FILTERS SUPPLY FAN EXHAUST FAN ONLY FOR C VERSION LIFTING BRACKETS REMOVABLE IF REQUIRED AFTER POSITIONING THE UNIT 18 FRESH AIR SHUTTER 19 OVER PRESSURE DAMPER AIR EXHAUST ONLY FOR C VERSION 20 ACCESS FOR INSPECTION OF COILS FILTERS HEA TING ELEMENTS R AMBIENT AIR INTAKE M AMBIENT AIR DISTRIBUTION AE FRESH AIR INTAKE ES AIR EXHAUST ONLY FOR C VERSION 1500 WEIGHT DISTRIBUTION Constructional configuration recirculated outside air mixing box B we e te OF THREE SIDES VIBRATION MOUNTS POSITION wp pee pan Sweigwegu fag 895935 A Constructional configuration free cooling version with extract recirculated fresh air intake box C wm Tag oe 216 wl wl alias ve o y lele wag 2 201 Shipping weight kg 945 955 PACKAGED 82 302 DIMENSIONAL DRAWING SIZE 82 102 GAS MODULE 54 kW DIMENSIONAL DRAWING 2 1700 1547 1500 C9 W2 1500 H TA pag PA P PEN LI Mu Y Ka VYS 1 REMOVABLE PANEL FOR ACCESS TO THE COM PRESSOR COMPARTMENT ELECTRICAL PANEL 3 MICROPROCESSOR KEYBOARD 4 POWER INPUT 5 HUMIDIFIER INLET CONNECTIONS 6 CONDENSATE DISCHARGE 7 FUNCTIONAL CLEARANCES 8 9 10 1500 RE HEATING COIL OPTIONAL TREATMENT COIL
43. NSIONAL DRAWING SIZE 122 162 GAS MODULE 54 72 kW DIMENSIONAL DRAWING 4 PACKAGED 82 302 2110 bo y gt od Vy Li NJ V Ir PATA Py P nuri E WEIGHT DISTRIBUTION Constructional configuration recirculated outside air mixing box B 357 Constructional configuration free cooling version with extract recirculated fresh air intake box C irr wa o w s Shippingweight kg 1355 ia 1500 1780 1915 1 REMOVABLE PANEL FOR ACCESS TO THE COMPRES SOR COMPARTMENT ELECTRICAL PANEL 3 MICROPROCESSOR KEYBOARD 4 POWER INPUT 5 HUMIDIFIER INLET CONNECTIONS 6 CONDENSATE DISCHARGE 7 FUNCTIONAL CLEARANCES 8 RE HEATING COIL OPTIONAL 9 TREATMENT COIL 10 ELECTRONIC AIR FILTERS F7 BAG FILTERS OPTIONAL 1 G4 AIR FILTERS 2 SUPPLY FAN 3 EXHAUST FAN ONLY FOR C VERSION 4 LIFTING BRACKETS REMOVABLE IF REQUIRED AFTER POSITIONING THE UNIT 15 FRESH AIR SHUTTER 16 OVER PRESSURE DAMPER AIR EXHAUST ONLY FOR C VERSION 17 ACCESS FOR INSPECTION OF COILS FILTERS HEATING ELEMENTS 18 GAS MODULE 19 DISCHARGE WASTE GAS PROVIDED UN ASSEMBLED 20 INTAKING AIR BURNER 21 GAS BURNER COMPARTMENT 22 GAS MODULE SUPPLY 1 GAS 23 SAFETY THERMOSTAT INSPECTION COMPARTMENT R AMB
44. OMPARISON OF OPERATING COSTS A CASE STUDY The high efficiency electrostatic filters allow very rapid return of the initial investment as compared with a traditional filtering system thanks to the reduction of electrical consumption of the ventilation sections and the greatly reduced maintenance costs since the filters do not require periodic replacement A typical case study shows how return on investment occurs in just a few months In the heavy duty use of a shopping centre this occurs by the second year with respect to a traditional system with pocket F7 high efficiency second stage filtering This also greatly reduces environmental impact both due to more rational use of energy and because no special waste is produced such as the used traditional pocket filters Cost analysis electrostatic filters bag filters 1 COST FOR PURCHASE AND OPERATION OF 150 THE SECOND FILTERING STAGE TRADITIONAL TYPE WITH POCKETS EFFICIENCY F7 2 COST FOR PURCHASE AND OPERATION OF THE SECOND FILTERING STAGE ELECTROSTA TIC TYPE WITH POCKETS EFFICIENCY H10 IN ORDER THE PERCENTAGE OF COST INCREA 1 SES ARE PRESENTED FOR A STANDARD UNIT 100 WITH SINGLE FILTERING STAGE OF G4 EFFICIENCY OPERATION INCLUDES GREATER COSTS FOR VENTILATION AND MAINTENANCE 4 PERFORMANCE OF ELECTROSTATIC FILTER Cost save from A 25 ON VENTILATION COSTS 2 90 ON TS OF MAINTENANCE 19 month 90 ON COSTS O C 50 EXAMPLE BASED
45. RE HEATING COIL This option is recommended during the summer when dehumidification of the room is required The flow of air to enter the room may contain a higher level of humidity than desired The dehumidification process is used to reduce it The air flow is first cooled in the treatment coil with separation of condensation It is then freely post heated to maintain the desired condition of comfort in the room served The post heating coil is located behind the treatment coil and is activated by drawing a flow of hot gas down the line from the compressors through the action of a dedicated solenoid valve The process starts working based on the humidity set point established by the user With respect to traditional devices such as electrical heating elements or hot water coils the use of the post heating coil does not consume any energy It also lowers the condensation temperature which provides two positive effects the power absorbed by the compressors is considerably reduced and at the same time the cooling power is increased with greater EER TREATMENT COIL RE HEATING COIL HUMID AIR COLD AIR TREATED AIR o cn o e LLI Es H m ATAN CONDENSATE DISCHARGE N N HUMIDITY PROBE Ta lt 7 XU o S TO THE CONDENSER E K ELECTRONIC EXPANSION VALVE E This option reduces the available static pressure air side 24 PACKAGED 82 302 PERFORMANCE HOT GAS RE HEATING COIL 22 32 k
