Climaveneta Technical Bulletin _201211_EN 060T - 120T 160 319 kw Reversible unit, air source for outdoor installation (unit with shell and tubes exchanger) (The photo of the unit is purely indicative and may vary depending on the model) Refrigerant gas R10A Integrated hydronic module Shell and tubes exchanger Class A efficiency LEED RELEVANT product Electronic expansion valve supplied standard Please fill out the requested information Please fill out the requested information
SUMMARY 1. : LEED RELEVANT PRODUCT pg. 3 2. DESCRIPTION OF THE UNIT 5 3. MODELS AND VERSIONS 5 3.1 Compact versions with standard efficiency 5 3.2 High efficiency versions 5. HOW TO SELECT THE 6 5. GENERAL CHARACTERISTICS 7 6. FUNCTIONS 8 7. VERSIONS 8 11. OPERATING LIMITS 19 12. ETHYLENE GLYCOL MIXTURE 22 13. FOULING FACTORS 22 1. HYDRAULIC DATA 23 15. HYDRONIC GROUP (Optional) 25 16. ELECTRICAL DATA 36 17. FULL LOAD SOUND LEVEL 38 18. DIMENSIONAL DRAWINGS 8. TECHNICAL SPECIFICATIONS 9 9. ACCESSORIES 11 10. TECHNICAL DATA 10.1 /CA General technical data 13 10.2 /K General technical data 1 10.3 /LN-CA General technical data 15 10. /LN-K General technical data 16 10. /SL-CA General technical data 17 10.5 /SL-K General technical data 18 Please fill out the requested information Please fill out the requested information This company participates in the Eurovent Certifi cation Programme. The products are listed in the Directory of certifi ed products. Eurovent certifi cation applied to units with cooling capacity up to 1500 kw for air cooled water chillers and water cooled liquid chillers. Company quality system certified to UNI EN ISO 9001 and environmental certification UNI EN ISO 1001 Waiver of liability This publication represents a preliminary document, and is the sole property of Climaveneta. Any reproduction or disclosure of such is strictly prohibited without the written authorisation of Climaveneta. This document has been prepared with maximum care and attention paid to the content shown. Nonetheless, Climaveneta waives all liability deriving from the use of such document. Read this document carefully. All work must be performed, components selected and materials used professionally and in complete accordance with the legislation in force in material in the country concerned, and considering the operating conditions and intended uses of the system, by qualified personnel. The data contained in this publication may be changed without prior notice. 2
1. : LEED RELEVANT PRODUCT The LEED protocol is the most known protocol of sustainability to define and measure green buildings all around the world. Based on existing and proven technology, it evaluates environmental performance from a whole building perspective over a building s life cycle, providing a definitive standard for what constitutes a green building in design, construction and operation. The LEED rating systems are designed for rating new and existing commercial, institutional and residential buildings. They are based on accepted energy and environmental principle and strike a balance between known, established practices and emerging concepts. Each rating system is organized into 7 environmental categories: Sustainable Sites, Water Efficiency, Energy and Atmosphere, Materials and Resources, Indoor Environmental Quality, Innovation in Design and Regional Bonus. units are compliant with the performance standard contained in the protocol of sustainability LEED. In detail, units contribute to the following points: - prerequisite 2 in ENERGY & ATMOSPHERE topic units, upon check of the commercial office, are ASHRAE 90.1 2007 compliant. The Minimum Efficiency Requirements detailed in the table 6.8.1A/B of the American standard are guaranteed. Equipment Type Air cooled, with condenser, electrically operated Air cooled, without condenser, electrically operated Water cooled, electrically operated, positive displacement (reciprocating) Water cooled, electrically operated, positive displacement (rotary screw and scroll) Water cooled, electrically operated, centrifugal Air-cooled absorption single effect Water-cooled absorption single effect Absorption double effect, indirect-fired Absorption double effect, direct-fired Size Category Subcategory or Rating Condition All capacities All capacities All capacities <150 tons 150 tons and <300 tons 300 tons <150 tons 150 tons and <300 tons 300 tons Minimum Efficiency a 2.80 COP 3.05 IPLV 3.10 COP 3.5 IPLV.20 COP 5.05 IPLV.5 COP 5.20 IPLV.90 COP 5.60 IPLV 5.50 COP 6.15 IPLV 5.00 COP 5.25 IPLV 5.55 COP 5.90 IPLV 6.10 COP 6.0 IPLV All capacities 0.60 COP All capacities 0.70 COP All capacities All capacities 1.00 COP 1.05 IPLV 1.00 COP 1.00 IPLV Test Procedure b ARI 550/590 ARI 550/590 ARI 550/590 ARI 550/590 ARI 560 a The chiller equipment requirements do not apply for chillers used in low-temperature applications where the design leaving fluid temperature is <0 F. b Section 12 contains a complete specification of the referenced test procedure, including the referenced year version of the test procedure. 3
- prerequisite 3 in ENERGY & ATMOSPHERE topic units use the refrigerant R10A, which is compliant with the GWP limitations set by the protocol. In detail, this refrigerant isn t a (CFC)-based refrigerant as moreover prescribed by the most of the national legislation around the world. Climaveneta is a Green Building Council Italy and actively supports the diffusion of LEED practice all around the world. - credit in ENERGY & ATMOSPHERE topic units have been designed to use the minimum possible quantity of refrigerant. The credit, ENHANCED REFRIGER- ANT MANAGEMENT, permits to gain 2 points if LCGWP index calculated for the adopted air-conditioning units is equal or lower to 13. units respect this limit. Other points can be gained as indirect consequence of an high efficient air conditioning system choice. In particular: - credit 1 in ENERGY & ATMOSPHERE topic units, especially the CA and CA-E versions, contribute to OPTIMIZE ENERGY PERFORMANCE of the building. As known, air-conditioning and ventilation systems are responsible for approximately a third of the total energy consumption in a modern building. The proper size and design of each component involved in comfort creation determine a relevant energy saving, prize by LEED protocol with up to 19 points. The amount of points assigned to the building depend to the percentage of energy saving calculated compared with the baseline building performance rating: 1 point for an improvement in energy performance of 12% and 19 points for energy improvement higher than 8%. The baseline building performance are defined according to Appendix G of ASHRAE standard 90.1 2007. - credit 5 in ENERGY & ATMOSPHERE topic this point prize the building design that provides an ongoing accountability of building energy consumption over time. The MEASUREMENT AND VERIFICATION credit gives up to 3 points if a measurement and verification plan has been developed and implemented. DEMETRA, the Climaveneta software for the units energy monitoring, can help in this intent. There are already several buildings LEED certified also tank to Climaveneta HVAC systems. For more information, browse the project reference list at www.climaveneta.com GLOSSARY GWP: Global Warming PotentialIndex that express the contribution given by a greenhouse effect gas emission into the atmosphere. All the molecules have a potential defined in relation to the CO2 molecule, which has a potential of 1 and acts as a reference. CFC: ChloroFluoroCarbon HCFC: IdroCloroFluoroCarburi LCGWP: Life Cycle Global Warming Potential Index that define a threshold for the global warming potential estimated for the product life-cycle. It is a function of the following variables: - refrigerant GWP - refrigerant leakage rate and end-of-life refrigerant loss - estimated equipment life - refrigerant charge. - credit 1 in INNOVATION IN DESIGN topic 5 more points can be gained by design teams and projects that achieve exceptional performance above the requirements set by the LEED Green Building Rating System and/or adopt innovative solution not specifically addressed by the LEED Green Building Rating System. All units features the possibility to be integrated in Variable Primary Flow systems: this technique of plant design could be classified as innovative and therefore contribute to achieve some points in this topic.
2. DESCRIPTION OF THE UNIT 3. MODELS AND VERSIONS /K: OUTDOOR REVERSIBLE UNIT, COMPACT VER- SION Outdoor reversible unit for the production of chilled/hot water with hermetic rotary Scroll compressors, ozone-friendly refrigerant R10A, axial-flow fans, copper tubes aluminum fins air coils, shell and tubes heat exchanger, and thermostatic or electronic expansion valve, according to the model. External panels in pre-clad sheet steel and base in galvanised steel with paint finish. The range is composed by units equipped with four compressors in tandem configuration on two independent refrigerant circuits. 3.1 Compact versions with standard efficiency /K: outdoor reversible unit with standard efficiency, compact version /LN-K: outdoor reversible unit with standard efficiency, compact and low noise version /SL-K: outdoor reversible unit with standard efficiency, compact and Super low noise version /D /K: outdoor reversible unit with standard efficiency, compact version, including desuperheater for partial recovery of the heat of condensation /D /LN-K: outdoor reversible unit with standard efficiency, compact and low noise version, including desuperheater for partial recovery of the heat of condensation /D /SL-K: outdoor reversible unit with standard efficiency, compact and Super low noise version, including desuperheater for partial recovery of the heat of condensation /CA: NEW HIGH EFFICIENCY LIQUID CHILLERS WITH ENERGY CLASS A When energy efficiency is a fundamental prerequisite, the Climaveneta NX/CA represents the best solution, ensuring the highest efficiency in its category, with Eurovent class A EER values, calculated based on the restrictive European standard EN1511. NX/CA also features three different versions as regards sound emissions. In addition to the standard version, two further versions can be selected, LN-CA and SL-CA, which reduce noise by up to 10dB(A) while maintaining the same energy efficiency class. Indeed the main new feature that distinguishes the Climaveneta NX/CA units from other products available on the market is the availability of a complete selection of versions with different sound emissions however without affecting the energy efficiency class, rather maintaining exceptional efficiency, all rated Eurovent class A. 3.2 High efficiency versions /CA: outdoor reversible unit with hight efficiency, compact version /LN-CA: outdoor reversible unit with hight efficiency, compact version and low noise version /SL-CA: outdoor reversible unit with hight efficiency, compact version and Super low noise version /D /CA: outdoor reversible unit with hight efficiency, compact version, including desuperheater for partial recovery of the heat of condensation /D /LN-CA: outdoor reversible unit with hight efficiency, compact version and low noise version, including desuperheater for partial recovery of the heat of condensation /D /SL-CA: outdoor reversible unit with hight efficiency, compact version and Super low noise version, including desuperheater for partial recovery of the heat of condensation 5
. HOW TO SELECT THE NX /D /SL-CA 120T /K Compact standard efficiency version Standard version /K /CA Low noise version (LN) Super low noise version (SL) /LN-K Compared to the standard version - retains the same dimensions - noise reduction of up to 6dB(A) /SL-K Compared to the low noise version (LN-K) - retains the same dimensions (where possible) - further noise reduction of to 6dB(A) compared to the low noise version (LN-K) /CA Class A high efficiency version /LN-CA Compared to the standard version -retains Class A energy efficiency - noise reduction of up to 6dB(A) /SL-CA Compared to the low-noise version (LN) - retains Class A energy efficiency - further noise reduction of to 5dB(A) compared to the low noise version (LN-CA) Size Heat exchanger T - Tube bundle 060..120 - based on the cooling capacity Version /K - compact standard efficiency /LN-K - compact std efficiency, low noise /SL-K - compact std efficiency, super low noise Function empty - no function /D - with partial heat recovery /CA - Class A /LN-CA - Class A, low noise /SL-CA - Class A, super low noise Name - liquid chiller 6
