Total heat recovery multi-purpose units LEP Indoor monobloc water-water unit LEP 50-40 kw Maximum efficiency with total recovery and dissipation in water. Total heat recovery multi-purpose unit Multi-purpose unit - -pipe system Multi-purpose unit - 4-pipe system Scroll compressor R-40A R-40A refrigerant Cooling / Heating LEP units are actually multi-purpose, they totally recover the condensation heat and they are characterized by the simultaneous production of cold and hot water. Available for two-pipe systems with the request of DHW production or in four-pipe systems, they are conceived for averagehigh power applications (multi residential or commercial unit) and they guarantee a high thermodynamic efficiency and a wide configurability both in terms of accessories and in terms of refrigeration cycle. LEP series is characterized by a reduced size, high thermodynamic cycle COP, no external noise, reduced cooling load and it is composed of 4 models with refrigeration capacity ranging from 50 to 40 kw both for the standard version and the silenced one. Multi-purpose LEP machines have six water connections linked to three different hydraulic circuits of which a dissipation one (hot or cold) opposed to the consumption. The users differ as for two-pipe system in which there is a hot/cold circuit and just one hot circuit for the production of DHW while in four-pipe systems there is one hot circuit and a cold one. There is the option to obtain an external sound-proof hydraulic module with circulation pumps for dissipation circuits, users and domestic hot water. PLUS Maximum energy efficiency Total condensation heat recovery Electronic expansion valve Up to 4 compressors Remote connectivity to the most common protocols. Compact dimensions Low-noise level thanks to the paneled structure. LEP is suitable to the air-conditioning of -pipe systems with production of DHW or in 4-pipe systems. In both, the total recovery of the heat ensures remarkable energy savings. 30 galletti.com VM0003-C
LEP 50-40 kw OPERATION MODE LEP-M: chiller mode In the Chiller mode the unit cools water to air condition the interior on the user side, dissipating the condensation heat by means of water that is cooled in the dissipation exchanger. LEP-M: chiller + DHW In the Chiller + DHW mode the unit can produce chilled water with the simultaneous production of high-temperature hot water for sanitary use, thanks to total heat recovery. LEP-M: DHW mode In the high-temperature sanitary hot water (DHW) mode the unit heats water in the condenser, dedicated to DHW as needed, dissipating the evaporative cooling capacity by means of water that is heated in the exchanger on the dissipation side. LEP-M: heat pump mode LEP-P: 4-pipe systems In the heat pump mode the unit heats the water in the condenser to warm the interior on the user side, dissipating the evaporative cooling capacity by means of water that is heated in the dissipation exchanger. CONFIGURATION The models are completely configurable by selecting the version and the options. To the right is shown an example of configuration. AVAILABLE VERSIONS -pipe system versions LEP..MS Standard