46. TION AE FRESH AIR INTAKE ES AIR EXHAUST ONLY FOR C VERSION H1 WALL WITH SAME HEIGHT AS UNIT ON A MAXIMUM OF THREE SIDES VIBRATION MOUNTS POSITION SUGGESTED CLEARANCE 4 5 6 7 8 9 1 1 1 1 1 1 1 1 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 PACKAGED 82 302 DIMENSIONAL DRAWING SIZE 262 302 GAS MODULE 96 150 kW DIMENSIONAL DRAWING 8 RR i 2260 yn 2180 2300 1500 1500 U Mu U 1 REMOVABLE PANEL FOR ACCESS TO THE COMPRESSOR COMPARTMENT ELECTRICAL PANEL 3 MICROPROCESSOR KEYBOARD POWER INPUT HUMIDIFIER INLET CONNECTIONS CONDENSATE DISCHARGE FUNCTIONAL CLEARANCES RE HEATING COIL OPTIONAL TREATMENT COIL ELECTRONIC AIR FILTERS F7 BAG FILTERS OPTIONAL G4 AIR FILTERS SUPPLY FAN EXHAUST FAN ONLY FOR C VERSION LIFTING BRACKETS REMOVABLE IF REQUIRED AFTER POSITIONING THE UNIT 15 FRESH AIR SHUTTER 16 OVER PRESSURE DAMPER AIR EXHAUST ONLY FOR C VERSION 17 ACCESS FOR INSPECTION OF COILS FILTERS HEATING ELEMENTS 18 GAS MODULE 19 DISCHARGE WASTE GAS PROVIDED UN ASSEMBLED i Uu 2 3 4 5 6 7 8 9 1 1 e 1 1 1 0 1 2 3 4 1500 0 INTAKING AIR BURNER GAS
47. Wt kWt 2113 1800 21 13 23 34 24 89 27 13 1200 1500 All SLUT a 22 2 22 4 32 kwt KWt 1671 1845 19 66 2144 1770 1905 2104 22 42 HIEL GIUIUET d L 24 29 kWt kWt kwt kWt kWt 1671 19 05 2242 O o o A E 15 53 14 38 15 55 17 29 18 48 20 26 16 38 17 73 19 71 21 08 23 11 13 23 14 39 16 12 17 31 19 08 15 07 16 41 18 39 19 75 21 77 12 09 13 24 14 97 16 15 17 91 13 77 15 10 17 07 18 42 20 44 24 46 19 63 18 17 19 67 21 87 23 40 25 64 de 16 72 24 17 15 27 22 69 13 83 21 22 12 41 19 75 2040 Ta C BIN j j ojojo 10 96 12 10 13 82 14 99 16 75 12 48 13 79 15 76 17 10 19 11 9 83 10 97 12 67 13 84 15 59 11 20 12 49 14 45 15 79 17 79 1360 1700 16 72 19 01 26 27 15 48 17 59 24 83 14 24 16 19 23 40 21 03 22 65 25 01 26 67 29 09 13 01 14 26 16 12 17 40 19 30 14 79 16 22 18 33 19 80 21 97 O o n o 19 47 27 49 17 91 25 90 Ta C N o c 14 83 16 40 18 74 20 36 22 6 13 30 14 85 17 19 18 80 21 18 2900 11 80 13 03 14 88 16 15 18 04 13 40 14 82 16 92 18 38 20 04 10 58 11 81 13 65 14 91 16 79 12 03 13 42 15 52 16 97 19 12 1800 2220 16 37 17 95 20 30 21 93 24 33 O o o A 17 39 24 12 16 06 22 76 14 31 16 22 22 49 13 23 14 99 21 22 12 14 13 76 19 96 11 07 12 54 18 71 Ta C au i 14 75 16 06 18 04 19 39 21 41 13 44 14 74 16 71 18 05 20 06 12 13 13 44 15 39 16 72 18 72 Mil cl sch ech ojojo 4
48. Y PROBE AVAILABLE ONLY WITH OPTIONS CONSTRUCTIONAL CONFIGURATION C GAS BURNER HOT WATER COIL O 33 o F m o O O LLI oo o E m 34 PACKAGED 82 302 FUNCTIONAL CLEARANCES When placing the unit it is necessary to comply with the functional spaces indicated in the dimensions Compliance with fictional spaces is essential to ensure proper operation of the unit allow maintenance technicians easy access to the equipment compartments protect authorized operators and exposed persons If several units are placed near one another the functional spaces between machines must be doubled DIMENSIONAL DRAWING SIZE 82 102 DIMENSIONAL DRAWING 1 1700 1547 109 515 ME MU TP 680 L 596 SQ i 11 e 1500 9 1500 o U U V 1 REMOVABLE PANEL FOR ACCESS TO THE COMPRES SOR COMPARTMENT 2 ELECTRICAL PANEL 3 MICROPROCESSOR KEYBOARD POWER INPUT HUMIDIFIER INLET CONNECTIONS CONDENSATE DISCHARGE FUNCTIONAL CLEARANCES o y le ka PA PN PA U 11 d n 3 ADDITIONAL COIL 1 WATER INLET ADDITIONAL COIL Y 1 WATER OUTLET 0 i 2 3 RE HEATING COIL OPTIONAL TREATMENT COIL WATER HEATING COIL OPTIONAL ELECTRONIC AIR FILTERS F7 BAG FILTERS G4 A
49. acity x 86 ate 135 15 d85 202 235 2 2 Fan diameter 450 500 500 560 630 630 500 eegne cc cc cc cc cc cc cc to Ile 180 5000 installed unitpomer kW 14 27 27 31 32 82 27 wm Max outside static pressure Ja Pa 200 so 450 sao 450 8m 460 sio FANS EXPULSION Tysons _ 8 mo mo RAD RAD RAD RAD RAD RAD Mumeroas N 3 3 3 3 3 3 35 T3 Fan diameter Lal as 450 am am S0 el 630 Typeotmoor LI Lee cc cv cc cc cc cc ce msaledutpowr ar 34 314 an 87 88 88 EXTERNAL SECTION FANS mwens 8 A A A amp AX AX A AX Mumerotas N 3 3 31 Qa 1 2 8 8 8 Fan diameter mm Fanm mm 189 1899 em 8m 90 90 880 Standard airflow i n 361 aal 5700 6670 6670 11400 11400 installed unitpowr kW 1 1 383 2 3 1 lz 8 POWER SUPPLY Standard power supply LL V 400 8 50 400 3 50 400 3 50 400 3 50 400 3 50 400 3 50 40 8 50 400 3 50 Performance data are referred to operation with 3096 of fresh air intake and same amount of air exhaust construction configuration C 1 Ambient temperature 27 C 19 5 WB external exchanger air intake 35 C EER referred only to compressors 2 SCROLL scroll compressor 3