5. GENERAL CHARACTERISTICS Refrigerant gas R10A The use of R10A has resulted in units offering better energy efficiency in full respect for the environment (ODP = 0) : LEED RELEVANT product Electronic expansion valve supplied standard The use of the electronic expansion valve generates considerable benefits, especially in cases of variable demand and different external conditions. It has been introduced into these units as a result of accurate design choices concerning the cooling circuit and the optimisation of operation in various different working conditions. The electronic expansion valve comes standard in the high-efficieny CA version, optional for the compact K versios. Class A efficiency The full range is also available with the Class A efficiency rating. NX/CA guaranties within all the noise configurations premium levels of efficiency thanks to the generous sizing of the refrigerant-exchange surface areas and to an accurate control of the fans. Built-in hydronic unit The built-in hydronic unit incorporates all the main water circuit components. All sizes are in fact available in the configuration with one or two high pressure pumps (up to 200 kpa), as well as with storage tank. This solution means the units are ready for installation without having to install any additional circuiting outside of the unit and without increasing the dimensions occupied, thus simplifying both the design and installation of the systems. Extended operating limits The NX units can operate in the most extreme environmental conditions. All sizes and versions can in fact work at full load with outside air temperatures up to +6 C, always ensuring maximum energy performance. Maximum Compactness This new range is available in the new K version, that integrates the maximum compactness with a qualifying unit s efficiency. This allow to achieve a very high flexibility in the design process as well as during the on-site installation operations, offering a premium solution in case of reduced clearances or when retrofitting existing installations. Compliance with the strictest European standards The main new feature that distinguishes the new NX units regards the calculation methods used to define the energy efficiency values. These values are in fact now calculated not only based on the capacity delivered and power consumed by the unit, but also taking into account heat exchanger pressure drop, or the available pressure head if the unit is installed with pumps, as required by European standard EN1511. In this way, energy efficiency is no longer an index for evaluating the unit alone, but rather extends the assessment by considering the unit within the system, consequently taking into account the energy required to pump the refrigerant or heat carrier fluid used in the system. Three sound emission levels The new appliances in fact also have three different sound emission levels. This means the best unit can be identified based on requirements, according to the system where it will be installed and the application. Shell and tubes exchanger The shell and tube exchanger allows to achieve the highest flexibility on the unit s installation, keeping on the hydronic side the pressure drops at the minimum level, thus representing the best choice for all the hydronic applications on the residential, commercial and industrial markets. 7
6. FUNCTIONS Basic model (Unit without heat recovery) 7. VERSIONI K Compact with standard efficiency Key efficiency, compact version. Model with partial heat recovery (D) This version features an additional water/coolant heat exchanger on the gas delivery line, fitted in series with the traditional cooling circuit condenser. This allows to recover the de-superheating heat for the production of medium-to-high temperature water (secondary or recovery circuit). Hot water can be produced in the recovery circuit for domestic hot water and the like both in summer and winter. The heating capacity of this circuit is approximately equal to the power input of the compressor. LN-K - Compact with standard efficiency, low noise Key efficiency, compact and low-noise version. This configuration features special soundproofing for the compressor chamber and pumps (if present) and a reduced fan speed. Fan speed is automatically increased, however, in the event of particularly tough environmental conditions. SL-K - Compact with standard efficiency, super low noise Key efficiency, compact and super low-noise version. This configuration features special soundproofing for the compressor chamber and pumps (if present), reduced fan speed and an oversized condensing section. Fan speed is automatically increased, however, in the event of particularly tough environmental conditions. CA - Class A Class A high-efficiency version according to Eurovent criteria. This configuration features an oversized condensing section. LN-CA - Low noise class A Low-noise and class A high-efficiency version according to Eurovent criteria. This configuration features special soundproofing for the compressor chamber and pumps (if present) and a reduced fan speed. Fan speed is automatically increased, however, in the event of particularly tough environmental conditions. SL-CA - Super low noise class A Super low-noise and class A high-efficiency version according to Eurovent criteria. This configuration features special soundproofing for the compressor chamber and pumps (if present), reduced fan speed and an oversized condensing section. Fan speed is automatically increased, however, in the event of particularly tough environmental conditions. 8
8. SPECIFICATIONS Reversible unit, air source for outdoor installation. Outdoor reversible unit for the production of chilled/hot water with hermetic rotary Scroll compressors, ozone-friendly refrigerant R10A, axial-flow fans, copper tubes aluminum fins air coils, shell and tubes heat exchanger, and thermostatic or electronic expansion valve, according to the model. External panels in pre-clad sheet steel and base in galvanised steel with paint finish. The range is composed by units equipped with four compressors in tandem configuration on two independent refrigerant circuits. Structure Specific structure for outdoor installation, with hot galvanized steel sheet base painted with polyester powder coat, perimeter frame made of aluminum section bars. Fan compartment separate from the compressor compartments. Specific aluminum alloy paneling for outdoor installation, completely weatherproof, easily removable, designed to allow total access to internal components for inspection and maintenance (removal of front and side panels). Condensate collection and disposal system composed by double pan, insulated with closed-cell neoprene lagging and heated by dedicated electrical heaters. Double nozzle for water expelling with a 1 1/ diameter. Ventilation of compressor compartments. Refrigerant circuit Main components of the cooling circuit: - two separated and independent circuits with compressors operating individually in each circuit - dehydrator filter, - refrigerant line sight glass with humidity indicator, - externally equalized thermostatic valve (versions K, LN-K, SL-K), - electronic expansion valve (versions CA, LN-CA, SL-CA) - high pressure safety valve, - high and low pressure safety valve, - liquid receiver and separator, - -way reverse cycle valve - high and low pressure transducers - R10a refrigerant Compressor Hermetic rotary scroll compressor complete with sump heater, electronic thermal protector with centralised manual reset, twopole electric motor. System heat exchanger Direct expansion multi-circuit shell and tube exchanger with asymmetric side coolant flows for maintaining the coolant at the correct speed inside the tubes when passing from the liquid to the gas phase. Steel shell with foamed closed-cell elastomer anti-condensation lining. The shell & tube is manufactured using copper tubes with internal grooves for favoring heat exchange and mechanically expanded onto the tube plates. An electric antifreeze heater prevents the ice from forming inside the exchanger when the unit is not working but connected to the electrical supply. When the unit is working, it is protected by a differential pressure switch mounted on the water side. Heat exchanger featuring two, three or four coolant circuits depending on the model. Power and control electrical panel Power and control electrical panel, built in compliance with EN6020-1/IEC 20-1 standards, complete with: - transformer for the control circuit, - main door interlock disconnect switch, - fuses and contactors for compressors and fans, - cumulative alarm terminals (BCA), - remote ON/OFF terminals - spring terminal blocks for control circuits, - electrical panel for outdoor installation, with two doors and seal gaskets, Unit power supply voltage: 00V~ ±10% - 50 Hz - 3N. Source fan compartment Axial-flow fans with IP5 index of protection, external impeller, pressed metal blades, housed in aerodynamic tubes, complete with accident prevention grill. Six-pole electric motor with integrated thermal protector. Fan compartment divided into two zones to allow independent air flow for each circuit. Differentiated ventilation control with fans on inactive circuit shut down. Condenser managed by continuous control of fan rotation speed. Certification, reference standard Unit compliant with the following directives and amendments: - Machinery Directive 2006/2/EC. - EMC 89/336/EEC + 200/108/EC. - Low Voltage Directive 2006/95/EC. - Pressure Equipment Directive 97/23/EC. Model A1. TÜV Italy - Eurovent certification according to the program LCP/A/P/R Tests Checks performed throughout the entire manufacturing process according to the procedures specified by ISO 9001. Performance or noise emission tests can be conducted by highly qualified technical personnel with the customer present. Performance test involve measuring: - electrical data - water flow-rates - operating temperature - power consumption - capacity delivered - pressure drop on the water-source heat exchanger at both full load (in rated conditions and at the most critical conditions for the condenser) and at part load. During performance testing the main alarm conditions can also be simulated. Noise emission tests verify the unit s sound power levels according to ISO 37. Source heat exchanger Finned coil heat exchanger made from copper tubes and suitably spaced aluminum fins to guarantee maximum heat exchange efficiency. 9
W3000 BASE / W3000SE COMPACT The controller can be chosen as: - W3000 Base: keypad and LED display - W3000SE Compact: the keypad features an easy-to-use interface and a complete LCD display, allowing to consult and intervene on the unit by means of a multi-level menu, with selectable language setting The diagnostics includes a complete alarm management, with the "black-box" and alarm logging functions for enhanced analysis of the unit operation. Compatibility with the remote keyboard managing up to 10 units. Availability of an internal real time clock for operation scheduling (-day profiles with 10 hour belts). Common features: The regulation is based on the exclusive QuickMind algorithm, including self-adaptive control logics, beneficial in low water content systems. As alternatives the proportional- or proportional-integral regulations are also available. For multiple units systems, the regulation of the resources, via optional proprietary devices, can be implemented. Energy metering, for both consumption and capacity, can also be developed. Supervision can be easily developed via proprietary devices or the integration in third party systems by means of the most common protocols as ModBus, Bacnet, Bacnet-over-IP, Echelon LonWorks. The defrost adopts a proprietary self-adaptive logic, which features the monitoring of numerous operational parameters. This allows to reduce the number and duration of the defrost cycles, with a benefit for the overall energy efficiency. 10
