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Close Control Units

Close Control Units. Close Control Units Amico. AMICO. CW. DX. LEONARDO. CW. DX. LEONARDO MAX. CW. DX. 20. 120. 130. 140. 150. 160. 5. 10. 30. 40. 50. 60. 70. 80. 90. 100. 110. Amico Range. DX units nominal cooling power: room conditions 24°C / 50% RH

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Close Control Units

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  1. Close Control Units

  2. Close Control Units Amico

  3. AMICO CW DX LEONARDO CW DX LEONARDO MAX CW DX 20 120 130 140 150 160 5 10 30 40 50 60 70 80 90 100 110 Amico Range DX units nominal cooling power: • room conditions 24°C / 50% RH • refrigerant R407C • condensing temp. 48°C (air-cooled) • water temp. in/out 26/31°C (water- cooled) CW units nominal cooling power: • room conditions 24°C / 50% RH • chilled water temp. 7/12 °C CW: chilled water units DX : direct expansion units

  4. Air flow configuration Down-flow with upper or frontal suction Up-flow with rear or bottom suction Up-flow

  5. Full front access Every component can bereplaced directly fromthe front.

  6. Compactness Small depth (450 mm) *minimum space for maintenance With fresh air filter connection

  7. Frame and panels Frontal and Rear panel painted with RAL7037 epoxy-polyester paint All panel lined with dust and fibre free self-extinguishing thermoacustic isolation Double front panels to allow the access inside the unit also during its functioning.

  8. Electrical panel • housed in a compartment isolated from air flow • easy access • quickly control replacement

  9. Fan section • centrifugal double inlet fan • forward curved blades • direct driven • galvanised steel • manual adjustable air flow rate according to environmental factors • low airflow alarm differential pressure switch • N.B.: minimum speed set automatically during the dehumidification cycle • as an option: High head pressure fans for ducted applications (up to 150Pa)

  10. Direct expansion S*A • Air-cooled • Water-cooled • Upflow / Downflow • Scroll compressor • Centrifugal fan(s) • R407C (R22 on request) Versions: • cooling only: C • cooling and electrical heating: T • cooling and humidification: D • cooling, electrical heating and humidification: H S*W SUA-SUW / SDW-SDW

  11. Direct expansion Refrigerant circuit • scroll compressor • liquid receiver • filter dryer • liquid sight glass • thermostatic expansion valve • high (manual reset) and low pressure switches

  12. Direct expansion Refrigerant circuit Air cooled Water cooled external condenser stainless steel brazed plate type condenser

  13. Chilled water SDC • downflow • upflow • 3 way modulating valve (2 way as option) • centrifugal fan(s) Versions: • cooling only: C • cooling and electrical heating: T • cooling and humidification: D • cooling, electrical heating and humidification: H SUC

  14. Electrical reheat • aluminium fins elements • safety thermostat with manual resetting to prevent overheating (alarm event) • capacity up to 6 kW (according to the model) in one stage as standard • enhanced capacity in three stages on request HOT WATER REHEAT (*) HOT GAS REHEAT (*) • 2 way modulating valve • energy saving • 1 row coil with copper tube and aluminium fins • downstream the cooling coil (*) available also in addition with standard electric reheat

  15. Close Control Units Amico

  16. Precision & Reliability • Precision & Reliability • Constant Temperature & Humidity • Total Reliability • Active & Passive safety

  17. Energy Efficiency • ScrollCompressors • Backward Curved Fan with Asynchronous motor (traditional) • Backward Curved Fanwith technology EC ( brushless) • Electronic Expansion Valve integrated with Uniflair control

  18. Energy Efficiency • Energy Saving versions, to exploit for the most possible time the ability to provide Free Cooling energy • Versions with Tandem compressors to increase units efficiency at partial loads • Optimisation of Air Flow configuration of the units to reduce pressure drop

  19. Energy Efficiency SHR close to 1 and Net Sensible Capacity are distinctive parameters of Leonardo Evolution in comparison with our competitors. Sensible Heat Ratio The primary objective of Precision Air Conditioning must be to dissipate the real heat load in the space. Any unwanted latent cooling (dehumidification) provides no useful service to the equipment being cooled and is a considerable waste of energy.

  20. Energy Efficiency SHR close to 1 and Net Sensible Capacity are distinctive parameters of Leonardo Evolution in comparison with our competitors. Net Sensible Capacity Leonardo Evolution has been developed to optimise the real contributions to the equipment cooling capacity, that is represented by Net Sensible Capacity, getting as Sensible Capacity – fan power absorption.

  21. VersatileConfigurations Leonardo Evolution secure an highly configurations versatility: Two different fan configurations with backward curved fan, with standard or EC technology A range of filter types and grades Different acoustic linings for the panels Versions available with one or two independent refrigerant circuits Service clearance cut to the minimum Frontal access for all components

  22. VersatileConfigurations Air Flow Configurations – Upflow Units

  23. VersatileConfigurations Air Flow Configurations – Downflow Units

  24. Precision Air Conditioning 70 – 110 kW (Direct Expansion) 90 – 165 kW (Chilled Water)

  25. Leonardo Max – Range Extension Leonardo Max is developed to extend and apply to the higher part of Uniflair Precision air conditioning range the top class standard features of Leonardo.