50. cated fans and to recover the energy of the expelled air The automatic adjustment of the shutters allows operation of the unit with full recirculation with a mixture of return air and fresh air with a mixture of return air and re circulation air and expulsion of a part of the return air with all fresh air and total expulsion of return air total free cooling N B the expulsion fan serves to draw only part of the return air flow and expel it from the machine This fan is not expected to overcome the pressure drops of the return duct The control of supply and return air flows is handled only by the treatment zone fan Therefore this fan must ensure static pressure to overcome the supply and return pressure drops Refer to the maximum static pressure value in the general technical data tables EXHAUST AIR RETURN SUPPLY FRESH AIR PACKAGED 82 302 PLUG FANS EC The units are equipped in supply and in expulsion with radial plug fans with reversed blades directly coupled to high performance brushless DC motors The plug fans differ from traditional centrifugal fans in that there are no belts or pulleys This results in increased efficiency and makes it possible to dynamically vary the speed You can change the number of fan revs directly from the keypad to adapt the static pressure to the pressure drop of the system NEW GENERATION OF AXIAL FANS FOR THE EXTERNAL SECTION The need for continuous improvemen
51. condition and sends a message to the machine controller such as smoke alarm failure or service required The device is composed of a Venturi tube installed inside the return duct and a control unit with a sensor that is located on the outside duct Assembly and wiring are done at the factory CONTROL LOGICS IN THE EVENT OF ALARM SIGNAL supply fan emus o Complete shutdown Dischargedamper Closed Room kept pressurized Fresh air Shutter Discharge damper Closed The machine logic manages the signal from the smoke detector installed in the return section or by a fire detection unit implementing one of the actions shown in the table which can be set as a parameter If there is an alarm signal and according to the set logic the compressors are always shut off The roof top units may not be used as smoke extractors o cn o O e e LLI Es fF m 30 PACKAGED 82 302 PM PHASE MONITOR The phase monitor makes it possible to check the correct connection of the phases and their imbalance in units powered with a tri phase system If the connection of the phases is not correct or the limit is exceeded for imbalance between phases the monitor acts on the control circuit which orders shutdown of the machine PFCP POWER FACTOR CORRECTION CAPACITORS COSFI gt 0 9 The component is necessary to lower the phase difference between current and voltage in the electromagnetic components of the machine
52. e Compressor power input in kW kWs sensible cooling capacity kW not all cooling yields take into account the heat dissipated by the fan motors PACKAGED 82 302 AIR FLOW HIGH COOLING PERFORMANCE OUTDOOR AIR TEMPERATURE C Co Dr we er Tre T sr Fe Fe or e e o Te e or re Tn HE A Ce EG EET Re EE EE EE KEE Lee NEE E EE 28 2 Ta ambient air temperature D B W B DB dry bulb WB wet bulb KWf Cooling capacity in kW kWe Compressor power input in kW kWs sensible cooling capacity kW not all cooling yields take into account the heat dissipated by the fan motors O ur eno G i O o LLI 00 o E en 17 PACKAGED 82 302 ACCESSORIES FCE ENTHALPY FREE COOLING ONLY FOR C VERSION When external conditions allow it the unit is capable of automatically activating free cooling mode which by keeping the compressors off and drawing in suitably filtered fresh air cools the served room The fresh air flow can be varied based on actual needs This operating mode is especially useful in spring and autumn or with high ambient loads It allows substantial reduction of the unit s energy consumption and wear of the compressors by placing air directly into the room The settings are determined automatically by comparing the temperature and humidity outside and in the served room CHW2 TWO ROW HOT WATER COIL Option recommended for very cold climates since it allows heating of the s
53. erved room The battery is equipped with a thermostat for the anti freeze function The anti freeze function is always active even when the unit is in standby If necessary it forces opening of the valve to the maximum allowable value for allow passage of water in the coil and to prevent the formation of ice HOT WATER COIL PRESSURE DROP AIR SIDE 55 182 222 262 302 50 122 162 45 82 102 THE AIR SIDE PRESSURE DROPS ARE RELATIVE TO THE MEDIUM AIR 40 TEMPERATURE OF 20 C AND ARE TO BE ADDED TO THE PRESSURE Q DROPS DUE TO DUCTS TERMINAL DEVICES AND ANY OTHER COMPO NENT THAT CAUSES A DROP IN a 30 WORKING DISCHARGE HEAD T O L S AIR FLOW RATE 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 Q I s HOT WATER COIL PRESSURE DROP WATER SIDE 40 35 30 PRESSURE DROPS ON THE WATER SIDE ARE CALCULATED CONSIDE RING AN AVERAGE WATER TEMPE 25 o ZS RATURE OF 65 C o Q L S WATER FLOW RATE en 20 o e o 15 LLI S E 10 aa 5 0 5 1 1 5 2 2 5 3 3 5 4 4 5 5 QI s 7 This option reduces the available static pressure air side A The component requires connection to the hot water plumbing system to be provided for by the client PACKAGED 82 302