9. ACCESSORIES ACCESSORIES DESCRIPTION BENEFIT Condensing coils with epoxycoated fins Condensing coils with Fin Guard Silver treatment Painted air-refrigerant heat exchanger. Air-refrigerant heat exchanger with epoxidic treatment on coils and fins. Recommended for applications in medium level pollution atmospheres. Recommended for marine exposure conditions, with an high level of pollution or other aggressive atmospheres. Soft start Remote phase-sequence control Compressors' on/off signal ModBUS connectivity BACnet connectivity Echelon connectivity HP AND LP GAUGES COMPRESSOR SUCTION VALVE COMPR. DISCHARGE LINE VALVE COND. COIL PROTECTION NET Automatic circuit breakers INPUT REMOTE DEMAND LIM- IT Liquid line solenoid valve Electronic device adopted to manage the inrush current. Relay for controlling the phase-sequence of mains. Auxiliary contacts providing a voltage-free signal Interface module for ModBUS protocols Interface module for BACnet protocols Interface module for Echelon systems High and low pressure gauges. Shut-off solenoid valve on compressor's suction circuit. Shut-off solenoid valve on compressor discharge circuit Coil protecting net Over-current switch on the major electrical loads. Digital input (voltage free) Solenoid valve on the refrigerant circuit inlet Break down of the inrush current as soon as the electrical motor is switch on, lower motor's mechanical wear, favourable sizing for the electrical system. Protects loads against faults due to incorrect connection of the electric line. Allows remote signalling of compressor's activation or remote control of any auxiliary loads. Allows integration with BMS operating with ModBUS protocol Allows integration with BMS operating with BACnet protocol Allows integration with BMS operating with LonWorks procotls Allows immediate reading of the pressure values on both low and high pressure circuits. Simplifies maintenance activities Simplifies maintenance activities. Protects against the intrusion of solid bodies with mediumlarge dimensions. It protects compressors and/or fans from possible current peaks. It permits to limit the unit's power absorption for safety reasons or in temporary situation. It avoids liquid to migrate toward the compressors when they are off REMOTE SIGNAL DOUBLE SP Allows to activate the Energy Saving set-point Enforce Energy Saving policy Rubber anti vibration device Spring anti vibration device Power factor correction BACnet OVER IP connectivity Extra inslutation for low temperature. LT KIT FOR LOW TEMPERA- TURE DP Condensators on the compressors' power inlet line. Interface module for BACnet OVER-IP protocols Increased insulation in 20 mm thick closed-cell expanded polyurethane. Extends the operating limits down to -10 C, applicable on LN versions only Pressostatic control to manage the fan's activation according to the condensing pressure detected on the refrigeration circuit this device is recommended to enlarge the nominal unit's operating conditions The unit's average cos(phi) increases from an average value of 0,87 to a value (average) of 0,92. Allows to interconnect BACnet devices over Internet Protocol within wide-area networks Prevents problems related to condensate. Recommended with leaving water temperature lower than - 8 C Allows unit operation in heating mode in strong winter conditions Increases the global efficiency thanks to a more flexible air flow management through the condensing coils. Improves the quietness in part load operating conditions. Extends the unit's operating range allowing it to work safetely down to +5 C outdoor air temperature and +5 C leaving water temperature DVV Electrical transformer to manage the fan's speed according to the specific condensing pressure this device is request for the unit to work with low evaporator leaving water temperature set point or operating at low outdoor temperature [See the section "Operating limit" to have the precise operating range of the unit] Increase the unit global efficiency thanks to a more accurate fans speed management. Improve the quietness in part load operating conditions. Extend the unit operating range allowing it to work safetely down to - 10 C outdoor air temperature 11
9. ACCESSORIES ACCESSORIES DESCRIPTION BENEFIT PRESSURE RELIEF VALVES VISUAL DISPLAY PROTEC- TION EEV FOR UNITS WITHOUT DVV Dual relief valve with switch Display protection panel Electronic lamination device wtih step motor. It is designed for the continuous and precise control of refrigerant flow entering in the evaporator. For versions without continuous adjustment of the fan speed, this option comprise the DVV device. Allows to unselect a relief valve in order to service the unit avoiding medium or long inoperative periods Potect the display against weather and U.V. rays This solution permits extremely short times for reaction to variation in load, optimising power consumption. EEV FOR UNITS WITH DVV Electronic expansion valve This solution permits extremely short times for reaction to variation in load, optimising power consumption. LWT 23/18 C - OUTDOOR 35 C ANTIFREEZE ON PIPES ANTIFREEZE ON PIPES + TANK Leaving water temperature at 23/18 C - outdoor 35 C Electrical heaters on pipes and other hydraulic unit's components. This option is mandatory if the unit is supposed to work with outdoor temperature below 0 C Electrical heaters on pipes and water tank. This option is mandatory if the unit is supposed to work with outdoor temperature below 0 C This option allows to increase the efficiency by working at 18 C LWT in summer conditions for cooling mode. This option also reduces the operating LWT conditions for positive temperatures only. It protects the unit against ice formation on its hydraulic components It protects the unit against ice formation on its hydraulic components 12
10.1 GENERAL TECHNICAL DATA / CA / CA 060T 070T 080T 090T 100T 110T 120T Power supply V/ph/Hz 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 PERFORMANCE COOLING ONLY (GROSS VALUE) Cooling capacity (1) kw 16 191 222 253 283 310 335 Total power input (1) kw 55,7 6,6 73,8 85,3 96,0 105 113 EER (1) 2,95 2,95 3,01 2,97 2,95 2,96 2,96 ESEER (1),13,25,22,25,22,16,18 COOLING ONLY (EN1511 VALUE) Cooling capacity (1)(2) kw 16 190 221 252 282 309 33 EER (1)(2) 2,91 2,91 2,96 2,92 2,91 2,92 2,92 ESEER (1)(2),00,08,01,05,08,01,01 Cooling energy class B B B B B B B HEATING ONLY (GROSS VALUE) Heating capacity (3) kw 172 199 238 266 293 329 350 Total power input (3) kw 53,0 61,5 73,1 82,0 90,6 102 108 COP (3) 3,2 3,2 3,25 3,2 3,23 3,2 3,2 HEATING ONLY (EN1511 VALUE) Heating capacity (3)(2) kw 172 200 239 267 29 330 351 COP (3)(2) 3,21 3,21 3,21 3,21 3,21 3,21 3,21 Cooling energy class A A A A A A A COOLING WITH PARTIAL RECOVERY Cooling capacity () kw 170 198 231 263 29 322 38 Total power input () kw 5,0 62,6 71,7 82,8 93,0 102 110 Desuperheater heating capacity () kw 2,6 50,5 55,2 65, 75,0 79,2 86,9 EXCHANGERS HEAT EXCHANGER USER SIDE IN REFRIGERATION Water flow (1) m³/h 28,3 32,8 38,3 3,6 8,8 53, 57,7 Pressure drop (1) kpa 23,1 31,3 53,1 7, 32,1 38,5 5,0 HEAT EXCHANGER USER SIDE IN HEATING Water flow (3) m³/h 29,8 3,6 1,3 6,2 50,9 57,2 60,8 Pressure drop (3) kpa 25,7 3,7 61,7 53,1 35,0,1 9,9 PARTIAL RECOVERY USER SIDE IN Water flow () m³/h 7,0 8,78 9,59 11, 13,0 13,8 15,1 Pressure drop () kpa 17,3 2,3 29,0 32,3 2, 37,9 5,6 COMPRESSORS N. of compressors N Number of capacity N No. of circuits N 2 2 2 2 2 2 2 Regulation STEPS STEPS STEPS STEPS STEPS STEPS STEPS Min. capacity step % 25 25 25 25 25 25 25 Refrigerant R10A R10A R10A R10A R10A R10A R10A Refrigerant charge kg 56,2 7,8 96,0 9,0 96,8 126 126 Oil charge kg 1, 26,8 26,8 26,8 26,8 27,8 28,8 FANS Quantity N 2 2 3 3 3 Air flow m³/s 22,9 22,3 32,5 32,5 32,5 2,5 2,5 Fans power kw 2,00 2,00 2,00 2,00 2,00 2,00 2,00 NOISE LEVEL Noise Pressure (5) db(a) 60 60 62 62 63 65 65 Noise Power (6) db(a) 92 92 9 9 95 97 97 SIZE AND WEIGHT A (7) mm 110 110 5110 5110 5110 6110 6110 B (7) mm 2220 2220 2220 2220 2220 2220 2220 H (7) mm 2150 2150 2150 2150 2150 2150 2150 Operating weight (7) kg 2070 2360 2750 2870 3150 360 3660 Notes: 1 Plant (side) cooling exchanger water (in/out) 12 C/7 C; Source (side) heat exchanger air (in) 35 C 2 Values in compliance with EN1511-3:2011 3 Plant (side) heat exchanger water (in/out) 0 C/5 C; Source (side) heat exchanger air (in) 7 C - 87% R.H. Plant (side) cooling exchanger water (in/out) 12 C/7 C; Source (side) heat exchanger air (in) 35 C; Plant (side) heat exchanger recovery water (in/out) 0 C/5 C 5 Average sound pressure level, at 10m distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level. 6 Sound power on the basis of measurements made in compliance with ISO 961 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 37 for non-certified units. 7 Unit in standard configuration/execution, without optional accessories. - Unavailable 13 060T - 120T
GENERAL TECHNICAL DATA / LN-CA / LN-CA 060T 070T 080T 090T 100T 110T 120T Power supply V/ph/Hz 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 PERFORMANCE COOLING ONLY (GROSS VALUE) Cooling capacity (1) kw 159 187 216 28 277 300 325 Total power input (1) kw 53,8 62,5 70,8 82,3 93,7 101 109 EER (1) 2,95 3,00 3,05 3,01 2,95 2,98 2,97 ESEER (1),30,31,32,31,28,30,26 COOLING ONLY (EN1511 VALUE) Cooling capacity (1)(2) kw 158 187 215 27 276 299 32 EER (1)(2) 2,92 2,96 3,00 2,96 2,92 2,95 2,93 ESEER (1)(2),16,15,11,10,1,15,08 Cooling energy class B B B B B B B HEATING ONLY (GROSS VALUE) Heating capacity (3) kw 170 207 239 275 30 329 358 Total power input (3) kw 51,9 6,1 73,2 8,7 93,9 101 110 COP (3) 3,28 3,2 3,26 3,2 3,2 3,2 3,2 HEATING ONLY (EN1511 VALUE) Heating capacity (3)(2) kw 170 208 20 276 305 330 360 COP (3)(2) 3,25 3,21 3,22 3,21 3,21 3,22 3,21 Cooling energy class A A A A A A A COOLING WITH PARTIAL RECOVERY Cooling capacity () kw 165 19 22 257 287 312 337 Total power input () kw 52,0 60,5 68,5 79,6 90,6 97,5 106 Desuperheater heating capacity () kw,7 50,8 58,2 66,8 77,0 83,3 89,2 EXCHANGERS HEAT EXCHANGER USER SIDE IN REFRIGERATION Water flow (1) m³/h 27,3 32,3 37,2 2,7 7,6 51,7 55,9 Pressure drop (1) kpa 21,6 30,2 50,1 5,3 30,6 36,1 2,2 HEAT EXCHANGER USER SIDE IN HEATING Water flow (3) m³/h 29,5 36,0 1,5 7,8 52,8 57,1 62,3 Pressure drop (3) kpa 25,3 37,7 62,3 56,8 37,6,1 52,3 PARTIAL RECOVERY USER SIDE IN Water flow () m³/h 7,76 8,82 10,1 11,6 13, 1,5 15,5 Pressure drop () kpa 19,0 2,5 32,2 33,7,7 1,9 8,1 COMPRESSORS N. of compressors N Number of capacity N No. of circuits N 2 2 2 2 2 2 2 Regulation STEPS STEPS STEPS STEPS STEPS STEPS STEPS Min. capacity step % 25 25 25 25 25 25 25 Refrigerant R10A R10A R10A R10A R10A R10A R10A Refrigerant charge kg 56,2 7,8 96,0 9,0 96,8 126 126 Oil charge kg 1, 26,8 26,8 26,8 26,8 27,8 28,8 FANS Quantity N 2 3 3 5 Air flow m³/s 17,0 21,7 2,0 28,9 28,9 31,5 36,1 Fans power kw 0,93 0,93 0,93 0,93 0,93 0,93 0,93 NOISE LEVEL Noise Pressure (5) db(a) 5 55 56 57 58 58 59 Noise Power (6) db(a) 86 87 88 89 90 90 91 SIZE AND WEIGHT A (7) mm 110 110 5110 5110 5110 6110 6110 B (7) mm 2220 2220 2220 2220 2220 2220 2220 H (7) mm 2150 2150 2150 2150 2150 2150 2150 Operating weight (7) kg 2070 20 2750 2970 3250 3610 370 Notes: 1 Plant (side) cooling exchanger water (in/out) 12 C/7 C; Source (side) heat exchanger air (in) 35 C 2 Values in compliance with EN1511-3:2011 3 Plant (side) heat exchanger water (in/out) 0 C/5 C; Source (side) heat exchanger air (in) 7 C - 87% R.H. Plant (side) cooling exchanger water (in/out) 12 C/7 C; Source (side) heat exchanger air (in) 35 C; Plant (side) heat exchanger recovery water (in/out) 0 C/5 C 5 Average sound pressure level, at 10m distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level. 6 Sound power on the basis of measurements made in compliance with ISO 961 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 37 for non-certified units. 7 Unit in standard configuration/execution, without optional accessories. - Unavailable 1 060T - 120T