execution LEP-ML Low noise execution CONFIGURATION OPTIONS The four-pipe system has a distribution system that offers both hot water (with respective return lines) and chilled water (with respective return lines). The LEP-P unit has a circuit used for the production of hot water and another one used for the production of cold water. - POWER SUPPLY 0 400/3/50 + N 400/3/50 + N + Circuit breakers - CONTROL MICROPROCESSOR AND THERMAL EXPANSION VALVE B Programmable (LCD x display) + electronic expansion valve 3 AIR FLOW MODULATION SOURCE SIDE 0 Absent P Condensation control with -0V modulated output signal 4 AIR FLOW MODULATION USER SIDE 0 Absent D Air flow modulation with output signal in ΔT logic = cost T Air flow modulation with output signal in T logic = cost 5 - REMOTE COMMUNICATION 0 Absent RS45 Serial board (Modbus or Carel protocol) Lonworks serial board 3 GSM modem kit 4 Ethernet card (SNMP or BACNET protocol) + clock card 5 Ethernet card + clock card + supervision software - VIBRATION ISOLATION 0 Absent G Rubber vibration dampers at the base of the unit M Spring vibration dampers at the base of the unit - PACKING 0 Standard Wooden crate Wooden case Version Fields 3 4 5 9 LEP4ML B P 0 G 0 0 B To verify the compatibility of the options, use the selection software or the price list. 4-pipe system versions LEP..PS Standard execution LEP-PL Low noise execution - REMOTE CONTROL 0 Absent 3 Remote display for programmable microprocessor 9 INSULATED EXTERNAL HYDRAULIC MODULE SEPARATED FROM THE MAIN UNIT 0 Hydraulic module not present A LP user pump + LP dissipation + LP recovery B LP user pump + LP modulating dissipation + LP recovery C LP user pump + HP dissipation + LP recovery D LP user pump + HP modulating dissipation + LP recovery E HP user pump + LP dissipation + LP recovery F HP user pump + LP modulating dissipation + LP recovery G HP user pump + HP dissipation + LP recovery H HP user pump + HP modulating dissipation + LP recovery I LP user pump + LP dissipation + HP recovery J LP user pump + LP modulating dissipation + HP recovery K LP user pump + HP dissipation + HP recovery L LP user pump + HP modulating dissipation + HP recovery M HP user pump + LP dissipation + HP recovery N HP user pump + LP modulating dissipation + LP recovery P HP user pump + HP dissipation + LP recovery Q HP user pump + HP modulating dissipation + LP recovery Total heat recovery multi-purpose units - LEP ACCESSORIES A Power factor correction capacitors B Soft-starter kit C Service kit (kit of sensors for quick diagnosis) D ON/OFF status of the compressors E Outdoor temperature probe for setpoint compensation F Pressure gauges G Six Victaulic couplings for quick water IN-OUT connection H Regulating filter kit (solenoid and tap on the liquid line) I 4-way flow reverse valve on user side in hydraulic module VM0003-C galletti.com 3