54. hange of water ensures cleaning of the evaporation septum and provides maximum limitation of the formation and proliferation of Legionnaire s Disease With this option energy consumption for water evaporation is limited Whenever the packaged humidifier is active in addition to humidifying adiabatic cooling of the air takes place which is constantly compensated for by the thermal control device Direct connection to the plumbing system eliminates the need for special water treatment and easy control of the humidification process by means of the measuring and adjusting device of the water flow rate provided standard The accessory is installed inside the unit and is connected to the electrical panel of the machine Manual shut off measuring valve device TP djust E This option reduces the available static pressure air side SEET A This accessory requires the presence of a water circuit and drain on board the machine Provided by the customer MAXIMUM RATE OF STEAM RELEASED BY THE WET DECK HUMIDIFIER ea we 2 we we zm A 35 46 52 75 92 104 44 58 65 94 115 130 54 70 79 114 140 158 bon 36 39 Ta D B dry bulb temperature of inlet air to the wet deck Ta W B wet bulb temperature of inlet air to the wet deck Approximate values of the maximum rate of steam released by the wet deck humidifier to the air to obtain controlled thermal and humidity conditions in supply The
55. he air of mixture between fresh air and recirculation air does not drop below 2 C with unit equipped with hot water coil 10 C with unit equipped with gas module 21 THERMODYNAMIC RECOVERY ACTIVE WITH 30 OF EXPELLED FRESH AIR Return air temperature D B cw kwe kw awe Wi 5754 4 22 25 22 7 07 06 m4 23 196 29 138 5 39 43 24 146 25 148 7 61 ws 25 150 26 152 10 8 2 15 13 5 5 4 O 0 6 5 3 9 7 6 1 10 8 2 15 13 5 5 4 O 0 6 5 3 9 7 6 1 10 8 2 15 13 5 5 4 0 0 6 5 3 9 7 6 1 10 8 2 15 13 5 5 4 0 0 6 5 3 9 7 6 1 10 8 2 15 13 5 5 4 15 2 16 0 13 5 13 9 14 5 14 8 15 2 16 3 2 6 2 7 2 2 2 3 2 4 2 4 2 5 2 7 15 4 16 2 13 9 14 1 14 6 15 0 15 4 16 5 2 6 2 8 2 2 2 3 2 4 2 5 2 5 2 7 15 6 16 3 14 3 14 3 14 7 15 1 15 5 16 7 20 3 20 4 21 217 36 223 37 242 40 223 37 227 38 235 40 240 41 247 42 266 46 236 38 39 252 39 39 259 4 0 43 Pr 226 36 227 36 231 37 236 38 20 0 20 8 21 4 22 1 24 0 3 2 3 4 3 5 3 6 3 9 20 2 20 9 21 5 22 1 24 1 3 3 3 4 3 9 3 1 4 0 21 8 23 0 23 7 24 4 26 1 3 7 3 9 4 0 4 1 4 4 22 3 23 2 23 8 24 5 26 3 3 1 3 9 4 0 4 2 4 5 23 2 24 7 25 3 25 9 27 1 3 6 3 8 3 9 4 0 4 2 23 4 24 9 25 6 26 2 27 3 3 1 oros zas ss eu 3e 5 39 2e7 07 253 38 7
56. he sections that make up the machine substantially reduces its footprint making it easier to position and leaving more space available for parking additional equipment rooms or other uses This also reduces the time required for the positioning of the ducts on the various sides of the unit since its great compactness allows its complete rotation which is very difficult with traditional units with in line extension REDUCTION OF CONSUMPTION AND OPERATING COSTS The roof top units of the XHE series were created with the objective of always operating at maximum energy savings through an extremely intelligent and advanced control of power provided only when it is needed especially during frequent conditions of operation at partial load The use of the free cooling device and the adoption of thermodynamic recovery on the expelled air make it possible to further reduce operating costs Since ventilation represents one of the greatest factors of energy consumption special attention has been given to the efficiency of the ventilation system through careful selection of components and limitations of internal pressure drops The limitation of the emissions of carbon dioxide and respect for the environment are guiding thoughts of Clivet which through the implementation of modern technical solutions pursues the reduction of energy consumption EASY MAINTENANCE The entire series is designed with highly reliable industrial components that are easi
57. ks to the minimum pressure drops and the possibility to wash them they substantially reduce consumption and hence ventilation costs while at the same time ensuring excellent performance As an alternative the more traditional high efficiency F7 rigid pocket filters are available F7 HIGH EFFICIENCY F7 AIR FILTER The multi dihedral filters with rigid pockets class F7 are filtering components that are in addition to the standard G4 filters for more effective filtering They E are widely used in civil air conditioning systems and in industrial applications CF that require suitable performance concerning fine dusts and particles with m dimensions greater than um Class F7 filters are made of fibreglass paper pleated with constant calibrated spacing mounted on frames with a sturdy structure in extruded moulded polyester the ample filtering surface reduces air side pressure drops Class F7 filters must be replaced after reaching their limits of dirtiness with scheduled periodic maintenance It is possible to provide as an accessory the dirty filters differential switch which informs the user that the admissible limit of dirtiness has been reached so as not to excessively reduce the air flow rate with respect to the nominal value This option reduces the available static pressure air side FES AIR FILTER ELECTRO STATIC HIGH EFFICIENCY H10 Class H10 high efficiency filters are additional filtering components with an ac