GENERAL TECHNICAL DATA / SL-CA / SL-CA 060T 070T 080T 090T 100T 110T 120T Power supply V/ph/Hz 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 PERFORMANCE COOLING ONLY (GROSS VALUE) Cooling capacity (1) kw 158 185 216 25 275 299 32 Total power input (1) kw 53,5 62,9 71,0 82,7 92,8 101 110 EER (1) 2,95 2,95 3,0 2,96 2,96 2,96 2,96 ESEER (1),3,1,38,0,3,32,28 COOLING ONLY (EN1511 VALUE) Cooling capacity (1)(2) kw 157 185 215 2 27 298 323 EER (1)(2) 2,92 2,91 2,98 2,91 2,93 2,92 2,91 ESEER (1)(2),19,23,15,19,20,17,11 Cooling energy class B B B B B B B HEATING ONLY (GROSS VALUE) Heating capacity (3) kw 169 203 238 268 300 325 356 Total power input (3) kw 51,2 62,6 73,2 82,7 92,1 101 110 COP (3) 3,31 3,2 3,25 3,2 3,25 3,23 3,25 HEATING ONLY (EN1511 VALUE) Heating capacity (3)(2) kw 170 20 239 270 300 326 357 COP (3)(2) 3,28 3,21 3,21 3,21 3,23 3,21 3,22 Cooling energy class A A A A A A A COOLING WITH PARTIAL RECOVERY Cooling capacity () kw 16 192 22 25 285 310 336 Total power input () kw 51,7 60,8 68,7 80,0 89,8 97,6 106 Desuperheater heating capacity () kw 5,0 52, 58, 68,8 77,9 8,0 90,3 EXCHANGERS HEAT EXCHANGER USER SIDE IN REFRIGERATION Water flow (1) m³/h 27,1 31,9 37,1 2,1 7,3 51, 55,8 Pressure drop (1) kpa 21, 29,6 9,9,2 30,2 35,7 2,0 HEAT EXCHANGER USER SIDE IN HEATING Water flow (3) m³/h 29, 35,2 1,3 6,6 52,0 56,5 61,8 Pressure drop (3) kpa 25,1 36,0 61,8 5,1 36,6 3,1 51,6 PARTIAL RECOVERY USER SIDE IN Water flow () m³/h 7,83 9,10 10,1 12,0 13,5 1,6 15,7 Pressure drop () kpa 19,3 26,1 32, 35,7 5,8 2,6 9,3 COMPRESSORS N. of compressors N Number of capacity N No. of circuits N 2 2 2 2 2 2 2 Regulation STEPS STEPS STEPS STEPS STEPS STEPS STEPS Min. capacity step % 25 25 25 25 25 25 25 Refrigerant R10A R10A R10A R10A R10A R10A R10A Refrigerant charge kg 56,2 7,8 96,0 9,0 126 126 126 Oil charge kg 1, 26,8 26,8 26,8 26,8 27,8 28,8 FANS Quantity N 3 3 5 Air flow m³/s 16,3 17,7 23,5 23,5 26,1 29,9 33,9 Fans power kw 0,51 0,70 0,70 0,70 0,70 0,85 0,85 NOISE LEVEL Noise Pressure (5) db(a) 51 51 52 53 5 55 56 Noise Power (6) db(a) 83 83 8 85 86 87 88 SIZE AND WEIGHT A (7) mm 110 110 5110 5110 6110 6110 6110 B (7) mm 2220 2220 2220 2220 2220 2220 2220 H (7) mm 2150 2150 2150 2150 2150 2150 2150 Operating weight (7) kg 2150 20 2850 2970 3550 3610 370 Notes: 1 Plant (side) cooling exchanger water (in/out) 12 C/7 C; Source (side) heat exchanger air (in) 35 C 2 Values in compliance with EN1511-3:2011 3 Plant (side) heat exchanger water (in/out) 0 C/5 C; Source (side) heat exchanger air (in) 7 C - 87% R.H. Plant (side) cooling exchanger water (in/out) 12 C/7 C; Source (side) heat exchanger air (in) 35 C; Plant (side) heat exchanger recovery water (in/out) 0 C/5 C 5 Average sound pressure level, at 10m distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level. 6 Sound power on the basis of measurements made in compliance with ISO 961 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 37 for non-certified units. 7 Unit in standard configuration/execution, without optional accessories. - Unavailable 15 060T - 120T
GENERAL TECHNICAL DATA / SL-K / SL-K 060T 070T 080T 090T 100T 110T 120T Power supply V/ph/Hz 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 PERFORMANCE COOLING ONLY (GROSS VALUE) Cooling capacity (1) kw 18 175 202 232 256 281 303 Total power input (1) kw 57,8 68,5 78,9 88,2 100 111 119 EER (1) 2,56 2,56 2,56 2,63 2,55 2,5 2,5 ESEER (1),07,07,11,12,12,09,09 COOLING ONLY (EN1511 VALUE) Cooling capacity (1)(2) kw 18 175 201 231 255 280 302 EER (1)(2) 2,5 2,53 2,52 2,59 2,51 2,52 2,51 ESEER (1)(2) 3,96 3,9 3,93 3,95 3,9 3,96 3,9 Cooling energy class D D D D D D D HEATING ONLY (GROSS VALUE) Heating capacity (3) kw 160 193 223 257 283 307 330 Total power input (3) kw 51,2 63,6 72,5 82,2 91,2 100 108 COP (3) 3,13 3,03 3,08 3,12 3,10 3,07 3,05 HEATING ONLY (EN1511 VALUE) Heating capacity (3)(2) kw 161 19 22 258 28 308 331 COP (3)(2) 3,11 3,01 3,05 3,10 3,07 3,05 3,03 Cooling energy class B B B B B B B COOLING WITH PARTIAL RECOVERY Cooling capacity () kw 15 182 209 21 265 292 315 Total power input () kw 55,9 66,3 76, 85,3 97,0 107 115 Desuperheater heating capacity () kw 8, 56, 65,6 73,9 8,8 92,2 99, EXCHANGERS HEAT EXCHANGER USER SIDE IN REFRIGERATION Water flow (1) m³/h 25,5 30,2 3,7 39,9,0 8, 52,2 Pressure drop (1) kpa 18,8 26,5 3,6 39,7 8,2 31,6 36,8 HEAT EXCHANGER USER SIDE IN HEATING Water flow (3) m³/h 27,8 33,5 38,8,6 9,1 53, 57, Pressure drop (3) kpa 22,5 32,6 5,5 9,6 60,1 38,5, PARTIAL RECOVERY USER SIDE IN Water flow () m³/h 8,1 9,79 11, 12,8 1,7 16,0 17,3 Pressure drop () kpa 22,3 30,2 1,0 1,2 5,2 51, 59,7 COMPRESSORS N. of compressors N Number of capacity N No. of circuits N 2 2 2 2 2 2 2 Regulation STEPS STEPS STEPS STEPS STEPS STEPS STEPS Min. capacity step % 25 25 25 25 25 25 25 Refrigerant R10A R10A R10A R10A R10A R10A R10A Refrigerant charge kg 35,6 56,2 77,2 9,0 9,0 96,8 96,8 Oil charge kg 1, 26,8 26,8 26,8 26,8 27,8 28,8 FANS Quantity N 2 3 3 3 3 Air flow m³/s 10,7 17, 16,0 18,1 18,1 21,3 23,5 Fans power kw 0,90 0,90 0,90 0,90 0,90 0,90 1,00 NOISE LEVEL Noise Pressure (5) db(a) 50 51 51 52 53 5 55 Noise Power (6) db(a) 82 83 83 8 85 86 87 SIZE AND WEIGHT A (7) mm 3110 110 110 5110 5110 5110 5110 B (7) mm 2220 2220 2220 2220 2220 2220 2220 H (7) mm 2150 2150 2150 2150 2150 2150 2150 Operating weight (7) kg 1860 2310 270 2870 2980 3320 3370 Notes: 1 Plant (side) cooling exchanger water (in/out) 12 C/7 C; Source (side) heat exchanger air (in) 35 C 2 Values in compliance with EN1511-3:2011 3 Plant (side) heat exchanger water (in/out) 0 C/5 C; Source (side) heat exchanger air (in) 7 C - 87% R.H. Plant (side) cooling exchanger water (in/out) 12 C/7 C; Source (side) heat exchanger air (in) 35 C; Plant (side) heat exchanger recovery water (in/out) 0 C/5 C 5 Average sound pressure level, at 10m distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level. 6 Sound power on the basis of measurements made in compliance with ISO 961 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 37 for non-certified units. 7 Unit in standard configuration/execution, without optional accessories. - Unavailable 16 060T - 120T
GENERAL TECHNICAL DATA / LN-K / LN-K 060T 070T 080T 090T 100T 110T 120T Power supply V/ph/Hz 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 PERFORMANCE COOLING ONLY (GROSS VALUE) Cooling capacity (1) kw 153 17 201 23 258 283 303 Total power input (1) kw 56,9 68,5 78,3 90,0 101 109 119 EER (1) 2,68 2,55 2,56 2,60 2,55 2,60 2,5 ESEER (1) 3,96,08,12,08,02,06,05 COOLING ONLY (EN1511 VALUE) Cooling capacity (1)(2) kw 152 17 200 233 257 282 302 EER (1)(2) 2,66 2,52 2,53 2,57 2,51 2,57 2,51 ESEER (1)(2) 3,85 3,9 3,9 3,91 3,8 3,93 3,91 Cooling energy class D D D D D D D HEATING ONLY (GROSS VALUE) Heating capacity (3) kw 165 192 221 255 28 310 329 Total power input (3) kw 52,7 63,0 71,9 83,9 92,9 100 107 COP (3) 3,1 3,05 3,08 3,0 3,05 3,09 3,07 HEATING ONLY (EN1511 VALUE) Heating capacity (3)(2) kw 166 193 222 256 285 311 330 COP (3)(2) 3,12 3,03 3,05 3,01 3,02 3,07 3,0 Cooling energy class B B B B B B B COOLING WITH PARTIAL RECOVERY Cooling capacity () kw 158 181 208 23 268 293 31 Total power input () kw 55,1 66,3 75,8 87,1 98,1 105 115 Desuperheater heating capacity () kw 6,5 56,9 65,6 73,9 8,1 90,6 100 EXCHANGERS HEAT EXCHANGER USER SIDE IN REFRIGERATION Water flow (1) m³/h 26,3 30,0 3,5 0,3, 8,7 52,2 Pressure drop (1) kpa 20,1 26,1 3,2 0,5 9,2 32,0 36,8 HEAT EXCHANGER USER SIDE IN HEATING Water flow (3) m³/h 28,7 33, 38,5,3 9,3 53,9 57,2 Pressure drop (3) kpa 23,9 32, 53,6 8,9 60,5 39,2,1 PARTIAL RECOVERY USER SIDE IN Water flow () m³/h 8,08 9,89 11, 12,8 1,6 15,7 17, Pressure drop () kpa 20,6 30,8 1,0 1,3 53, 9,6 60, COMPRESSORS N. of compressors N Number of capacity N No. of circuits N 2 2 2 2 2 2 2 Regulation STEPS STEPS STEPS STEPS STEPS STEPS STEPS Min. capacity step % 25 25 25 25 25 25 25 Refrigerant R10A R10A R10A R10A R10A R10A R10A Refrigerant charge kg 35,6 56,2 77,2 7, 7, 96,8 96,8 Oil charge kg 1, 26,8 26,8 26,8 26,8 27,8 28,8 FANS Quantity N 2 2 2 3 3 3 3 Air flow m³/s 13,6 16,7 16,0 20, 20, 23,0 23,0 Fans power kw 1,20 1,20 1,20 1,20 1,20 1,20 1,20 NOISE LEVEL Noise Pressure (5) db(a) 5 5 55 56 57 58 58 Noise Power (6) db(a) 86 86 87 88 89 90 90 SIZE AND WEIGHT A (7) mm 3110 110 110 110 110 5110 5110 B (7) mm 2220 2220 2220 2220 2220 2220 2220 H (7) mm 2150 2150 2150 2150 2150 2150 2150 Operating weight (7) kg 1860 2230 2390 2610 2700 3200 320 Notes: 1 Plant (side) cooling exchanger water (in/out) 12 C/7 C; Source (side) heat exchanger air (in) 35 C 2 Values in compliance with EN1511-3:2011 3 Plant (side) heat exchanger water (in/out) 0 C/5 C; Source (side) heat exchanger air (in) 7 C - 87% R.H. Plant (side) cooling exchanger water (in/out) 12 C/7 C; Source (side) heat exchanger air (in) 35 C; Plant (side) heat exchanger recovery water (in/out) 0 C/5 C 5 Average sound pressure level, at 10m distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level. 6 Sound power on the basis of measurements made in compliance with ISO 961 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 37 for non-certified units. 7 Unit in standard configuration/execution, without optional accessories. - Unavailable 17 060T - 120T
GENERAL TECHNICAL DATA / K / K 060T 070T 080T 090T 100T 110T 120T Power supply V/ph/Hz 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 00/3/50 PERFORMANCE COOLING ONLY (GROSS VALUE) Cooling capacity (1) kw 160 186 211 25 27 298 319 Total power input (1) kw 56,9 67, 75,9 88,8 99, 106 116 EER (1) 2,81 2,76 2,78 2,76 2,76 2,80 2,75 ESEER (1) 3,87,01,07 3,95 3,99,05,0 COOLING ONLY (EN1511 VALUE) Cooling capacity (1)(2) kw 160 185 210 2 273 297 318 EER (1)(2) 2,78 2,72 2,73 2,72 2,71 2,77 2,72 ESEER (1)(2) 3,77 3,86 3,87 3,78 3,80 3,91 3,89 Cooling energy class C C C C C C C HEATING ONLY (GROSS VALUE) Heating capacity (3) kw 17 202 230 271 300 32 35 Total power input (3) kw 56, 66, 75, 89,2 98,3 106 113 COP (3) 3,08 3,0 3,06 3,0 3,05 3,07 3,05 HEATING ONLY (EN1511 VALUE) Heating capacity (3)(2) kw 17 202 232 273 301 325 36 COP (3)(2) 3,06 3,01 3,02 3,01 3,01 3,0 3,03 Cooling energy class B B B B B B B COOLING WITH PARTIAL RECOVERY Cooling capacity () kw 166 193 219 25 28 309 331 Total power input () kw 55,2 65,3 73,5 86,1 96, 103 112 Desuperheater heating capacity () kw 3,6 53,0 60,6 68,5 78,0 8,3 92,7 EXCHANGERS HEAT EXCHANGER USER SIDE IN REFRIGERATION Water flow (1) m³/h 27,6 32,0 36,3 2,2 7,2 51,3 55,0 Pressure drop (1) kpa 22,0 29,7 7,8, 55,5 35,5 0,8 HEAT EXCHANGER USER SIDE IN HEATING Water flow (3) m³/h 30,2 35,1 0,0 7,1 52,0 56,3 59,9 Pressure drop (3) kpa 26, 35,6 58,0 55,3 67, 2,8 8, PARTIAL RECOVERY USER SIDE IN Water flow () m³/h 7,58 9,22 10,5 11,9 13,6 1,6 16,1 Pressure drop () kpa 18,1 26,8 3,9 35, 6,0 2,9 51,9 COMPRESSORS N. of compressors N Number of capacity N No. of circuits N 2 2 2 2 2 2 2 Regulation STEPS STEPS STEPS STEPS STEPS STEPS STEPS Min. capacity step % 25 25 25 25 25 25 25 Refrigerant R10A R10A R10A R10A R10A R10A R10A Refrigerant charge kg 35,6 56,2 77,2 7, 7, 96,8 96,8 Oil charge kg 1, 26,8 26,8 26,8 26,8 27,8 28,8 FANS Quantity N 2 2 2 3 3 3 3 Air flow m³/s 19,5 22,9 22,3 29,2 29,2 32,5 32,5 Fans power kw 2,00 2,00 2,00 2,00 2,00 2,00 2,00 NOISE LEVEL Noise Pressure (5) db(a) 60 60 61 62 63 63 63 Noise Power (6) db(a) 92 92 93 9 95 95 95 SIZE AND WEIGHT A (7) mm 3110 110 110 110 110 5110 5110 B (7) mm 2220 2220 2220 2220 2220 2220 2220 H (7) mm 2150 2150 2150 2150 2150 2150 2150 Operating weight (7) kg 1810 2180 230 2560 2650 3150 3190 Notes: 1 Plant (side) cooling exchanger water (in/out) 12 C/7 C; Source (side) heat exchanger air (in) 35 C 2 Values in compliance with EN1511-3:2011 3 Plant (side) heat exchanger water (in/out) 0 C/5 C; Source (side) heat exchanger air (in) 7 C - 87% R.H. Plant (side) cooling exchanger water (in/out) 12 C/7 C; Source (side) heat exchanger air (in) 35 C; Plant (side) heat exchanger recovery water (in/out) 0 C/5 C 5 Average sound pressure level, at 10m distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level. 6 Sound power on the basis of measurements made in compliance with ISO 961 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 37 for non-certified units. 7 Unit in standard configuration/execution, without optional accessories. - Unavailable 18 060T - 120T