  26. Leonardo Max – Targets • Extend Leonardo range standard features • Compatibility with High Density Cooling Solutions • High energy efficiency in each running condition • Compact Dimensions • Innovative Solutions • Maximum Quality • Maximum reliability • Minimum maintenance

  27. Energy Efficiency • Scroll Compressors in tandem configuration • Backward Curved Fan with Asynchronous motor (traditional) • Backward Curved Fanwith EC technology • Electronic Expansion Valve integrated with Uniflair control • R410A refrigerant available as an option on T*A* models

  28. Versatile Configurations • Leonardo Max secure an highlyconfigurations versatility: • Two different configurations of backward curved fan, with standard or EC technology • A wide range of filter types and grades • Different acoustic linings for the panels • Versions available with one or two compressors each refrigerant circuit • Service clearance cut to the minimum • Frontal access for all components

  29. Versatile Configurations

  30. Leonardo Max – Chilled Water Range

  31. Compact Dimensions – Chilled Water TDC*-TUC*2700: 2170 x 865 x 1960(h) mm TDC*-TUC*3400-4000: 2580 x 865 x 1960(h) mm TDC*-4300 High Efficiency: 2580 x 865 x 2170(h) mm

  32. Leonardo Max – Chilled Water Backward Curved Fan with Asynchronous motor or by Electronic Commutation Possibility of fan speed adjustment depending on External Static Pressure demand and air flow Orifice Plate for balancing of By-pass. Possibility of regulation based on discharge temperature Possibility of interface with AFPS system Focus on high SHR and NET sensible Cooling Capacity

  33. Leonardo Max – Direct Expansion Range

  34. Compact Dimensions – Direct Expansion All TD** models: 2580 x 865 x 2175(h) mm All TU** models: 2580 x 865 x 1960(h) mm

  35. Leonardo Max – Direct Expansion All models available in Upflow and Downflow configuration R410A refrigerant optionally available on all T*A* models All models (**42) available with Tandem compressors Electronic Expansion Valve as a standard operated by microprocessor

  36. Leonardo Max – Direct Expansion Backward Curved Fan with Asynchronous motor or by Electronic Commutation Possibility of fan speed adjustment depending on External Static Pressure demand and air flow Airflow pattern engineered in order to maximize performances and reduce pressure drops All Energy Saving, Twin Cool and Water Cooled units equipped as a standard with Tandem compressors

  37. Compact Dimensions • Special attention has paid to: • dimensions • Handlings & logistic • installation • Accessibility for maintenance • Leonardo as result is: • Compact • Completely full frontal accessible for Maintenance • Low weight • Quick and simple to install, and easy to manoeuvre even in confined spaces • Easy to access for maintenance

  38. Intelligence at heart – UG40 Uniflair has always dedicated particular attention to equipping its units with sophisticated controls and management software,conceived, developed, implemented and tested by UNIFLAIR itself. The control system allows an absolute reliability, a complete flexibility with elevated performances

  39. Intelligence at heart – UG40 Monitoring of all components • Possibility to memorize the last 100 events of alarm • input in emergency situations • Twin-Cool units: Facility of commutation from CW to DX through: digital imput or regulation from supervision • Display of Tev and Pev, overheating, compressor

  40. Intelligence at heart – UG40 • Integral management of the EEV • Optimisation of the energetic saving • Ensure constant air flow in the phase of dehumidification • Absolute operating stability • Integrated LAN as standard • Possibility to input a double set-point • 2 outputs of flexible configurable alarms • Automatic or manual resetting of alarms

  41. Connectivity – Uniflair Supervision Uniflair propose the remote control of entire installations in a central point by a connection to the centralized supervision systems.

  42. Connectivity Uniflair units have been designed and developed to interact with all the most widely used Building Management Systems, exchanging data via the most common communication protocols through serial connections, Local Area Networks, Ethernet or modem links.

  43. PROTOCOLS Connectivity • Main distinguished elements are: • Integrated MODBUS protocol (with serial card RS 485) • Compatibility with TREND standard • Wide connectivity to the most common communication protocols • Modbus • BACnet • LON • Metasys • Trend • SNMP (TCP/IP)

  44. Outstanding Performance Uniflair’s commitment to 5% of annual turnover in R&D has resulted in 2000 m2 of research and testing facilities. The center has three climatic rooms and a laboratory for access floors

  45. Close Control Units Energy Saving Solutions

  46. Energy Saving – Innovative Solutions • Leonardo Max presents an High ratio between Net Sensible Capacity and Fan Motor Heat Gains. • Leonardo Maximize the Energy Saving implementing innovative solutions: • Electronic Expansion Valve (EEV) • EC Fans (Electronic Commutation) • Free Cooling • Tandem Compressors • R410A

  47. Energy Saving – Innovative Solutions • Leonardo Max presents an High ratio between Net Sensible Capacity and Fan Motor Heat Gains. • Leonardo Maximize the Energy Saving implementing innovative solutions: • Electronic Expansion Valve (EEV) • EC Fans (Electronic Commutation) • Free Cooling • Tandem Compressors • R410A

  48. Innovative Solutions • Leonardo Innovative Solutions can be a strong sales tool. • Key point of the success: • Electronic Expansion Valve (EEV) • Intelligent Dehumidification • EC Fans (Electronic Commutation) • Tandem Compressors • Supervisioning System Integration • Custom made engineering

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