58. ks to the technology of condensation with premixing and very high E gt efficiency modulation up to 105 based on the net calorific value consumption is extremely limited and further reduced during operation at o partial loads Emissions into the atmosphere are minimal completely free of nitrogen monoxide and with a low content of CO2 which remains constant in the entire working range as opposed to atmospheric burners The heating module includes a condensation hot air generator with modulating adjustment fuelled with methane gas or LPG and is complete with a steel flue pipe kit and all safety and adjustment devices The flue pipe kit requires assembly and is to be installed at the worksite The module is provided standard set up for methane gas A kitis provided for changeover to LPG e This option reduces the available static pressure air side The component requires a supply of gas gas connection to be provided by the client Note the presence of the flue pipe and the need to comply with legal requirements in positioning the machine GAS CONNECTION DIAGRAM GA AU UA A AA 1 MAIN BURNER GAS SOLENOID VALVE 2 PRESSURE STABILIZER 3 GAS SAFETY SOLENOID VALVE 4 GAS FILTER SMALL SECTION 5 ANTI VIBRATION JOINT 6 GAS FILTER LARGE SECTION 7 GAS BIBCOCK 8 PILOT BURNER GAS SOLENOID VALVE I es DI S Tm EE E oe INCLUDED PROVIDED BY THE CUSTOMER p A GAS CONSUMPTION Be aw
59. ly accessible and available if maintenance is required It is also equipped with self diagnosis and safety devices that ensure its proper operation while at the same time protecting users aa o O O LLI oo O H m PACKAGED 82 302 STANDARD UNIT SPECIFICATIONS CB PRINCIPLE OF OPERATION OF STANDARD UNIT VERSION B The standard constructional configuration called version B allows automatic control of supply and return air flow and the intake of fresh air for required refreshing by means of a manually operated shutter The version with optional setups is equipped with shutters with a servo motor for constant adjustment of the refresh air mixture operation with a fixed percentage of refresh air with opening or closing of the shutter by means of an actuator ON OFF which intervenes when ventilation is active optional operation with variable percentage of refresh air with opening and closing of the shutters by means of modulating actuators driven by the signal of the air quality probe optional EXHAUST AIR RETURN SUPPLY FRESH AIR FRESH AIR E MAN CC OPTIONAL VERSION WITH EXPULSION HEAT RECOVERY AND FREE COOLING When the machine is in optional constructive configuration called version C it allows automatic management of the supply and return air flows and the intake of fresh air for required refreshing In addition it is capable of expelling the return air from the served room by means of dedi
60. mal protection incorporated in version IP 54 Housed in aerodynamically shaped nozzles to increase efficiency and minimize noise levels They are fitted with protective safety guard grilles REFRIGERANT CIRCUIT The circuit is complete with refrigerant charge sight glass with moisture indicator high pressure switch low pressure switch filter dryer electronic expansion valve liquid receiver high pressure safety valve low pressure safety valve FILTRATION fresh air intake side Pleated filter for greater filtering surface made up of galvanized plate frame with galvanized and electric welded protective mesh and regenerable filtering media made from polyester fibre sized with synthetic resins G4 efficiency according to CEN EN 779 standard Eurovent class EU4 5 average efficiency 90 1 ASHRAE 52 76 Atm Self extinguishing resistance to fire class 1 DIN 53438 ambient air suction side Pleated filter for greater filtering surface made up of galvanized plate frame with galvanized and electric welded protective mesh and regenerable filtering media made from polyester fibre sized with synthetic resins G4 efficiency according to CEN EN 779 standard Eurovent class EU4 5 average efficiency 90 1 ASHRAE 52 76 Atm Self extinguishing resistance to fire class 1 DIN 53438 TRAY condensate collecting tray in aluminum alloy 1050 H24 with anti condensate insulation welded and equipped with threaded discharge cou
61. o be connected to supervision systems using clean contacts or by serial with the standards of communication most commonly available on the market gt d zu HOME A E PACKAGED 82 302 VERY HIGH EFFICIENCY AT PARTIAL LOAD In air conditioning projects the choice of the unit is made based on the maximum load of the room to be served In practice over the course of the year these operating conditions are limited to short periods of time whereas operation at partial loads is the actual normal operating condition The need to adapt the power provided to the load requested becomes essential in limiting energy consumption This is why we have decided to couple two scroll compressors of different power on a single refrigeration circuit thus obtaining very high efficiency The electronic control that the machine is equipped with divides compressor operation into three steps of power 1 3 2 3 3 3 This limits the oscillation of the air temperature and provides perfect adaptation to partial load offering substantial energy savings For 90 of the time the load is p S E For 70 ofthe time the load is under 5056 o is Worrking Time EER A o Co KK e x3098 a KKK Eu 700 D caps 10096 1 2 3 Thermal Load 1 OPERATION WITH THE SMALL COMPRESSOR 6 4 s EER x 7 4 2 OPERATION WITH THE BIG COMPRESSOR 4 9 s EER s 5 9 3 OPERATION WITH BOTH COMPR