11. SELECTION LIMITS / CA 060T 120T / K 060T 120T COOLING LIMITS COOLING LIMITS 50 50 5 5 0 0 35 35 30 30 25 25 Air Temp. [ C] 20 15 Air Temp. [ C] 20 15 10 10 5 5 0 0-5 -5-10 -10-15 -10-5 0 5 10 15 20-15 -10-5 0 5 10 15 20 T.Out Evap. [ C] T.Out Evap. [ C] Selection limits Unit in non silenced mode Selection limits Unit in non silenced mode 19
/ LN-CA 060T 120T / LN-K 060T 120T COOLING LIMITS COOLING LIMITS 50 50 5 5 0 0 35 35 30 30 25 25 Air Temp. [ C] 20 15 Air Temp. [ C] 20 15 10 10 5 5 0 0-5 -5-10 -10-15 -10-5 0 5 10 15 20-15 -10-5 0 5 10 15 20 T.Out Evap. [ C] T.Out Evap. [ C] Selection limits Unit in non silenced mode Selection limits Unit in non silenced mode 20
/ SL-CA 060T 120T / SL-K 060T 120T COOLING LIMITS COOLING LIMITS 50 50 5 5 0 0 35 35 30 30 25 25 Air Temp. [ C] 20 15 Air Temp. [ C] 20 15 10 10 5 5 0 0-5 -5-10 -10-15 -10-5 0 5 10 15 20-15 -10-5 0 5 10 15 20 T.Out Evap. [ C] T.Out Evap. [ C] Selection limits Unit in non silenced mode Selection limits Unit in non silenced mode 21
12. ETHYLENE GLYCOL MIXTURE Ethylene glycol and water mixture, used as a heat-conveying fluid, cause a variation in unit performance. For correct data, use the factors indicated in the following tabel. Freezing point ( C) 0-5 -10-15 -20-25 -30-35 Ethylene glycol percentage by weight 0 12% 20% 30% 35% 0% 5% 50% cpf 1 0,985 0,98 0,97 0,97 0,965 0,96 0,96 cq 1 1,02 1,0 1,075 1,11 1,1 1,17 1,2 cdp 1 1,07 1,11 1,18 1,22 1,2 1,27 1,3 cpf: cq: cdp: cooling power correction factor flow correction factor pressure drop correction factor For data concerning other kind of anti-freeze solutions (e,g, propylene glycol) please contact our Sale Department. 13. FOULING FACTORS Performances are based on clean condition of tubes (fouling factor = 1). For different fouling values, performance should be adjusted using the correction factors shown in the following table. FOULING FACTORS EVAPORATOR CONDENSER/RECOVERY DESUPERHEATER ff (m 2 CW) F1 FK1 KE [ C] F1 FK1 KE [ C] R3 0 1,000 1,000 0,0 1,000 1,000 0,0 1,00 1,80 x 10-5 1,000 1,000 0,0 1,000 1,000 0,0 1,00,0 x 10-5 1,000 1,000 0,0 0,990 1,030 1,0 0,990 8,80 x 10-5 0,960 0,990 0,7 0,980 1,00 1,5 0,980 13,20 x 10-5 0,9 0,985 1,0 0,96 1,050 2,3 0,96 17,20 x 10-5 0,930 0,980 1,5 0,950 1,050 3,0 0,950 ff: fouling factors f1 - f2: potential correction factors fk1 - fk2: compressor power input correction factors r3: capacity correction factors KE: minimum condenser outlet temperature increase KC: maximum condenser outlet temperature decrease 22
1. HYDRAULIC DATA Water flow and pressure drop Water flow in the heat exchangers is given by: Q=Px0,86/Dt Q: water flow (m 3 /h) Dt: difference between inlet and outlet water temp. ( C) P: heat exchanger capacity (kw) Pressure drop is given by: Dp= K x Q2/1000 Q: water flow (m 3 /h) Dp: pressure drop (kpa) K: unit size ratio PLANT SIDE COLD HEAT EXCHANGER SIZE Q min max C.A.S. C.a. K m³/h m³/h dm³ min m³ /CA 060T 29 17, 7,2 1, 0,1 /CA 070T 29 20,3 5,9 1, 0,77 /CA 080T 36,2 23,7 58,8 35,8 0,556 /CA 090T 2,9 27 68,2 39,6 0,633 /CA 100T 13,5 30,2 81, 86 0,708 /CA 110T 13,5 33,1 89,1 86 0,775 /CA 120T 13,5 35,8 92,8 86 0,838 /K 060T 29 17 6,1 1, 0, /K 070T 29 19,8 53,5 1, 0,65 /K 080T 36,2 22,5 58,8 35,8 0,528 /K 090T 2,9 26,2 68,2 39,6 0,613 /K 100T 2,9 29,3 68,2 39,6 0,685 /K 110T 13,5 31,8 85,6 86 0,75 /K 120T 13,5 3,1 91,7 86 0,798 /LN-CA 060T 29 17, 7,2 1, 0,1 /LN-CA 070T 29 20,3 5,9 1, 0,77 /LN-CA 080T 36,2 23,7 58,8 35,8 0,556 /LN-CA 090T 2,9 27 68,2 39,6 0,633 /LN-CA 100T 13,5 30,2 81, 86 0,708 /LN-CA 110T 13,5 33,1 89,1 86 0,775 /LN-CA 120T 13,5 35,8 92,8 86 0,838 /LN-K 060T 29 17 6,1 1, 0, /LN-K 070T 29 19,8 53,5 1, 0,65 /LN-K 080T 36,2 22,5 58,8 35,8 0,528 /LN-K 090T 2,9 26,2 68,2 39,6 0,613 /LN-K 100T 2,9 29,3 68,2 39,6 0,685 /LN-K 110T 13,5 31,8 85,6 86 0,75 /LN-K 120T 13,5 3,1 91,7 86 0,798 /SL-CA 060T 29 17, 7,2 1, 0,1 /SL-CA 070T 29 20,3 5,9 1, 0,77 /SL-CA 080T 36,2 23,7 58,8 35,8 0,556 /SL-CA 090T 2,9 27 68,2 39,6 0,633 /SL-CA 100T 13,5 30,2 81, 86 0,708 /SL-CA 110T 13,5 33,1 89,1 86 0,775 /SL-CA 120T 13,5 35,8 92,8 86 0,838 /SL-K 060T 29 17 6,1 1, 0, /SL-K 070T 29 19,8 53,5 1, 0,65 /SL-K 080T 36,2 22,5 58,8 35,8 0,528 /SL-K 090T 2,9 26,2 68,2 39,6 0,613 /SL-K 100T 2,9 29,3 68,2 39,6 0,685 /SL-K 110T 13,5 31,8 85,6 86 0,75 /SL-K 120T 13,5 3,1 91,7 86 0,798 Q min: minimum water flow admitted to the heat exchanger Q max: maximum water flow admitted to the heat exchanger C.a. min: minimum water content admitted in the plant, using traditional control logic C.A.S.: heat exchanger water content - - - 23
Water flow and pressure drop Water flow in the heat exchangers is given by: Q=Px0,86/Dt Q: water flow (m 3 /h) Dt: difference between inlet and outlet water temp. ( C) P: heat exchanger capacity (kw) Pressure drop is given by: Dp= K x Q2/1000 Q: water flow (m 3 /h) Dp: pressure drop (kpa) K: unit size ratio PLANT SIDE COLD HEAT EXCHANGER AUXILIARY SIDE HEAT EXCHANGER SIZE Q min max C.A.S. C.a. Q min C.A.S. Q max K K m³/h m³/h dm³ min m³ m³/h dm³ m³/h /D /CA 060T 29 17, 7,2 1, 0,1 315-1,22 9, /D /CA 070T 29 20,3 5,9 1, 0,77 315-1,22 11, /D /CA 080T 36,2 23,7 58,8 35,8 0,556 315-1,22 13 /D /CA 090T 2,9 27 68,2 39,6 0,633 250-1,6 1,7 /D /CA 100T 13,5 30,2 81, 86 0,708 250-1,6 16,8 /D /CA 110T 13,5 33,1 89,1 86 0,775 200-1,83 18,1 /D /CA 120T 13,5 35,8 92,8 86 0,838 200-1,83 19,9 /D /K 060T 29 17 6,1 1, 0, 315-1,22 9, /D /K 070T 29 19,8 53,5 1, 0,65 315-1,22 11, /D /K 080T 36,2 22,5 58,8 35,8 0,528 315-1,22 13 /D /K 090T 2,9 26,2 68,2 39,6 0,613 250-1,6 1,7 /D /K 100T 2,9 29,3 68,2 39,6 0,685 250-1,6 16,8 /D /K 110T 13,5 31,8 85,6 86 0,75 200-1,83 18,1 /D /K 120T 13,5 3,1 91,7 86 0,798 200-1,83 19,9 /D /LN-CA 060T 29 17, 7,2 1, 0,1 315-1,22 9, /D /LN-CA 070T 29 20,3 5,9 1, 0,77 315-1,22 11, /D /LN-CA 080T 36,2 23,7 58,8 35,8 0,556 315-1,22 13 /D /LN-CA 090T 2,9 27 68,2 39,6 0,633 250-1,6 1,7 /D /LN-CA 100T 13,5 30,2 81, 86 0,708 250-1,6 16,8 /D /LN-CA 110T 13,5 33,1 89,1 86 0,775 200-1,83 18,1 /D /LN-CA 120T 13,5 35,8 92,8 86 0,838 200-1,83 19,9 /D /LN-K 060T 29 17 6,1 1, 0, 315-1,22 9, /D /LN-K 070T 29 19,8 53,5 1, 0,65 315-1,22 11, /D /LN-K 080T 36,2 22,5 58,8 35,8 0,528 315-1,22 13 /D /LN-K 090T 2,9 26,2 68,2 39,6 0,613 250-1,6 1,7 /D /LN-K 100T 2,9 29,3 68,2 39,6 0,685 250-1,6 16,8 /D /LN-K 110T 13,5 31,8 85,6 86 0,75 200-1,83 18,1 /D /LN-K 120T 13,5 3,1 91,7 86 0,798 200-1,83 19,9 /D /SL-CA 060T 29 17, 7,2 1, 0,1 315-1,22 9, /D /SL-CA 070T 29 20,3 5,9 1, 0,77 315-1,22 11, /D /SL-CA 080T 36,2 23,7 58,8 35,8 0,556 315-1,22 13 /D /SL-CA 090T 2,9 27 68,2 39,6 0,633 250-1,6 1,7 /D /SL-CA 100T 13,5 30,2 81, 86 0,708 250-1,6 16,8 /D /SL-CA 110T 13,5 33,1 89,1 86 0,775 200-1,83 18,1 /D /SL-CA 120T 13,5 35,8 92,8 86 0,838 200-1,83 19,9 /D /SL-K 060T 29 17 6,1 1, 0, 315-1,22 9, /D /SL-K 070T 29 19,8 53,5 1, 0,65 315-1,22 11, /D /SL-K 080T 36,2 22,5 58,8 35,8 0,528 315-1,22 13 /D /SL-K 090T 2,9 26,2 68,2 39,6 0,613 250-1,6 1,7 /D /SL-K 100T 2,9 29,3 68,2 39,6 0,685 250-1,6 16,8 /D /SL-K 110T 13,5 31,8 85,6 86 0,75 200-1,83 18,1 /D /SL-K 120T 13,5 3,1 91,7 86 0,798 200-1,83 19,9 Q min: minimum water flow admitted to the heat exchanger Q max: maximum water flow admitted to the heat exchanger C.a. min: minimum water content admitted in the plant, using traditional control logic C.A.S.: heat exchanger water content - - - 2
15. HYDRONIC GROUP (OPTIONAL) The units can be supplied with a hydronic group. This houses all the main hydraulic components, thereby optimising hydraulic and electric installation space, time and cost. Available pump confi gurations:: - Hydronic kit with one IN-LINE 2-pole low-head pump - Hydronic kit with one IN-LINE 2-pole high-head pump - Hydronic kit with IN-LINE 2-pole low-head twin pumps - Hydronic kit with IN-LINE 2-pole high-head twin pumps Storage tank combinations NX 060T 070T 080T 090T 100T 110T 120T VERSION WATER TANK Capacity [litre] K 500 LN-K 500 SL-K 500 CA 500 LN-CA 500 SL-CA 700 K 500 LN-K 500 SL-K 500 CA 700 LN-CA 700 SL-CA 700 K 500 LN-K 500 SL-K 700 CA 700 LN-CA 700 SL-CA 700 K 500 LN-K 500 SL-K 700 CA 700 LN-CA 700 SL-CA 700 K 700 LN-K 700 SL-K 700 CA 700 LN-CA 700 SL-CA 700 K 700 LN-K 700 SL-K 700 CA 700 LN-CA 700 SL-CA 700 K 700 LN-K 700 SL-K 700 CA 700 LN-CA 700 SL-CA 700 Storage tank (upon request) The storage tank system features: - 500 litre tank for the sizes and versions shown in the table of combinations - 700 litre tank for the sizes and versions shown in the table of combinations - expansion vessel (EPDM membrane), 18 litre capacity with 2.5 bar pre-charge for 500 litre tanks - expansion vessel (EPDM membrane), 0 litre capacity with 2.5 bar pre-charge for 700 litre tanks - pressure gauge - safety valve calibrated to 6 bars - storage tank with 20 mm lining - tank frost protection heater upon request. 2-pole low head pump Centrifugal pumps with in-line suction and delivery flanges, in single and twin versions. Pump body in cast iron and impeller in AISI 316L stainless steel or cast-iron, entirely laser technology welded. Mechanical seal with components in ceramics, carbon and EPDM elastomers. Three-phase electric motor protected to IP55, insulation class F, suitable for continuous service. 2-pole high-head pump All versions of the hydronic unit can be supplied with a high head pump. In these cases, the pump features a two-pole motor even in the silent-running versions. Twin pump A second stand-by pump for high or low pressures is available on request. The pumps are automatically exchanged on the basis of a rotation programme and the stand-by pump cuts in automatically if the primary pump fails. GENERAL CHARACTERISTICS Water connections In the units without pumps, standard version, the connections for the water inlet and outlet both in the evaporator and in the desuperheater are inside the unit. As an accessory one can request these connections fl ush with the unit. For units with pumps, the connections are always fl ush with the unit. Water-side mechanical filter (optional) Y-filter designed and built to capture the impurities in the hydraulic circuit. It is fitted with a 0.9 mm stainless steel mesh cartridge which can be replaced without removing the valve body from the piping. Unit electrical panel The unit electrical panel is fitted with fuses and a circuit breaker contactor. Special pumps For pumps with different configurations, please contact our sales department. Additional components The supply does not include the following accessories though these are recommended to ensure correct system operation: MA Pressure gauges upline and downline from the unit GF Flexible joints on piping RI On-off valves T Outlet control thermometer 25
HYDRONIC GROUP (OPTIONAL) 15.1 Hydraulic diagram SF P S1 P RITORNO DALL'IMPIANTO RETURN FROM HYDRAULIC SYSTEM EV Pd S2 MANDATA ALL'IMPIANTO DISCHARGE TO HYDRAULIC SYSTEM SC LEGENDA - LEGEND CONPONENTI DEL KIT IDRONICO COMPONENTS OF THE HYDRONIC KIT EV P Pd SC SF S1 S2 Evaporatore Evaporator Pompa Water pump Pressostato differenziale lato acqua Water Differential pressure switch Valvola di scarico Drain valve Valvola di sfiato Purge valve Sonda ingresso acqua scambiatore Exchanger water inlet probe Sonda uscita acqua scambiatore Exchanger water outlet probe 26
HYDRONIC GROUP (OPTIONAL) 15.2 Hydraulic diagram with water tank AC MA RR VE ~ VA Sc2 Sf2 RITORNO DALL'IMPIANTO RETURN FROM HYDRAULIC SYSTEM P P Sf1 S1 EV Pd Sc1 MANDATA ALL'IMPIANTO DISCHARGE TO HYDRAULIC SYSTEM Sc1 S2 AC EV MA P Pd RR S1 S2 Sc1 Sc2 Sf1 Sf2 VA VE LEGENDA - LEGEND Accumulo Water tank Evaporatore Evaporator Manometro Water pressure gauge Pompa Water pump Pressostato differenziale Differential pressure switch Rubinetto reintegro Filling valve Sonda ingresso acqua evaporatori/condensatori Evaporators/Condensers water inlet probe Sonda uscita acqua evaporatori/condensatori Evaporators/Condensers water outlet probe Scarico Evaporatore/Condensatore Evaporator/Condenser drain valve Scarico acqua accumulo Water tank drain valve Sfiato Evaporatore/Condensatore Evaporator/Condenser breather valve Sfiato accumulo Tank breather valve Valvola di sicurezza Safety valve Vaso di espansione Expansion tank 27