Total heat recovery multi-purpose units LEP Rated technical data of models for -pipe systems + DHW LEP M 4 5 9 Cooling mode () Cooling capacity kw 4, 5,3 4,9 3,4 4, 94,0 Power input kw 0,5 3,5 4,,0,4, EER 4,53 4, 4,4 4,3 4,0 4,45 ESEER,04 5,,,0,5,5 User side water flow l/h 9 94 5 404 User side water pressure drop kpa 33 44 45 43 34 4 Source side water flow l/h 999 54 0 945 Source side water pressure drop kpa 44 4 4 5 Cooling mode + DHW () Cooling capacity kw 4,5 50, 5, 5, 5,5 3,9 DHW heating capacity kw 54,5 5, 4,5 5, 9, 0 Power input kw, 5,9, 0,, 5,4 Total COP,,3,54,45,,5 User side water flow rate l/h 333 99 309 444 User side water pressure drops kpa 3 3 34 DHW side water flow rate l/h 94 33 44 94 DHW side water pressure drops kpa 4 5 5 5 43 54 Heating mode or DHW (3) Heating capacity kw 54,3 5,4 4, 4, 9, 0 Power input kw 3,0,3,9 0,, 5,9 COP 4, 4,0 4,5 4,0 4,5 4,5 User side water flow rate l/h 93 03 4 4 50 User side water pressure drops kpa 4 5 5 5 43 54 Source side water flow l/h 4 44 540 0 5 390 Source side water pressure drop kpa 4 3 Maximum current absorption A 30 3 40 4 50 Startup current A 5 5 4 03 Startup current with softstarter kit A 3 3 0 0 3 No. of compressors / circuits / / / / / / LEP-MS: Sound power level (4) db(a) 3 3 4 LEP-ML: Sound power level (4) db(a) 9 9 0 Transport / operating weight kg 40 40 450 40 490 50 () Water temperature - user side / C, water temperature - dissipation side 5 / 30 C (45:0) () Water temperature - user side / C, water temperature - recovery side 40 / 45 C (3) Water temperature - user side 40 / 45 C, water temperature - dissipation side 5 / 0 C (45:0) 3 galletti.com VM0003-C
LEP 50-40 kw Rated technical data of models for -pipe systems + DHW LEP M 3 4 44 4 Cooling mode () Cooling capacity kw 4 30 49 49 Power input kw 4,3,3 3,5 33,4 3,0 3,9 EER 4, 4,5 4,59 4,4 4,50 4,53 ESEER,4,43,,09,,4 User side water flow l/h 934 5 59 30 3 User side water pressure drop kpa 3 45 4 4 4 4 Source side water flow l/h 30 95 305 33 34 349 Source side water pressure drop kpa 4 5 5 3 4 Cooling mode + DHW () Cooling capacity kw 0 33 34 49 49 DHW heating capacity kw 30 4 0 9 9 Power input kw 9,5 34,4 39, 39,9 44, 44,4 Total COP,3,,5,,, User side water flow rate l/h 509 993 954 3050 55 53 User side water pressure drops kpa 30 3 3 3 DHW side water flow rate l/h 4 53 94 9 3300 33 DHW side water pressure drops kpa 4 5 54 55 0 0 Heating mode or DHW (3) Heating capacity kw 9 4 0 90 9 Power input kw 30,, 40,0 40, 45,3 45, COP 4,9 4,9 4,4 4,0 4,9 4,9 User side water flow rate l/h 30 550 93 9540 34 330 User side water pressure drops kpa 4 5 54 54 59 59 Source side water flow l/h 9 33009 300 39 444 4 Source side water pressure drop kpa 9 3 90 9 Maximum current absorption A 9 9 9 0 00 Startup current A 5 44 9 9 9 Startup current with softstarter kit A 0 4 40 33 5 No. of compressors / circuits / / / 4/ / 4/ LEP-MS: Sound power level (4) db(a) 0 0 LEP-ML: Sound power level (4) db(a) 3 3 3 Transport / operating weight kg 90 00 0 00 30 050 Total heat recovery multi-purpose units - LEP () Water temperature - user side / C, water temperature - dissipation side 5 / 30 C (45:0) () Water temperature - user side / C, water temperature - recovery side 40 / 45 C (3) Water temperature - user side 40 / 45 C, water temperature - dissipation side 5 / 0 C (45:0) VM0003-C galletti.com 33