62. on special needs of the client The Demand Limit device can control and manage the available steps of thermal power by means of the receipt of an external analogue signal 0 10V 4 20mA The control logic does not act on the ventilation which is therefore always ensured The greater the input signal to the Demand Limit the less the thermal power available for the system In the extreme condition of pilot signal at 100 the system can also shut off the last power step AS THE DEMAND LIMIT SIGNAL INCREASES THE POWER STEPS ARE GRADUALLY DISA BLED WHEN THE SIGNAL IS AT 100 ALL AVAILABLE RESOURCES ARE DISABLED AVAILABLE POWER KW 0 5 10 V SIGNAL 0 10V DC ACTIVE ENERGY RECOVERY OF EXPELLED AIR ONLY FOR C VERSION The energy contained in the expelled air is recovered by forcing the air flow to pass through the external packaged finned heat exchanger This makes it possible to reduce the electrical energy absorbed by the compressors to increase the overall efficiency of the unit and to extend its operating limits This thermodynamic recovery system does not increase electrical energy consumption for ventilation as instead happens for recovery with crossed or rotating flows Greater use of electricity caused by the enormous pressure drops on the air side in recovery systems with crossed or rotating flows often nullifies the amount of energy recovered and even exceeds it in some cases THERMAL FREE COOLING ONLY FOR C VERSION As soon
63. pling ELECTRICAL PANEL The electrical panel is positioned inside the units with access through a swing door that is opened by a special key The Power Section includes main door lock isolator switch circuit breaker to protect auxiliary circuit compressor power supply remote control switch fan motor thermal protections of internal section and external section compressor circuit breaker Microprocessor control section treated air temperature control daily weekly programmer of temperature setpoint and unit on off compressor overload protection and timer self diagnosis system with immediate display of the error code demand limit clean contacts for remote ON OFF cumulative alarm fan status compressor status summer winter mode control keypad including display to indicate operating status and mode display of the set values and the error codes menu button to display the parameter index alarm button to display the list of alarms unit operation or ventilation only selection button On Off and manual reset button for overload device activation UP and DOWN buttons to increase and decrease the values C VERSION Exhaust fan Plug fan with no screw reversed blades driven by a brushless DC motor with electronic control directly coupled No transmission sizing is required ACCESSORIES copper copper evaporator coils copper copper condenser coils water heating coil modulating three way valve hot gas re
64. r ur wo oe o son s se s o ms jes Carnes oo us ma we ma s o 2 ses a eve ns s 2 ws on ms ain wa e e me o er o ez so ua we s o nr pone sn er ee wer us vua sa ere a uta ze voy ns 60 ns es n sra n mo fr swa n ver er re er o er ee ev o es s oe wa wo oe 32 23 5 Ta ambient air temperature D B W B DB dry bulb WB wet bulb kWf Cooling capacity in kW kWe Compressor power input in kW kWs sensible cooling capacity kW not all cooling yields take into account the heat dissipated by the fan motors O ur eno G i O o LLI 00 o E en 15 O T m o O O LLI oo o H m 16 PACKAGED 82 302 AIR FLOW HIGH AIR HANDLING SECTION FANS OUTLET Air flow vs 1650 2040 2500 2650 3600 3900 5150 5250 Max outside static pressure Pa 160 550 800 450 280 250 300 400 COOLING PERFORMANCE OUTDOOR AIR TEMPERATURE C Ta DB WB 20 8 29 9 75 19 9 30 0 7 06 19 5 30 2 7 53 19 0 30 4 8 37 18 1 30 4 17 4 16 12 29 5 04 6 BH 30 6 o HER CO 24 6 31 1 o oo Oo No o oo o ho 7 18 23 4 31 3 7 66 23 0 31 3 o9 Ol o 22 2 do a 9 27 N u 20114 32 5 6 37 26 1 32 7 N k o po cn u 32 7 7 40 25 2 32 8 7 88 24 8 32 7 P9 N 24 17 24 1 32 6 9 41 23 5 26 19 33 8 6 49 25 9 33
65. solenoid valve disposable cylinder water drainage solenoid valve distribution nozzle electronic control card with functions of verification of water level verification of conductivity anti foam manual override of water drainage To ensure the utmost hygiene the cylinder is automatically drained after a certain period of inactivity The device includes an automatically activated anti freeze device A supply probe is used to monitor the humidity level It is installed and wired on board the machine The accessory is installed inside the unit and is connected to the electrical panel of the machine COMBINATIONS ELECTRODE BOILER STEAM HUMIDIFIER see LS wo Bak o o A This operation involves variation of the main electrical data of the machine A This accessory requires the presence of a water circuit and drain on board the machine Provided by the customer HWS WATER TO WASTE EVAPORATING WET DECK HUMIDIFIER This option is recommended when quick efficient humidification of the served room is required Humidification of the air mixture occurs by passing the air flow through a honeycomb package that is kept humid at all times by a series of nozzles that inject water in small drops The reserve of water for treatment is taken directly from the water mains During operation the pure water vapour is mixed with the air currents The remaining part enriched with mineral salts is collected in the tub and eliminated The constant exc