HYDRONIC GROUP (OPTIONAL) 1 PUMP - LOW HEAD PUMP Pf (1) Q (1) Rif. Type N. F.L.I. F.L.A. Ks Dps Hu Kfi TAGLIA VERSION [kw] [m3/h] Pump Pump Poles [kw] - kpa kpa - 060T K 160 27,5 A1 FCE 50-160/22 2 2,2 5,0 36, 27,6 15 23,7 CA 16 28,2 A1 FCE 50-160/22 2 2,2 5,0 36, 29,0 150 23,7 070T K 186 32,0 A1 FCE 50-160/22 2 2,2 5,0 36, 37,2 126 23,7 CA 191 32,8 A1 FCE 50-160/22 2 2,2 5,0 36, 39,2 121 23,7 080T K 211 36,3 D1 FCE 65-125/30 2 3 6,0 3,6 57, 119,9 CA 222 38,3 D1 FCE 65-125/30 2 3 6,0 3,6 63,8 109,9 090T K 25 2,2 D2 FCE 65-125/30 2 3 6,0 32,3 57,5 106,9 CA 253 3,6 D2 FCE 65-125/30 2 3 6,0 32,3 61,3 100,9 100T K 27 7,1 E1 FCE 65-125/0 2 8,1 32,3 71,8 123,9 CA 283 8,7 E2 FCE 65-125/0 2 8,1 20,9 9,6 12,9 110T K 298 51,3 E3 FCE 65-125/0 2 8,1 16,8,1 10,9 CA 310 53,3 E3 FCE 65-125/0 2 8,1 16,8 7,8 132,9 120T K 319 5,9 E3 FCE 65-125/0 2 8,1 16,8 50,7 12,9 CA 335 57,7 E3 FCE 65-125/0 2 8,1 16,8 55,9 111,9 (1) Values refer to rated operating conditions Pf Cooling capacity of unit Q Flow of water to evaporator F.L.I. Power absorbed by pump F.L.A. Current absorbed by pump Ks Kfi Dps Hu Coefficients for calculating pressure drops Unit with hydronic unit without network filter and 3 way valve Coefficients filter for calculating pressure drops Total pressure drop of hydronic group Residual head WORKING HEAD CURVES 20 220 200 180 160 Hu [kpa] 10 120 100 80 60 0 20 A1 D1 D2 E1 E2 E3 0 10 12 1 16 18 20 22 2 26 28 30 32 3 36 38 0 2 6 8 50 52 5 56 58 60 62 6 66 68 70 72 7 Q [m 3 /h] 28
HYDRONIC GROUP (OPTIONAL) COLD CIRCUIT - 1 PUMPS - HIGH HEAD PUMP Pf (1) Q (1) Rif. Type N. F.L.I. F.L.A. Ks Dps Hu Kfi TAGLIA VERSION [kw] [m3/h] Pump Pump Poles [kw] - kpa kpa - 060T K 160 27,5 B1 FCE 50-160/30 2 3 6,0 36, 27,6 210 23,7 CA 16 28,2 B1 FCE 50-160/30 2 3 6,0 36, 29,0 205 23,7 070T K 186 32,0 C1 FCE 50-160/0 2 8,1 36, 37,2 232 23,7 CA 191 32,8 C1 FCE 50-160/0 2 8,1 36, 39,2 226 23,7 080T K 211 36,3 F1 FCE 65-160/55 2 5,5 10,1 3,6 57, 237,9 CA 222 38,3 F1 FCE 65-160/55 2 5,5 10,1 3,6 63,8 227,9 090T K 25 2,2 F2 FCE 65-160/55 2 5,5 10,1 32,3 57,5 22,9 CA 253 3,6 F2 FCE 65-160/55 2 5,5 10,1 32,3 61,3 216,9 100T K 27 7,1 F2 FCE 65-160/55 2 5,5 10,1 32,3 71,8 197,9 CA 283 8,7 F3 FCE 65-160/55 2 5,5 10,1 20,9 9,6 21,9 110T K 298 51,3 F FCE 65-160/55 2 5,5 10,1 16,8,1 213,9 CA 310 53,3 F FCE 65-160/55 2 5,5 10,1 16,8 7,8 203,9 120T K 319 5,9 G1 FCE 65-160/75 2 7,5 13,7 16,8 50,7 261,9 CA 335 57,7 G1 FCE 65-160/75 2 7,5 13,7 16,8 55,9 26,9 (1) Values refer to rated operating conditions Pf Cooling capacity of unit Q Flow of water to evaporator F.L.I. Power absorbed by pump F.L.A. Current absorbed by pump Ks Kfi Dps Hu Coefficients for calculating pressure drops Unit with hydronic unit without network filter and 3 way valve Coefficients filter for calculating pressure drops Total pressure drop of hydronic group Residual head WORKING HEAD CURVES Hu [kpa] 380 360 30 320 300 280 260 20 220 200 180 160 10 120 100 80 60 0 20 0 G1 F F3 B1 C1 F1 F2 10 12 1 16 18 20 22 2 26 28 30 32 3 36 38 0 2 6 8 50 52 5 56 58 60 62 6 66 68 70 72 7 76 78 80 Q [m 3 /h] 29
HYDRONIC GROUP (OPTIONAL) COLD CIRCUIT - 1 PUMP - LOW HEAD PUMP WITH WATER TANK Pf (1) Q (1) Rif. Type N. F.L.I. F.L.A. Ks Dps Hu Kfi TAGLIA VERSION [kw] [m3/h] Pump Pump Poles [kw] - kpa kpa - 060T K 160 27,5 A1 FCE 50-160/22 2 2,2 5,0 0,1 30, 151 23,7 CA 16 28,2 A1 FCE 50-160/22 2 2,2 5,0 0,1 31,9 17 23,7 070T K 186 32,0 A1 FCE 50-160/22 2 2,2 5,0 0,1 1,0 122 23,7 CA 191 32,8 A1 FCE 50-160/22 2 2,2 5,0 0,1 3,2 117 23,7 080T K 211 36,3 D1 FCE 65-125/30 2 3 6,0 7,3 62,3 11,9 CA 222 38,3 D1 FCE 65-125/30 2 3 6,0 7,3 69,2 103,9 090T K 25 2,2 D2 FCE 65-125/30 2 3 6,0 36,0 6,0 100,9 CA 253 3,6 D2 FCE 65-125/30 2 3 6,0 36,0 68,3 93,9 100T K 27 7,1 E1 FCE 65-125/0 2 8,1 36,0 80,0 115,9 CA 283 8,7 E2 FCE 65-125/0 2 8,1 2,6 58, 133,9 110T K 298 51,3 E3 FCE 65-125/0 2 8,1 17,9 7,0 137,9 CA 310 53,3 E3 FCE 65-125/0 2 8,1 17,9 50,9 129,9 120T K 319 5,9 E3 FCE 65-125/0 2 8,1 17,9 5,0 121,9 CA 335 57,7 E3 FCE 65-125/0 2 8,1 17,9 59,5 107,9 (1) Values refer to rated operating conditions Pf Cooling capacity of unit Q Flow of water to evaporator F.L.I. Power absorbed by pump F.L.A. Current absorbed by pump Ks Kfi Dps Hu Coefficients for calculating pressure drops Unit with hydronic unit without network filter and 3 way valve Coefficients filter for calculating pressure drops Total pressure drop of hydronic group Residual head WORKING HEAD CURVES 20 220 200 180 160 Hu [kpa] 10 120 100 80 60 0 20 A1 D1 D2 E1 E2 E3 0 10 12 1 16 18 20 22 2 26 28 30 32 3 36 38 0 2 6 8 50 52 5 56 58 60 62 6 66 68 70 72 7 Q [m 3 /h] 30
HYDRONIC GROUP (OPTIONAL) COLD CIRCUIT - 1 PUMP - HIGH HEAD PUMP WITH WATER TANK Pf (1) Q (1) Rif. Type N. F.L.I. F.L.A. Ks Dps Hu Kfi TAGLIA VERSION [kw] [m3/h] Pump Pump Poles [kw] - kpa kpa - 060T K K 160 28 FCE 50-160/30 2 3 6,0 0,1 30, 207 23,7 CA CA 16 28 FCE 50-160/30 2 3 6,0 0,1 31,9 203 23,7 070T K K 186 32 FCE 50-160/0 2 8,1 0,1 1,0 228 23,7 CA CA 191 33 FCE 50-160/0 2 8,1 0,1 3,2 222 23,7 080T K K 211 36 FCE 65-160/55 2 5,5 10,1 7,3 62,3 232,9 CA CA 222 38 FCE 65-160/55 2 5,5 10,1 7,3 69,2 221,9 090T K K 25 2 FCE 65-160/55 2 5,5 10,1 36,0 6,0 218,9 CA CA 253 FCE 65-160/55 2 5,5 10,1 36,0 68,3 209,9 100T K K 27 7 FCE 65-160/55 2 5,5 10,1 36,0 80,0 189,9 CA CA 283 9 FCE 65-160/55 2 5,5 10,1 2,6 58, 206,9 110T K K 298 51 FCE 65-160/55 2 5,5 10,1 17,9 7,0 210,9 CA CA 310 53 FCE 65-160/55 2 5,5 10,1 17,9 50,9 200,9 120T K K 319 55 FCE 65-160/75 2 7,5 13,7 17,9 5,0 258,9 CA CA 335 58 FCE 65-160/75 2 7,5 13,7 17,9 59,5 23,9 (1) Values refer to rated operating conditions Pf Cooling capacity of unit Q Flow of water to evaporator F.L.I. Power absorbed by pump F.L.A. Current absorbed by pump Ks Kfi Dps Hu Coefficients for calculating pressure drops Unit with hydronic unit without network filter and 3 way valve Coefficients filter for calculating pressure drops Total pressure drop of hydronic group Residual head WORKING HEAD CURVES Hu [kpa] 380 360 30 320 300 280 260 20 220 200 180 160 10 120 100 80 60 0 20 0 G1 F F3 B1 C1 F1 F2 10 12 1 16 18 20 22 2 26 28 30 32 3 36 38 0 2 6 8 50 52 5 56 58 60 62 6 66 68 70 72 7 76 78 80 Q [m 3 /h] 31
HYDRONIC GROUP (OPTIONAL) COLD CIRCUIT - 2 PUMP - LOW HEAD PUMP Pf (1) Q (1) Rif. Type N. F.L.I. F.L.A. Ks Dps Hu Kfi TAGLIA VERSION [kw] [m3/h] Pump Pump Poles [kw] - kpa kpa - 060T K 160 27,5 A1 FCTE 50-160/22 2 2,2 5,0 36, 27,6 152 23,7 CA 16 28,2 A1 FCTE 50-160/22 2 2,2 5,0 36, 29,0 17 23,7 070T K 186 32,0 A1 FCTE 50-160/22 2 2,2 5,0 36, 37,2 119 23,7 CA 191 32,8 A1 FCTE 50-160/22 2 2,2 5,0 36, 39,2 113 23,7 080T K 211 36,3 D1 FCTE 65-125/30 2 3 6,0 3,6 57, 118,9 CA 222 38,3 D1 FCTE 65-125/30 2 3 6,0 3,6 63,8 107,9 090T K 25 2,2 D2 FCTE 65-125/30 2 3 6,0 32,3 57,5 102,9 CA 253 3,6 D2 FCTE 65-125/30 2 3 6,0 32,3 61,3 95,9 100T K 27 7,1 E1 FCTE 65-125/0 2 8,1 32,3 71,8 120,9 CA 283 8,7 E2 FCTE 65-125/0 2 8,1 20,9 9,6 138,9 110T K 298 51,3 E3 FCTE 65-125/0 2 8,1 16,8,1 135,9 CA 310 53,3 E3 FCTE 65-125/0 2 8,1 16,8 7,8 125,9 120T K 319 5,9 E3 FCTE 65-125/0 2 8,1 16,8 50,7 116,9 CA 335 57,7 E3 FCTE 65-125/0 2 8,1 16,8 55,9 101,9 (1) Values refer to rated operating conditions Pf Cooling capacity of unit Q Flow of water to evaporator F.L.I. Power absorbed by pump F.L.A. Current absorbed by pump Ks Kfi Dps Hu Coefficients for calculating pressure drops Unit with hydronic unit without network filter and 3 way valve Coefficients filter for calculating pressure drops Total pressure drop of hydronic group Residual head WORKING HEAD CURVES 20 220 200 180 160 Hu [kpa] 10 120 100 80 60 0 20 A1 D1 D2 E1 E2 E3 0 10 12 1 16 18 20 22 2 26 28 30 32 3 36 38 0 2 6 8 50 52 5 56 58 60 62 6 66 68 70 72 7 Q [m 3 /h] 32
HYDRONIC GROUP (OPTIONAL) COLD CIRCUIT - 2 PUMPS - HIGH HEAD PUMP Pf (1) Q (1) Rif. Type N. F.L.I. F.L.A. Ks Dps Hu Kfi TAGLIA VERSION [kw] [m3/h] Pump Pump Poles [kw] - kpa kpa - 060T K 160 28 B1 FCTE 50-160/30 2 3 6,0 36, 27,6 208 23,7 CA 16 28 B1 FCTE 50-160/30 2 3 6,0 36, 29,0 203 23,7 070T K 186 32 C1 FCTE 50-160/0 2 8,1 36, 37,2 23 23,7 CA 191 33 C1 FCTE 50-160/0 2 8,1 36, 39,2 227 23,7 080T K 211 36 F1 FCTE 65-160/55 2 5,5 10,1 3,6 57, 21,9 CA 222 38 F1 FCTE 65-160/55 2 5,5 10,1 3,6 63,8 230,9 090T K 25 2 F2 FCTE 65-160/55 2 5,5 10,1 32,3 57,5 225,9 CA 253 F2 FCTE 65-160/55 2 5,5 10,1 32,3 61,3 217,9 100T K 27 7 F2 FCTE 65-160/55 2 5,5 10,1 32,3 71,8 197,9 CA 283 9 F3 FCTE 65-160/55 2 5,5 10,1 20,9 9,6 21,9 110T K 298 51 F FCTE 65-160/55 2 5,5 10,1 16,8,1 211,9 CA 310 53 F FCTE 65-160/55 2 5,5 10,1 16,8 7,8 201,9 120T K 319 55 G1 FCTE 65-160/75 2 7,5 13,7 16,8 50,7 27,9 CA 335 58 G1 FCTE 65-160/75 2 7,5 13,7 16,8 55,9 230,9 (1) Values refer to rated operating conditions Pf Cooling capacity of unit Q Flow of water to evaporator F.L.I. Power absorbed by pump F.L.A. Current absorbed by pump Ks Kfi Dps Hu Coefficients for calculating pressure drops Unit with hydronic unit without network filter and 3 way valve Coefficients filter for calculating pressure drops Total pressure drop of hydronic group Residual head WORKING HEAD CURVES Hu [kpa] 380 360 30 320 300 280 260 20 220 200 180 160 10 120 100 80 60 0 20 0 G1 F F3 B1 C1 F1 F2 10 12 1 16 18 20 22 2 26 28 30 32 3 36 38 0 2 6 8 50 52 5 56 58 60 62 6 66 68 70 72 7 76 78 80 Q [m 3 /h] 33
HYDRONIC GROUP (OPTIONAL) COLD CIRCUIT - 2 PUMP - LOW HEAD PUMP WITH WATER TANK Pf (1) Q (1) Rif. Type N. F.L.I. F.L.A. Ks Dps Hu Kfi TAGLIA VERSION [kw] [m3/h] Pump Pump Poles [kw] - kpa kpa - 060T K 160 27,5 A1 FCTE 50-160/22 2 2,2 5,0 0,1 30, 19 23,7 CA 16 28,2 A1 FCTE 50-160/22 2 2,2 5,0 0,1 31,9 1 23,7 070T K 186 32,0 A1 FCTE 50-160/22 2 2,2 5,0 0,1 1,0 115 23,7 CA 191 32,8 A1 FCTE 50-160/22 2 2,2 5,0 0,1 3,2 109 23,7 080T K 211 36,3 D1 FCTE 65-125/30 2 3 6,0 7,3 62,3 113,9 CA 222 38,3 D1 FCTE 65-125/30 2 3 6,0 7,3 69,2 101,9 090T K 25 2,2 D2 FCTE 65-125/30 2 3 6,0 36,0 6,0 96,9 CA 253 3,6 D2 FCTE 65-125/30 2 3 6,0 36,0 68,3 88,9 100T K 27 7,1 E1 FCTE 65-125/0 2 8,1 36,0 80,0 112,9 CA 283 8,7 E2 FCTE 65-125/0 2 8,1 2,6 58, 129,9 110T K 298 51,3 E3 FCTE 65-125/0 2 8,1 17,9 7,0 132,9 CA 310 53,3 E3 FCTE 65-125/0 2 8,1 17,9 50,9 122,9 120T K 319 5,9 E3 FCTE 65-125/0 2 8,1 17,9 5,0 113,9 CA 335 57,7 E3 FCTE 65-125/0 2 8,1 17,9 59,5 97,9 (1) Values refer to rated operating conditions Pf Cooling capacity of unit Q Flow of water to evaporator F.L.I. Power absorbed by pump F.L.A. Current absorbed by pump Ks Kfi Dps Hu Coefficients for calculating pressure drops Unit with hydronic unit without network filter and 3 way valve Coefficients filter for calculating pressure drops Total pressure drop of hydronic group Residual head WORKING HEAD CURVES 20 220 200 180 160 Hu [kpa] 10 120 100 80 60 0 20 A1 D1 D2 E1 E2 E3 0 10 12 1 16 18 20 22 2 26 28 30 32 3 36 38 0 2 6 8 50 52 5 56 58 60 62 6 66 68 70 72 Q [m 3 /h] 3
HYDRONIC GROUP (OPTIONAL) COLD CIRCUIT - 2 PUMP - HIGH HEAD PUMP WITH WATER TANK Pf (1) Q (1) Rif. Type N. F.L.I. F.L.A. Ks Dps Hu Kfi TAGLIA VERSION [kw] [m3/h] Pump Pump Poles [kw] - kpa kpa - 060T K 160 27,5 B1 FCTE 50-160/30 2 3 6,0 0,1 30, 205 23,7 CA 16 28,2 B1 FCTE 50-160/30 2 3 6,0 0,1 31,9 201 23,7 070T K 186 32,0 C1 FCTE 50-160/0 2 8,1 0,1 1,0 230 23,7 CA 191 32,8 C1 FCTE 50-160/0 2 8,1 0,1 3,2 223 23,7 080T K 211 36,3 F1 FCTE 65-160/55 2 5,5 10,1 7,3 62,3 236,9 CA 222 38,3 F1 FCTE 65-160/55 2 5,5 10,1 7,3 69,2 22,9 090T K 25 2,2 F2 FCTE 65-160/55 2 5,5 10,1 36,0 6,0 218,9 CA 253 3,6 F2 FCTE 65-160/55 2 5,5 10,1 36,0 68,3 210,9 100T K 27 7,1 F2 FCTE 65-160/55 2 5,5 10,1 36,0 80,0 189,9 CA 283 8,7 F3 FCTE 65-160/55 2 5,5 10,1 2,6 58, 206,9 110T K 298 51,3 F FCTE 65-160/55 2 5,5 10,1 17,9 7,0 208,9 CA 310 53,3 F FCTE 65-160/55 2 5,5 10,1 17,9 50,9 198,9 120T K 319 5,9 G1 FCTE 65-160/75 2 7,5 13,7 17,9 5,0 23,9 CA 335 57,7 G1 FCTE 65-160/75 2 7,5 13,7 17,9 59,5 226,9 (1) Values refer to rated operating conditions Pf Cooling capacity of unit Q Flow of water to evaporator F.L.I. Power absorbed by pump F.L.A. Current absorbed by pump Ks Kfi Dps Hu Coefficients for calculating pressure drops Unit with hydronic unit without network filter and 3 way valve Coefficients filter for calculating pressure drops Total pressure drop of hydronic group Residual head WORKING HEAD CURVES Hu [kpa] 380 360 30 320 300 280 260 20 220 200 180 160 10 120 100 80 60 0 20 0 G1 F B1 C1 F1 F2 F3 10 12 1 16 18 20 22 2 26 28 30 32 3 36 38 0 2 6 8 50 52 5 56 58 60 62 6 66 68 70 72 7 76 78 80 Q [m 3 /h] 35