Total heat recovery multi-purpose units LEP Rated technical data of models for -pipe systems + DHW LEP M 4 04 4 43 44 Cooling mode () Cooling capacity kw 99 93 09 5 Power input kw 4,9 4, 45, 4,4 54,5 54,4 EER 4,3 4, 4,3 4, 4,0 4, ESEER,9,33,4,44,3, User side water flow l/h 34 334 90 3933 449 4544 User side water pressure drop kpa 4 40 45 43 4 30 Source side water flow l/h 4 400 43340 40 5305 540 Source side water pressure drop kpa 5 54 3 0 3 3 Cooling mode + DHW () Cooling capacity kw 04 30 3 DHW heating capacity kw 9 3 0 9 30 Power input kw 5,3 49, 54,5 5, 5,3, Total COP,,,9,,9,09 User side water flow rate l/h 3053 9 35 05 395 409 User side water pressure drops kpa 34 3 3 3 4 DHW side water flow rate l/h 390 39 49 449 504 59 DHW side water pressure drops kpa 53 5 5 55 5 3 Heating mode or DHW (3) Heating capacity kw 5 3 5 90 99 Power input kw 5,3 50, 55,9 0,,9, COP 4,30 4,3 4,4 4,30 4,34 4,4 User side water flow rate l/h 39 300 409 4403 500 54 User side water pressure drops kpa 5 50 5 55 5 3 Source side water flow l/h 505 49 53 53 543 0 Source side water pressure drop kpa 90 9 54 Maximum current absorption A 3 4 53 59 Startup current A 3 50 3 3 33 30 Startup current with softstarter kit A 4 5 3 39 No. of compressors / circuits / 4/ 4/ 4/ 3/ 4/ LEP-MS: Sound power level (4) db(a) LEP-ML: Sound power level (4) db(a) 4 Transport / operating weight kg 90 30 0 0 50 40 () Water temperature - user side / C, water temperature - dissipation side 5 / 30 C (45:0) () Water temperature - user side / C, water temperature - recovery side 40 / 45 C (3) Water temperature - user side 40 / 45 C, water temperature - dissipation side 5 / 0 C (45:0) 34 galletti.com VM0003-C
LEP 50-40 kw Rated technical data of models for -pipe systems + DHW LEP M 3 4 34 344 34 44 Cooling mode () Cooling capacity kw 94 9 3 9 390 445 Power input kw 3, 3, 3,3 9,3 5,4 95,0 EER 4, 4, 4,4 4,5 4,5 4, ESEER,34,,5,3,0,45 User side water flow l/h 500 53 55 9 33 User side water pressure drop kpa 3 43 4 4 4 Source side water flow l/h 9 00 490 93 Source side water pressure drop kpa 4 4 5 5 5 5 Cooling mode + DHW () Cooling capacity kw 3 94 3 349 39 DHW heating capacity kw 33 340 3 4 44 50 Power input kw,5,3, 95, 0 Total COP,3,5,3,0,, User side water flow rate l/h 45343 45905 504 550 004 43 User side water pressure drops kpa 9 9 34 34 34 DHW side water flow rate l/h 50 5 5 0 95 5 DHW side water pressure drops kpa 45 4 5 54 53 54 Heating mode or DHW (3) Heating capacity kw 334 339 3 409 444 505 Power input kw,, 9, 9, 05 0 COP 4,30 4,30 4,9 4, 4,5 4,0 User side water flow rate l/h 55 53 50 040 4 4 User side water pressure drops kpa 44 4 55 54 53 54 Source side water flow l/h 500 03 390 944 99445 Source side water pressure drop kpa 9 4 0 3 Maximum current absorption A 4 04 3 Startup current A 40 5 34 43 44 490 Startup current with softstarter kit A 3 90 309 4 9 40 No. of compressors / circuits 3/ 4/ 4/ 4/ 4/ 4/ LEP-MS: Sound power level (4) db(a) 3 3 3 LEP-ML: Sound power level (4) db(a) 9 9 9 Transport / operating weight kg 0 940 040 0 0 30 Total heat recovery multi-purpose units - LEP () Water temperature - user side / C, water temperature - dissipation side 5 / 30 C (45:0) () Water temperature - user side / C, water temperature - recovery side 40 / 45 C (3) Water temperature - user side 40 / 45 C, water temperature - dissipation side 5 / 0 C (45:0) VM0003-C galletti.com