66. sories SIE s 102 122 162 182 222 262 302 PRESSURE DROP 2 rows hot water coil Pa 23 28 32 38 34 47 36 46 Hot gas re heating coil Pa 10 15 15 20 10 15 10 20 Gas re heating module from 54 KW RH 70o e 7 se EE gt GHO2 Gas re heating module trom72kW_____________ Pat 60 70 60 70 GH03 Gas re heating module from96kW__________ Pa IGHOS Gas re heating module from 150kW____________ Pa F7 High efficiency F7 air filter D Bei 90 100 95 100 90 95 95 100 IFES High efficiency H10 electrostatic air filter Pa 15 20 20 25 15 20 15 25 HWS Water to waste evaporating wet deck humidifier Pal 10 15 15 20 10 15 10 20 The values shown are to be considered approximate for units operating power in normal use with standard air flow rate 1 Pressure drops with filters with average dirtiness PACKAGED 82 302 AIR FLOW STANDARD AIR HANDLING SECTION FANS OUTLET Air flow Vs 1500 1700 2220 2500 3060 3610 4440 5000 Max outside static pressure Pa 280 600 450 520 450 370 460 510 COOLING PERFORMANCE T OUTDOOR AIR TEMPERATURE C a DB WB kWe kWs kWe kWs kWe kWs kWe kWs kWe kWs kWe kWs 22 16 6 24 22 7 30 9 7 04 22 1 30 9 7 36 31 0 7 84 21 4 31 2 865 20 7 31 5 9 30 20
67. such as asynchronous motors By re phasing it is possible to reduce the intensity of the line current by reducing a part of the i power of the mains reactive power This leads to an economic A P benefit which the energy provider grants to the final user The i component makes it possible to bring the cosfi power factor to values which on average are greater than 0 9 MOB SERIAL PORT RS485 WITH MODBUS PROTOCOL It allows serial connection of supervision systems using ModBus as the communication protocol It allows access to the complete list of operating variables controls and alarms LON SERIAL PORT RS485 WITH LONWORK PROTOCOL It allows serial connection of supervision systems using LonWork as the communication protocol It allows access to a list of operating variables control and alarms compliant with the Echelon standard DH D RCMRX REMOTE CONTROL WITH REMOTE MICROPROCESSOR CONTROL Device which allows complete control of the machine from a remote location It is easily wall mounted and has the same appearance and functions as the user interface on board the unit user friendly software To be connected during commissioning of the machine at a maximum distance of 100 m 164 7 ROOF TOP CONNECTION 2x0 35 mm POWER UPPLY MAX 100m 230 1 50 SI separately supplied accessories 31 PACKAGED 82 302 CMS CLIVET MANAGEMENT SYSTEM CMS Clivet Management System
68. t in machine performance has led to collaboration with specialized European laboratories for the development of more efficient axial fans The result of this research has made it possible to develop an innovative winglet type profile at the end of the blade The adoption of the new profiles has made it possible to obtain substantial results in noise limitation with an average reduction of 6 dB A and energy savings with a reduction in consumption of 10 TRADITIONAL FAN FAN WITH WINGLETS 3000 BRM 12200 16000 20004 24900 AIR FILTERING Standard units are standard equipped with a suitable filtering section composed of pleated filters class G4 with an ample surface They are easily accessible for periodic maintenance OUTSIDE TEMPERATURE PROBE The measurement of the temperature of outside air is an uM M S essential parameter of heat adjustment It takes place via a probe located in a special compartment that connects the external environment and the return duct always in negative pressure Clivet has chosen this solution to ensure correct measurement of temperature since the probe is constantly in contact with a minimum flow of air On request the temperature probe can be integrated with the optional humidity probe o cn o e LLI Es H m INTAKE DUCT R FRESH AIR OUTSIDE TEMPERATURE PROBE PACKAGED 82 302 ELECTRONIC EXPANSION VALVE The electronic expansion valve is an