16. ELECTRICAL DATA 16.1 /CA Electrical data Maximum values SIZE Compressor Fans (1) Total (1) (2) n F.L.I. [kw] F.L.A. L.R.A. F.L.I. [kw] F.L.A. F.L.I..I. [kw] F.L.A. S.A. 060T 070T 080T 090T 100T 110T 120T x17.2 x29.2 2 x197 2,1 77 7 133 3 301 2x17.3+2x23.8 2x30.5+2x39.8 2x160+2x215 2,1 90 157 332 x23.8 x39.8 x215 2,1 107 18 359 2x23.8+2x30 2x39.8+2x51.2 2 2x215+2x260 2,1 120 207 15 x30 x51.2 x260 2,1 132 229 38 2x30+2x35.3 2x51.2+2x57.9 2x260+2x320 2,1 17 251 513 x35.3 x57.9 x320 2,1 157 26 527 16.2 /K Electrical data Maximum values SIZE Compressor Fans (1) Total (1) (2) n F.L.I. [kw] F.L.A. L.R.A. F.L.I. [kw] F.L.A. F.L.I. [kw] F.L.A. S.A. 060T 070T 080T 090T 100T 110T 120T x17.2 x29.2 2 x197 2,1 77 7 133 3 301 2x17.3+2x23.8 2x30.5+2x39.8 2x160+2x215 2,1 90 157 332 x23.8 x39.8 x215 2,1 103 176 351 2x23.8+2x30 2x39.8+2x51.2 2 2x215+2x260 2,1 120 207 15 x30 x51.2 x260 2,1 132 229 38 2x30+2x35.3 2x51.2+2x57.9 2x260+2x320 2,1 13 23 505 x35.3 x57.9 x320 2,1 153 256 518 16.3 /LN-CA Electrical data Maximum values SIZE Compressor Fans (1) Total (1) (2) n F.L.I. [kw] F.L.A. L.R.A. F.L.I. [kw] F.L.A. F.L.I. [kw] F.L.A. S.A. 060T 070T 080T 090T 100T 110T 120T x17.2 x29.2 2 x197 0,93 2,3 73 126 29 2x17.3+2x23.8 2x30.5+2x39.8 2x160+2x215 0,93 2,3 88 8 15 330 x23.8 x39.8 x215 0,93 2,3 101 1 173 38 2x23.8+2x30 2x39.8+2x51.2 2 2x215+2x260 0,93 2,3 115 1 200 0 09 x30 x51.2 x260 0,93 2,3 127 223 32 2x30+2x35.3 2x51.2+2x57.9 2x260+2x320 0,93 2,3 138 237 99 x35.3 x57.9 x320 0,93 2,3 151 1 255 5 517 F.L.I.: Full load power F.L.A.: Full load current L.R.A.: Locked rotor amperes for single compressor S.A.: Inrush current (1) (2) Safety values to be considered when cabling the unit for power supply and line-protections (1) Values calculated referring to the version with the maximum number of fans working at the max absorbed current Power supply: 00/3/50 Voltage tolerance: 10% Maximum voltage unbalance: 3% Give the typical operating conditions of units designed for outdoor installation, which can be associated (according to reference document IEC 60721) to the following classes: - climatic conditions class KH: air temperature range from -20 up to 55 C (*), relative humidity range from up to 100%, with possible precipitations, at airpressure from 70 and 106 kpa and a maximum solar radiation of 1120 W/m 2 - special climatic conditions negligible - biological conditions class B1 and C2: locations in a generic urban area - mechanically active substances class S2: locations in areas with sand or dust representative of urban areas - mechanical conditions class M1: locations protected from significant vibrations or shocks The required protection level for safe operation, according to reference document IEC 60529, is IP3XW (protection against access, to the most critical unit's parts, of external devices with diameter larger than 1 mm and rain). The unit can be considered IPXW protected, i.e. protected against access of external devices (with diameter larger than 1 mm) and water in general. (*) for the unit s operating limits, see selection limits section 36
16. /LN-K Electrical data Maximum values SIZE Compressor Fans (1) Total (1) (2) n F.L.I. [kw] F.L.A. L.R.A. F.L.I. [kw] F.L.A. F.L.I. [kw] F.L.A. S.A. 060T 070T 080T 090T 100T 110T 120T x17.2 x29.2 2 x197 2,1 77 7 133 3 301 2x17.3+2x23.8 2x30.5+2x39.8 2x160+2x215 2,1 90 157 332 x23.8 x39.8 x215 2,1 103 176 351 2x23.8+2x30 2x39.8+2x51.2 2 2x215+2x260 2,1 120 207 15 x30 x51.2 x260 2,1 132 229 38 2x30+2x35.3 2x51.2+2x57.9 2x260+2x320 2,1 13 23 505 x35.3 x57.9 x320 2,1 153 256 518 16.5 /SL-CA Electrical data Maximum values SIZE Compressor Fans (1) Total (1) (2) n F.L.I. [kw] F.L.A. L.R.A. F.L.I. [kw] F.L.A.. F.L.I. [kw] F.L.A. S.A. 060T 070T 080T 090T 100T 110T 120T x17.2 x29.2 2 x197 0,93 2,3 7 131 1 298 2x17.3+2x23.8 2x30.5+2x39.8 2x160+2x215 0,93 2,3 88 8 15 330 x23.8 x39.8 x215 0,93 2,3 103 178 353 2x23.8+2x30 2x39.8+2x51.2 2 2x215+2x260 0,93 2,3 115 1 200 0 09 x30 x51.2 x260 0,93 2,3 127 223 32 2x30+2x35.3 2x51.2+2x57.9 2x260+2x320 0,93 2,3 138 237 99 x35.3 x57.9 x320 0,93 2,3 151 1 255 5 517 16.6 /SL-K Electrical data Maximum values SIZE Compressor Fans (1) Total (1) (2) n F.L.I. [kw] F.L.A. L.R.A. F.L.I. [kw] F.L.A. F.L.I. [kw] F.L.A. S.A. 060T 070T 080T 090T 100T 110T 120T x17.2 x29.2 2 x197 1,2,1 7 133 3 301 2x17.3+2x23.8 2x30.5+2x39.8 2x160+2x215 1,2,1 89 165 30 x23.8 x39.8 x215 1,2,1 102 18 359 2x23.8+2x30 2x39.8+2x51.2 2 2x215+2x260 1,2,1 115 1 207 15 x30 x51.2 x260 1,2,1 127 229 38 2x30+2x35.3 2x51.2+2x57.9 2x260+2x320 1,2,1 10 251 513 x35.3 x57.9 x320 1,2,1 151 1 26 527 F.L.I.: Full load power F.L.A.: Full load current L.R.A.: Locked rotor amperes for single compressor S.A.: Inrush current (1) (2) Safety values to be considered when cabling the unit for power supply and line-protections (1) Values calculated referring to the version with the maximum number of fans working at the max absorbed current Power supply: 00/3/50 Voltage tolerance: 10% Maximum voltage unbalance: 3% Give the typical operating conditions of units designed for outdoor installation, which can be associated (according to reference document IEC 60721) to the following classes: - climatic conditions class KH: air temperature range from -20 up to 55 C (*), relative humidity range from up to 100%, with possible precipitations, at airpressure from 70 and 106 kpa and a maximum solar radiation of 1120 W/m 2 - special climatic conditions negligible - biological conditions class B1 and C2: locations in a generic urban area - mechanically active substances class S2: locations in areas with sand or dust representative of urban areas - mechanical conditions class M1: locations protected from significant vibrations or shocks The required protection level for safe operation, according to reference document IEC 60529, is IP3XW (protection against access, to the most critical unit's parts, of external devices with diameter larger than 1 mm and rain). The unit can be considered IPXW protected, i.e. protected against access of external devices (with diameter larger than 1 mm) and water in general. (*) for the unit s operating limits, see selection limits section 37
17. FULL LOAD SOUND LEVEL 17.1 /CA Full load sound level SIZE 060T 070T 080T 090T 100T 110T 120T SOUND POWER Octave band [Hz] Total sound 63 125 250 500 1000 2000 000 8000 0 level el Sound power level db db(a) 95 9 91 89 88 8 83 77 7 72 92 95 9 91 89 88 8 83 77 7 72 92 97 96 93 91 90 85 79 7 9 97 96 93 91 90 85 79 7 9 98 97 9 92 91 86 80 75 95 100 99 9 96 9 93 88 8 82 76 97 100 99 9 96 9 93 88 8 82 76 97 Working conditions Plant (side) cooling exchanger water (in/out) 12/7 C Source (side) heat exchanger air (in) 35 C Sound power on the basis of measurements made in compliance with ISO 961 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 37 for non-certified units Such certification refers specifically to the sound Power Level in db(a). This is therefore the only acoustic data to be considered as binding. SIZE 060T 070T 080T 090T 100T 110T 120T SOUND PRESSURE LEVEL Octave band [Hz] at 10 m Total sound 63 125 250 500 1000 2000 000 8000 0 level el db(a) Sound pressure level db 63 62 59 57 56 51 5 0 60 63 62 59 57 56 51 5 0 60 65 6 61 59 58 53 7 2 62 65 6 61 59 58 53 7 2 62 66 65 62 60 59 5 8 3 63 68 67 6 62 61 56 50 65 68 67 6 62 61 56 50 65 Working conditions Plant (side) cooling exchanger water (in/out) 12/7 C Source (side) heat exchanger air (in) 35 C Average sound pressure level, at 10 (m.) distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level. 38
17.2 /K Full load sound level SIZE 060T 070T 080T 090T 100T 110T 120T SOUND POWER Octave band [Hz] Total sound 63 125 250 500 1000 2000 000 8000 0 level el Sound power level db db(a) 95 9 91 89 88 8 83 77 7 72 92 95 9 91 89 88 8 83 77 7 72 92 96 95 92 90 89 8 78 73 93 97 96 93 91 90 85 79 7 9 98 97 9 92 91 86 80 75 95 98 97 9 92 91 86 80 75 95 98 97 9 92 91 86 80 75 95 Working conditions Plant (side) cooling exchanger water (in/out) 12/7 C Source (side) heat exchanger air (in) 35 C Sound power on the basis of measurements made in compliance with ISO 961 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 37 for non-certified units Such certification refers specifically to the sound Power Level in db(a). This is therefore the only acoustic data to be considered as binding. SIZE 060T 070T 080T 090T 100T 110T 120T SOUND PRESSURE LEVEL Octave band [Hz] at 10 m Total sound 63 125 250 500 1000 2000 000 8000 0 level el db(a) Sound pressure level db 63 62 59 57 56 51 5 0 60 63 62 59 57 56 51 5 0 60 6 63 60 58 57 52 6 1 61 65 6 61 59 58 53 7 2 62 66 65 62 60 59 5 8 3 63 66 65 62 60 59 5 8 3 63 66 65 62 60 59 5 8 3 63 Working conditions Plant (side) cooling exchanger water (in/out) 12/7 C Source (side) heat exchanger air (in) 35 C Average sound pressure level, at 10 (m.) distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level. 39
17.3 /LN-CA Full load sound level SIZE 060T 070T 080T 090T 100T 110T 120T SOUND POWER Octave band [Hz] Total sound 63 125 250 500 1000 2000 000 8000 0 level el Sound power level db db(a) 88 87 86 8 81 76 69 63 86 89 88 8 87 85 82 77 7 70 6 87 90 89 88 8 86 83 78 71 65 88 8 91 90 89 87 8 79 72 66 6 89 92 91 90 88 8 85 80 73 67 90 92 91 90 88 8 85 80 73 67 90 93 92 91 89 86 81 7 68 91 Working conditions Plant (side) cooling exchanger water (in/out) 12/7 C Source (side) heat exchanger air (in) 35 C Sound power on the basis of measurements made in compliance with ISO 961 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 37 for non-certified units Such certification refers specifically to the sound Power Level in db(a). This is therefore the only acoustic data to be considered as binding. SIZE 060T 070T 080T 090T 100T 110T 120T SOUND PRESSURE LEVEL Octave band [Hz] at 10 m Total sound 63 125 250 500 1000 2000 000 8000 0 level el db(a) Sound pressure level db 56 55 5 5 52 9 37 31 5 57 56 55 5 53 50 5 38 32 55 5 58 57 56 5 51 6 39 33 3 56 59 58 57 55 5 52 7 0 3 57 60 59 58 56 53 8 1 35 58 60 59 58 56 53 8 1 35 58 61 60 59 57 5 9 2 36 59 Working conditions Plant (side) cooling exchanger water (in/out) 12/7 C Source (side) heat exchanger air (in) 35 C Average sound pressure level, at 10 (m.) distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level. 0
17. /LN-K Full load sound level SIZE 060T 070T 080T 090T 100T 110T 120T SOUND POWER Octave band [Hz] Total sound 63 125 250 500 1000 2000 000 8000 0 level el Sound power level db db(a) 88 87 86 8 81 76 69 63 86 88 87 86 8 81 76 69 63 86 89 88 8 87 85 82 77 7 70 6 87 90 89 88 8 86 83 78 71 65 88 8 91 90 89 87 8 79 72 66 6 89 92 91 90 88 8 85 80 73 67 90 92 91 90 88 8 85 80 73 67 90 Working conditions Plant (side) cooling exchanger water (in/out) 12/7 C Source (side) heat exchanger air (in) 35 C Sound power on the basis of measurements made in compliance with ISO 961 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 37 for non-certified units Such certification refers specifically to the sound Power Level in db(a). This is therefore the only acoustic data to be considered as binding. SIZE 060T 070T 080T 090T 100T 110T 120T SOUND PRESSURE LEVEL Octave band [Hz] at 10 m Total sound 63 125 250 500 1000 2000 000 8000 0 level el db(a) Sound pressure level db 56 55 5 5 52 9 37 31 5 56 55 5 5 52 9 37 31 5 57 56 55 5 53 50 5 38 32 55 5 58 57 56 5 51 6 39 33 3 56 59 58 57 55 5 52 7 0 3 57 60 59 58 56 53 8 1 35 58 60 59 58 56 53 8 1 35 58 Working conditions Plant (side) cooling exchanger water (in/out) 12/7 C Source (side) heat exchanger air (in) 35 C Average sound pressure level, at 10 (m.) distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level. 1