Total heat recovery multi-purpose units LEP Rated technical data of models for 4-pipe systems LEP P 4 5 9 Cooling mode () Cooling capacity kw 4, 5,3 4,9 3,4 4, 94,0 Power input kw 0,5 3,5 4,,0,4, EER 4,53 4, 4,4 4,3 4,0 4,45 ESEER,04 5,,,0,5,5 User side water flow l/h 9 94 5 404 User side water pressure drop kpa 33 44 45 43 34 4 Source side water flow l/h 999 54 0 945 Source side water pressure drop kpa 44 4 4 5 Cooling and heating mode in total heat recovery () Cooling capacity kw 4,5 50, 5, 5, 5,5 3,9 Heating capacity kw 54,5 5, 4,4 5, 9, 0 Power input kw, 5,9,5 0,, 5,4 Total COP,,3,5,4,,5 Cooling side water flow rate l/h 333 99 309 444 Cooling side water pressure drops kpa 3 3 34 Heating side water flow rate l/h 94 33 44 94 Heating side water pressure drops kpa 40 5 43 5 43 53 Heating mode (3) Heating capacity kw 54,3 5,4 4, 4, 9, 0 Power input kw 3,0,3,9 0,, 5,9 COP 4, 4,0 4,5 4,0 4,5 4,5 User side water flow rate l/h 93 03 4 4 50 User side water pressure drops kpa 4 5 5 5 43 54 Source side water flow l/h 4 44 540 0 5 390 Source side water pressure drop kpa 4 3 Maximum current absorption A 30 3 40 4 50 Startup current A 5 5 4 03 Startup current with softstarter kit A 3 3 0 0 3 No. of compressors / circuits / / / / / / LEP-PS: Sound power level (4) db(a) 3 3 4 LEP-PL: Sound power level (4) db(a) 9 9 0 Transport / operating weight kg 40 40 450 40 490 50 () Water temperature - user side / C, water temperature - dissipation side 5 / 30 C (45:0) () Water temperature - user side / C, water temperature - recovery side 40 / 45 C (3) Water temperature - user side 40 / 45 C, water temperature - dissipation side 5 / 0 C (45:0) 3 galletti.com VM0003-C
LEP 50-40 kw Rated technical data of models for 4-pipe systems LEP P 3 4 44 4 Cooling mode () Cooling capacity kw 4 30 49 49 Power input kw 4,3,3 3,5 33,4 3,0 3,9 EER 4, 4,5 4,59 4,4 4,50 4,53 ESEER,4,43,,09,,4 User side water flow l/h 934 5 59 30 3 User side water pressure drop kpa 3 45 4 4 4 4 Source side water flow l/h 30 95 305 33 34 349 Source side water pressure drop kpa 4 5 5 3 4 Cooling and heating mode in total heat recovery () Cooling capacity kw 0 33 34 49 49 Heating capacity kw 30 4 0 9 9 Power input kw 9,5 34,4 39, 39,9 44, 44,4 Total COP,3,,5,,, Cooling side water flow rate l/h 509 993 954 3050 55 53 Cooling side water pressure drops kpa 30 3 3 3 Heating side water flow rate l/h 4 53 94 9 3300 33 Heating side water pressure drops kpa 43 5 5 53 5 5 Heating mode (3) Heating capacity kw 9 4 0 90 9 Power input kw 30,, 40,0 40, 45,3 45, COP 4,9 4,9 4,4 4,0 4,9 4,9 User side water flow rate l/h 30 550 93 9540 34 330 User side water pressure drops kpa 4 5 54 54 59 59 Source side water flow l/h 9 33009 300 39 444 4 Source side water pressure drop kpa 9 3 90 9 Maximum current absorption A 9 9 9 0 00 Startup current A 5 44 9 9 9 Startup current with softstarter kit A 0 4 40 33 5 No. of compressors / circuits / / / 4/ / 4/ LEP-PS: Sound power level (4) db(a) 0 0 LEP-PL: Sound power level (4) db(a) 3 3 3 Transport / operating weight kg 90 00 0 00 30 050 Total heat recovery multi-purpose units - LEP () Water temperature - user side / C, water temperature - dissipation side 5 / 30 C (45:0) () Water temperature - user side / C, water temperature - recovery side 40 / 45 C (3) Water temperature - user side 40 / 45 C, water temperature - dissipation side 5 / 0 C (45:0) VM0003-C galletti.com 3