69. ters CERTIFIED QUALITY SYSTEM UNI EN ISO 9001 2008 PACKAGED 82 302 GENERAL DESCRIPTION The CSRT XHE autonomous roof top air conditioners are high VERSATILE POSITIONING ON FLAT ROOF ON efficiency air air cooling only units with completely automatic PLATFORM ON GROUND operation Based on user settings the unit provides complete air treatment through ventilation filtering cooling complete or partial addition of fresh air possibility to control humidity These machines Y 4 are extremely compact and resistant to atmospheric agents suitable 1 for outdoor installation on a flat roof on a platform or on the ground pe D The distribution of treated air to be handled by the client takes place via supply and return ducts and suitable distribution devices N such as air outlets or nozzles They are therefore perfect for air conditioning of medium volume rooms with average traffic such as i commercial surfaces offices small production areas a VERSATILITY OF USE The wide range of models and the possibility to choose the APPLICATION EXAMPLES constructive configurations make it possible to select the product that is best suited to the needs of each installation and to integrate the unit into various architectonic contexts The selection of accessories completes the possibility to customize the product according to the needs of the client EXTREME COMPACTNESS The original layout of t
70. tion uses special fans driven by brushless electric motors with complete electronic control and very high efficiency W o e Input povve EcoBreeze Ben o ES 9 E is o Co Traditional fans EcoBreeze 1500 2000 2500 3000 3500 Air Performance l s 4000 4500 5000 29 PACKAGED 82 302 AMRX RUBBER ANTIVIBRATION MOUNTS The rubber anti vibration devices are fastened in housings on the longitudinal members They reduce the vibrations caused by the machine reducing the noises transmitted by the support structures These elastic bodies soften axial and tangential stresses Their mechanical and physical characteristics remain nearly unchanged over time thanks to the highly resistant material they are made of As an alternative to the rubber anti vibration devices it is possible to use neoprene rubberized strips on the longitudinal support members A separately supplied accessorieS DESM SMOKE DETECTOR This option allows detection of smoke in the room by analyzing the return air The Tyndal effect increased sensitivity smoke detector is perfect for ventilation ducts since it is capable of detecting rarefied smoke in high speed air flows Smoke detection occurs using a photo optical system with a labyrinth chamber The alarm signal is processed by an on board micro processor which verifies the
71. tive electrostatic system Solid or liquid particles contained in the air flow are trapped by and electrical field The air flow through the filter is affected in two main phases release of an electrical charge to the particles ionization and capture of the particles by electrostatic deposit captivation On a periodic basis the filters must be washed to remove the captured particles The filters are capable of trapping fine dusts some types of viruses and micro organisms anti bacterial action with very modest pressure drops The range of use normally includes fine powders that measure less than 1 um Typical pollutants are cigarette smoke 0 5 0 3 um oily vapours 1 0 2 um PM10 particles lt 10 um PM2 5 particles lt 2 5um PM1 particles lt 1um etc Dirtiness of the electric filter is signalled by a sensor that makes it possible to schedule periodic maintenance which can be easily performed by washing in jJ water with a special non aggressive detergent for aluminium The greater initial cost as compared to a traditional pocket filter is recovered quickly since the electrostatic filters last for the entire life of the machine whereas pocket filters require periodic replacement n 7m FLOW OF CONTAMINATED AIR IONIZATION CAPTIVATION This option reduces the available static pressure air side A This operation involves variation of the main electrical data of the machine PACKAGED 82 302 C
72. wich panels in the air treatment section with dual walls in steel sheet metal with polyurethane insulation 40 kg m3 thickness of outer sheet metal 6 10 mm galvanized and painted using polyester powders colour RAL 9001 polyurethane thickness with thermal conductivity coefficient 0 022W mK thi ckness of internal sheet metal 5 10 mm hot galvanized The panel is also provided with a PVC profile for thermal insulation and a EPDM rubber gasket that ensures the hermetic seal All panelling can easily be removed to allow complete accessibility to internal components INTERNAL EXCHANGER direct expansion finned exchanger made from copper pipes in staggered rows and mechanically expanded to the fin collars The fins are made from alumi nium with a corrugated surface and adequately distanced to ensure the maxi mum heat exchange efficiency EXTERNAL EXCHANGER direct expansion finned exchanger made from copper pipes in staggered rows and mechanically expanded to the fin collars The fins are made from alumi nium with a corrugated surface and adequately distanced to ensure the maxi mum heat exchange efficiency FAN Internal section Plug fans without scroll with reverse blades driven by electronically controlled brushless dc motors with direct coupling No transmission sizing is needed External section Helical fans with sickle shaped blades with Winglets at the end coupled directly to a three phase electric external rotor motor with ther
Download Pdf Manuals
Related Search