17.5 /SL-CA Full load sound level SIZE 060T 070T 080T 090T 100T 110T 120T SOUND POWER Octave band [Hz] Total sound 63 125 250 500 1000 2000 000 8000 0 level el Sound power level db db(a) 85 8 83 81 78 73 66 6 60 83 85 8 83 81 78 73 66 6 60 83 86 85 8 82 79 7 67 61 8 87 86 85 83 80 75 68 62 85 88 87 86 8 81 76 69 63 86 89 88 8 87 85 82 77 7 70 6 87 90 89 88 8 86 83 78 71 65 88 8 Working conditions Plant (side) cooling exchanger water (in/out) 12/7 C Source (side) heat exchanger air (in) 35 C Sound power on the basis of measurements made in compliance with ISO 961 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 37 for non-certified units Such certification refers specifically to the sound Power Level in db(a). This is therefore the only acoustic data to be considered as binding. SIZE 060T 070T 080T 090T 100T 110T 120T SOUND PRESSURE LEVEL Octave band [Hz] at 10 m Total sound 63 125 250 500 1000 2000 000 8000 0 level el db(a) Sound pressure level db 53 52 51 9 6 1 3 28 51 53 52 51 9 6 1 3 28 51 5 53 52 50 7 2 35 29 52 55 5 53 51 8 3 36 30 53 56 55 5 5 52 9 37 31 5 57 56 55 5 53 50 5 38 32 55 5 58 57 56 5 51 6 39 33 3 56 Working conditions Plant (side) cooling exchanger water (in/out) 12/7 C Source (side) heat exchanger air (in) 35 C Average sound pressure level, at 10 (m.) distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level. 2
17.6 /SL-K Full load sound level SIZE 060T 070T 080T 090T 100T 110T 120T SOUND POWER Octave band [Hz] Total sound 63 125 250 500 1000 2000 000 8000 0 level el Sound power level db db(a) 8 83 82 80 77 7 72 65 59 82 85 8 83 81 78 73 66 6 60 83 85 8 83 81 78 73 66 6 60 83 86 85 8 82 79 7 67 61 8 87 86 85 83 80 75 68 62 85 88 87 86 8 81 76 69 63 86 89 88 8 87 85 82 77 7 70 6 87 Working conditions Plant (side) cooling exchanger water (in/out) 12/7 C Source (side) heat exchanger air (in) 35 C Sound power on the basis of measurements made in compliance with ISO 961 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 37 for non-certified units Such certification refers specifically to the sound Power Level in db(a). This is therefore the only acoustic data to be considered as binding. SIZE 060T 070T 080T 090T 100T 110T 120T SOUND PRESSURE LEVEL Octave band [Hz] at 10 m Total sound 63 125 250 500 1000 2000 000 8000 0 level el db(a) Sound pressure level db 52 51 50 8 5 0 33 3 27 50 53 52 51 9 6 1 3 28 51 53 52 51 9 6 1 3 28 51 5 53 52 50 7 2 35 29 52 55 5 53 51 8 3 36 30 53 56 55 5 5 52 9 37 31 5 57 56 55 5 53 50 5 38 32 55 5 Working conditions Plant (side) cooling exchanger water (in/out) 12/7 C Source (side) heat exchanger air (in) 35 C Average sound pressure level, at 10 (m.) distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level. 3
18. DIMENSIONAL DRAWINGS - ENTRATA ARIA - AIR INLET - USCITA ARIA - AIR OUTLET - BARICENTRO - CENTER OF GRAVITY 1 - ENTRATA ACQUA EVAPORATORE - EVAPORATOR WATER INLET 2 - USCITA ACQUA EVAPORATORE - EVAPORATOR WATER OUTLET 3 - INGRESSO LINEA ELETTRICA - POWER INLET Solo per versione /D Only for /D version - ENTRATA ACQUA DESURRISCALDATORI - DESUPERHEATERS WATER INLET 5 - USCITA ACQUA DESURRISCALDATORI - DESUPERHEATERS WATER OUTLET 5 R3 SOLLEVAMENTO LIFTING C1 C2 C3 C 1 5 2 3 A B BASE D'APPOGGIO -SUPPORTING BASEMENT SPAZIO DI RISPETTO MINIMUM CLEARANCE SPAZIO DI RISPETTO MINIMUM CLEARANCE R R1 R2 H CON 1-2 POMPE / CON POMPE e ACCUMULO WITH 1-2 PUMPS / WITH PUMPS and STORAGE TANK SENZA KIT IDRONICO WITHOUT HYDRONIC KIT 2 1 5 1 2-5 1 2
DIMENSIONS AND WEIGTH CLEARANCE PLANT SIDE COLD AUXILIARY SIDE HEAT EXCHANGER HEAT EXCHANGER SIZE A B H WEIGHT R1 R2 R3 R IN/OUT IN/OUT [mm] [mm] [mm] [kg] [mm] [mm] [mm] [mm] TYPE Ø TYPE Ø /CA 060T 110 2220 2150 2160 2000 2000 1100 2000 VICTAULIC 3" - - /CA 070T 110 2220 2150 210 2000 2000 1100 2000 VICTAULIC 3" - - /CA 080T 5110 2220 2150 2690 2000 2000 1100 2000 VICTAULIC 3" - - /CA 090T 5110 2220 2150 2810 2000 2000 1100 2000 VICTAULIC 3" - - /CA 100T 5110 2220 2150 3070 2000 2000 1100 2000 VICTAULIC " - - /CA 110T 6110 2220 2150 3510 2000 2000 1100 2000 VICTAULIC " - - /CA 120T 6110 2220 2150 350 2000 2000 1100 2000 VICTAULIC " - - /K 060T 3110 2220 2150 1780 2000 2000 1100 2000 VICTAULIC 3" - - /K 070T 110 2220 2150 2270 2000 2000 1100 2000 VICTAULIC 3" - - /K 080T 110 2220 2150 200 2000 2000 1100 2000 VICTAULIC 3" - - /K 090T 110 2220 2150 2620 2000 2000 1100 2000 VICTAULIC 3" - - /K 100T 110 2220 2150 2720 2000 2000 1100 2000 VICTAULIC 3" - - /K 110T 5110 2220 2150 3070 2000 2000 1100 2000 VICTAULIC " - - /K 120T 5110 2220 2150 3120 2000 2000 1100 2000 VICTAULIC " - - /LN-CA 060T 110 2220 2150 2160 2000 2000 1100 2000 VICTAULIC 3" - - /LN-CA 070T 110 2220 2150 2500 2000 2000 1100 2000 VICTAULIC 3" - - /LN-CA 080T 5110 2220 2150 2690 2000 2000 1100 2000 VICTAULIC 3" - - /LN-CA 090T 5110 2220 2150 2900 2000 2000 1100 2000 VICTAULIC 3" - - /LN-CA 100T 5110 2220 2150 3160 2000 2000 1100 2000 VICTAULIC " - - /LN-CA 110T 6110 2220 2150 390 2000 2000 1100 2000 VICTAULIC " - - /LN-CA 120T 6110 2220 2150 3590 2000 2000 1100 2000 VICTAULIC " - - /LN-K 060T 3110 2220 2150 1830 2000 2000 1100 2000 VICTAULIC 3" - - /LN-K 070T 110 2220 2150 2320 2000 2000 1100 2000 VICTAULIC 3" - - /LN-K 080T 110 2220 2150 250 2000 2000 1100 2000 VICTAULIC 3" - - /LN-K 090T 110 2220 2150 2670 2000 2000 1100 2000 VICTAULIC 3" - - /LN-K 100T 110 2220 2150 2770 2000 2000 1100 2000 VICTAULIC 3" - - /LN-K 110T 5110 2220 2150 3120 2000 2000 1100 2000 VICTAULIC " - - /LN-K 120T 5110 2220 2150 3160 2000 2000 1100 2000 VICTAULIC " - - /SL-CA 060T 110 2220 2150 2250 2000 2000 1100 2000 VICTAULIC 3" - - /SL-CA 070T 110 2220 2150 2500 2000 2000 1100 2000 VICTAULIC 3" - - /SL-CA 080T 5110 2220 2150 2790 2000 2000 1100 2000 VICTAULIC 3" - - /SL-CA 090T 5110 2220 2150 2900 2000 2000 1100 2000 VICTAULIC 3" - - /SL-CA 100T 6110 2220 2150 320 2000 2000 1100 2000 VICTAULIC " - - /SL-CA 110T 6110 2220 2150 390 2000 2000 1100 2000 VICTAULIC " - - /SL-CA 120T 6110 2220 2150 3590 2000 2000 1100 2000 VICTAULIC " - - /SL-K 060T 3110 2220 2150 1830 2000 2000 1100 2000 VICTAULIC 3" - - /SL-K 070T 110 2220 2150 210 2000 2000 1100 2000 VICTAULIC 3" - - /SL-K 080T 110 2220 2150 250 2000 2000 1100 2000 VICTAULIC 3" - - /SL-K 090T 5110 2220 2150 2810 2000 2000 1100 2000 VICTAULIC 3" - - /SL-K 100T 5110 2220 2150 2900 2000 2000 1100 2000 VICTAULIC 3" - - /SL-K 110T 5110 2220 2150 320 2000 2000 1100 2000 VICTAULIC " - - /SL-K 120T 5110 2220 2150 3280 2000 2000 1100 2000 VICTAULIC " - - /D /CA 060T 110 2220 2150 2160 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /CA 070T 110 2220 2150 210 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /CA 080T 5110 2220 2150 2690 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /CA 090T 5110 2220 2150 2810 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /CA 100T 5110 2220 2150 3070 2000 2000 1100 2000 VICTAULIC " VICTAULIC 1" 1/2 /D /CA 110T 6110 2220 2150 3510 2000 2000 1100 2000 VICTAULIC " VICTAULIC 1" 1/2 /D /CA 120T 6110 2220 2150 350 2000 2000 1100 2000 VICTAULIC " VICTAULIC 1" 1/2 /D /K 060T 3110 2220 2150 1780 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /K 070T 110 2220 2150 2270 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /K 080T 110 2220 2150 200 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /K 090T 110 2220 2150 2620 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /K 100T 110 2220 2150 2720 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /K 110T 5110 2220 2150 3070 2000 2000 1100 2000 VICTAULIC " VICTAULIC 1" 1/2 /D /K 120T 5110 2220 2150 3120 2000 2000 1100 2000 VICTAULIC " VICTAULIC 1" 1/2 /D /LN-CA 060T 110 2220 2150 2160 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /LN-CA 070T 110 2220 2150 2500 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /LN-CA 080T 5110 2220 2150 2690 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /LN-CA 090T 5110 2220 2150 2900 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /LN-CA 100T 5110 2220 2150 3160 2000 2000 1100 2000 VICTAULIC " VICTAULIC 1" 1/2 /D /LN-CA 110T 6110 2220 2150 390 2000 2000 1100 2000 VICTAULIC " VICTAULIC 1" 1/2 /D /LN-CA 120T 6110 2220 2150 3590 2000 2000 1100 2000 VICTAULIC " VICTAULIC 1" 1/2 /D /LN-K 060T 3110 2220 2150 1830 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /LN-K 070T 110 2220 2150 2320 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /LN-K 080T 110 2220 2150 250 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /LN-K 090T 110 2220 2150 2670 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /LN-K 100T 110 2220 2150 2770 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /LN-K 110T 5110 2220 2150 3120 2000 2000 1100 2000 VICTAULIC " VICTAULIC 1" 1/2 /D /LN-K 120T 5110 2220 2150 3160 2000 2000 1100 2000 VICTAULIC " VICTAULIC 1" 1/2 /D /SL-CA 060T 110 2220 2150 2250 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /SL-CA 070T 110 2220 2150 2500 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /SL-CA 080T 5110 2220 2150 2790 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /SL-CA 090T 5110 2220 2150 2900 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /SL-CA 100T 6110 2220 2150 320 2000 2000 1100 2000 VICTAULIC " VICTAULIC 1" 1/2 /D /SL-CA 110T 6110 2220 2150 390 2000 2000 1100 2000 VICTAULIC " VICTAULIC 1" 1/2 /D /SL-CA 120T 6110 2220 2150 3590 2000 2000 1100 2000 VICTAULIC " VICTAULIC 1" 1/2 /D /SL-K 060T 3110 2220 2150 1830 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /SL-K 070T 110 2220 2150 210 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /SL-K 080T 110 2220 2150 250 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /SL-K 090T 5110 2220 2150 2810 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /SL-K 100T 5110 2220 2150 2900 2000 2000 1100 2000 VICTAULIC 3" VICTAULIC 1" 1/2 /D /SL-K 110T 5110 2220 2150 320 2000 2000 1100 2000 VICTAULIC " VICTAULIC 1" 1/2 /D /SL-K 120T 5110 2220 2150 3280 2000 2000 1100 2000 VICTAULIC " VICTAULIC 1" 1/2 5
VICTAULIC fittings complete with threaded male stubs on the system side of the cooling heat exchanger and auxiliary heat exchanger (see the drawing showing composition of the fittings kit). 6
LEGEND OF PIPE CONNECTIONS UNI ISO 228/1 Pipe threads where pressure-tight e- joints are not made on the threads - Designation, dimensions and tolerances Used terminology: G: Pipe threads where pressure-tight joints are not made on the threads A: Close tolerance class for external pipe threads where pressure-tight joints are not made on the threads B: Wider tolerance class for external pipe threads where pressure-tight joints are not made on the threads Internal threads: G letter followed o by thread mark (only tolerance class) External threads: G letter followed owed by thread mark and by A letter for A class external threads or by B letter for B class external threads. UNI ISO 7/1 Pipe threads where pressure-tight e- joints are made on the threads - Designation, dimensions and tolerances Used terminology: Rp: Internal cylindrical threads where pressure-tight joints are made on the threads Rc: Internal conical threads where pressure-tight joints are made on the threads R: External conical threads where pressure-tight e joints are made on the threads Internal cylindrical threads: R letter followed by p letter Internal conical threads: R letter t followed by c letter External conical threads: R letter Designation UNI ISO 7/1 - Rp 1 1/2 UNI ISO 7/1 - Rp 2 1/2 UNI ISO 7/1 - Rp 3 UNI ISO 7/1 - R 3 UNI ISO 228/1 - G B DN 80 PN 16 Description Internal cylindrical threads where pressure-tight joints are made on the threads, defined by standard UNI ISO 7/1 Conventional ø 1 1/2 Internal cylindrical threads where pressure-tight joints are made on the threads, defined by standard UNI ISO 7/1 Conventional ø 2 1/2 Internal cylindrical threads where pressure-tight joints are made on the threads, defined by standard UNI ISO 7/1 Conventional ø 3 External conical threads where pressure-tight sure joints are made on the threads, defined by standard UNI ISO 7/1 Conventional ø 3 Internal cylindrical threads where pressure-tight joints are not made on the threads, defined by standard UNI ISO 228/1 28/ Tolerance class B for external thread Conventional ø Flange Nominal Diameter: 80 mm Nominal Pressure: 16 bar Notes: Conventional diameter value [in inches] identifies short thread designation, based upon the relative standard. All relative values are defined d by standards. As example, here below some values: Conventional ø Pitch External ø UNI ISO 7/1 UNI ISO 228/1 1" 1" 2.309 mm 2.309 mm 33.29 mm 33.29 mm Core ø Thread height 30.291 mm 1.79 mm 30.291 mm 1.79 mm 7
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