Total heat recovery multi-purpose units LEP Rated technical data of models for 4-pipe systems LEP P 4 04 4 43 44 Cooling mode () Cooling capacity kw 99 93 09 5 Power input kw 4,9 4, 45, 4,4 54,5 54,4 EER 4,3 4, 4,3 4, 4,0 4, ESEER,9,33,4,44,3, User side water flow l/h 34 334 90 3933 449 4544 User side water pressure drop kpa 4 40 45 43 4 30 Source side water flow l/h 4 400 43340 40 5305 540 Source side water pressure drop kpa 5 54 3 0 3 3 Cooling and heating mode in total heat recovery () Cooling capacity kw 04 30 3 Heating capacity kw 9 3 0 9 30 Power input kw 5,3 49, 54,5 5, 5,3, Total COP,,,9,,9,09 Cooling side water flow rate l/h 3053 9 35 05 395 409 Cooling side water pressure drops kpa 34 3 3 3 4 Heating side water flow rate l/h 390 39 49 449 504 59 Heating side water pressure drops kpa 5 49 5 54 5 34 Heating mode (3) Heating capacity kw 5 3 5 90 99 Power input kw 5,3 50, 55,9 0,,9, COP 4,30 4,3 4,4 4,30 4,34 4,4 User side water flow rate l/h 39 300 409 4403 500 54 User side water pressure drops kpa 5 50 5 55 5 3 Source side water flow l/h 505 49 53 53 543 0 Source side water pressure drop kpa 90 9 54 Maximum current absorption A 3 4 53 59 Startup current A 3 50 3 3 33 30 Startup current with softstarter kit A 4 5 3 39 No. of compressors / circuits / 4/ 4/ 4/ 3/ 4/ LEP-PS: Sound power level (4) db(a) LEP-PL: Sound power level (4) db(a) 4 Transport / operating weight kg 90 30 0 0 50 40 () Water temperature - user side / C, water temperature - dissipation side 5 / 30 C (45:0) () Water temperature - user side / C, water temperature - recovery side 40 / 45 C (3) Water temperature - user side 40 / 45 C, water temperature - dissipation side 5 / 0 C (45:0) 3 galletti.com VM0003-C
LEP 50-40 kw Rated technical data of models for 4-pipe systems LEP P 3 4 34 344 34 44 Cooling mode () Cooling capacity kw 94 9 3 9 390 445 Power input kw 3, 3, 3,3 9,3 5,4 95,0 EER 4, 4, 4,4 4,5 4,5 4, ESEER,34,,5,3,0,45 User side water flow l/h 500 53 55 9 33 User side water pressure drop kpa 3 43 4 4 4 Source side water flow l/h 9 00 490 93 Source side water pressure drop kpa 4 4 5 5 5 5 Cooling and heating mode in total heat recovery () Cooling capacity kw 3 94 3 349 39 Heating capacity kw 33 340 3 4 44 50 Power input kw,5,3, 95, 0 Total COP,3,5,3,0,, Cooling side water flow rate l/h 45343 45905 504 550 004 43 Cooling side water pressure drops kpa 9 9 34 34 34 Heating side water flow rate l/h 50 5 5 0 95 5 Heating side water pressure drops kpa 4 44 53 5 5 5 Heating mode (3) Heating capacity kw 334 339 3 409 444 505 Power input kw,, 9, 9, 05 0 COP 4,30 4,30 4,9 4, 4,5 4,0 User side water flow rate l/h 55 53 50 040 4 4 User side water pressure drops kpa 44 4 55 54 53 54 Source side water flow l/h 500 03 390 944 99445 Source side water pressure drop kpa 9 4 0 3 Maximum current absorption A 4 04 3 Startup current A 40 5 34 43 44 490 Startup current with softstarter kit A 3 90 309 4 9 40 No. of compressors / circuits 3/ 4/ 4/ 4/ 4/ 4/ LEP-PS: Sound power level (4) db(a) 3 3 3 LEP-PL: Sound power level (4) db(a) 9 9 9 Transport / operating weight kg 0 940 040 0 0 30 Total heat recovery multi-purpose units - LEP () Water temperature - user side / C, water temperature - dissipation side 5 / 30 C (45:0) () Water temperature - user side / C, water temperature - recovery side 40 / 45 C (3) Water temperature - user side 40 / 45 C, water temperature - dissipation side 5 / 0 C (45:0) VM0003-C galletti.com 39
3 5 Total heat recovery multi-purpose units LEP Dimensional drawings 594 LEP 04-09 3 5 4 50 (0) 49 39 3 - LATO DISSIPAZIONE - LATO UTILIZZATORE 39 3 594 m 3 - LATO UTENZA SANITARIA 4 - INGRESSO ALIMENTAZIONE ELETTRICA 5 - INTERFACCIA UTENTE 4 40 4 50 3 LEP - (0) (0) 5 5 53 53 49 39 39 49 39 39 594 594 4 35 4 35 3 3 LEGEND User side - LATO - inlet DISSIPAZIONE (Victaulic ½ ) - LATO DISSIPAZIONE User side - outlet (Victaulic ½ ) - LATO UTILLIZZATORE - 3LATO UTILLIZZATORE DHW side - inlet (Victaulic ½ ) 3 - LATO UTENZA SANITARIA 3-4LATO UTENZA DHW SANITARIA side - outlet (Victaulic ½ ) 4 - INGRESSO ALIMENTAZIONE ELETTRICA 4-5INGRESSO ALIMENTAZIONE Dissipation side ELETTRICA - inlet (Victaulic ½ ) Dissipation 5 - INTERFACCIA side - outlet UTENTE 5 - INTERFACCIA UTENTE (Victaulic ½ ) User interface Power supply input Model Version LEP M-P S-L LEP 3 M-P S-L LEP 4 M-P S-L LEP M-P S-L LEP M-P S-L m m 30 galletti.com VM0003-C
LEP 50-40 kw Dimensional drawings LEP 44-4 33 5 0 33 54 30 30 4 3 00 9 9 00 9 39 93 39 00 9 9 00 54 Total heat recovery multi-purpose units - LEP m LEGEND User side - inlet (Victaulic ½ ) User side - outlet (Victaulic ½ ) 3 DHW side - inlet (Victaulic ½ ) 4 DHW side - outlet (Victaulic ½ ) 5 Dissipation side - inlet (Victaulic ½ ) Dissipation side - outlet (Victaulic ½ ) User interface Fastening points 9 Power supply input Model Version LEP 44 M-P S-L LEP 4 M-P S-L LEP 4 M-P S-L VM0003-C galletti.com 3
Total heat recovery multi-purpose units LEP Dimensional drawings LEP 04-4 5 330 (0) 330 4 30 30 4 39 93 39 0 5 5 0 55 4 39 93 39 3 55 0 5 5 0 9 IA IONE ELETTRICA TO m LEGEND User side - inlet (Victaulic ½ ) User side - outlet (Victaulic ½ ) 3 DHW side - inlet (Victaulic ½ ) 4 DHW side - outlet (Victaulic ½ ) 5 Dissipation side - inlet (Victaulic ½ ) Dissipation side - outlet (Victaulic ½ ) User interface Fastening points 9 Power supply input Model Version LEP 04 M-P S-L LEP 4 M-P S-L 3 galletti.com VM0003-C
LEP 50-40 kw Dimensional drawings LEP 43-44 5 330 4 5 4 5 4 330 30 30 3 0 5 5 0 9 55 0 5 5 0 55 Total heat recovery multi-purpose units - LEP TRICA m LEGEND User side - inlet (Victaulic ½ ) User side - outlet (Victaulic ½ ) 3 DHW side - inlet (Victaulic ½ ) 4 DHW side - outlet (Victaulic ½ ) 5 Dissipation side - inlet (Victaulic ½ ) Dissipation side - outlet (Victaulic ½ ) User interface Fastening points 9 Power supply input Model Version LEP 43 M-P S-L LEP 44 M-P S-L LEP 3 M-P S-L LEP 4 M-P S-L LEP 34 M-P S-L LEP 344 M-P S-L LEP 34 M-P S-L LEP 44 M-P S-L VM0003-C galletti.com 33