ATTENTION! IN CASE OF UNAVAILABILITY IMMEDIATELY, THE PRODUCT WILL BE ORDERED AND SHIPPED WITHIN 10 WORKING DAYS COMMISSIONING INCLUDED Heating Water 35/30°C External air 7°C Capacity : 15.9 / 16.8 kW COP 4.50 Cooling Water 18/23°C External air 35°C Capacity : 14.2 / 16.4 EER: 3.61 Energy efficiency Heating with average water flow temperature at 55°C Energy class: A++ ηs : 133% SCOP - 3.41 Heating with average water flow temperature at 35°C SCOP - 4.62 ηs : 182% Energy class: A+++ Technical features: Power supply Voltage/Frequency/Phases V/Hz/n° 230/50/1 Water flow rate Water 35/30°C External air 7°C Nominal l/s 0.76 Expansion vessel capacity l 4.8 Sound power Minimum / Nominal dB(A) 59/68 Sound pressure @1m Minimum / Nominal dB(A) 44/53 Operating field Water flow temperature Heating / DHW Full electric Minimum / Maximum °C 25 / 65 Hybrid Minimum / Maximum °C 25 / 75 Cooling - Minimum / Maximum °C 5 / 25 Operating range (outside air) -Heating / DHW - Minimum / Maximum °C -25 / 43 -Cooling - Minimum / Maximum °C -5 / 43 Dimensions and weight Dimensions WxHxD mm 1,385x864x523 mm Net weight: 129 Kg Monobloc Air-Water Heat Pump R-32 EDGE EVO 2.0 - EXC Hybrid or full electric monoblock heat pump , compact, efficient and very quiet. Perfect for new systems or upgrading existing ones, with the possibility of managing up to 6 units in cascade and optimizing the energy produced by a thermodynamic or photovoltaic solar system. ✓ Space saving: installed outside, no internal unit required ✓ Designed for cold climates: excellent performance at low temperatures and optional auxiliary resistors from 3 to 9 kW ✓ Simultaneous production of DHW and cooling / heating (Hybrid version) ✓ Modular: combines up to 6 units in cascade for power up to 180 kW ✓ Advanced connectivity: management via dedicated MSmartHome App or via Modbus port with CONTROL4 NRG included as standard Without worries Edge EVO 2.0 - EXC in Hybrid version is the solution designed to update old generators without having to modify the system. The system is in fact extremely versatile and can adapt to what already exists: it simply replaces the generator that produces Heating and Domestic Hot Water, improving comfort and efficiency, but without too many worries. ENERGY SAVING Solar ACS integration (ACS tank - optional) Waterfall Smart Grid ready €-Switch COMFORT Hot cold ACS Silent MANAGEMENT AND CONNECTIVITY Input ON/OFF Keymark Clivet Eye Monitoring Product Warranty: All products for sale on our site are new and packaged. The warranty on this item is 24 months from the date of purchase.

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OPTIONAL FIRST START-UP, CONTACT YOUR LOCAL SERVICE CENTER! Technical Features Model : EWYA009DV3P Power: 9.0 kW Energy Efficiency SEER : 5.62 SCOP : 4.82 Energy Efficiency Class in Heating: A+++ Performance Cooling Capacity : 9.35 kW Heating capacity: 9.37 kW Cooling Power Consumption: 2.79 kW Heating absorption: 1.91 kW Air Flow Rate : 48 ~ 63 m 3 /min Water flow rate: 26.9 l/min Sound Power Level: 65.5 dB(A) Sound pressure level: 44 dB(A) Electrical Data Power supply (V,Hz,Ø) : 220~240/50/1 Refrigerant gas: R32 Air Operating Range Cooling: -10° ~ 43° C Heating: -25° ~ 25° C Operating Range Water Cooling: -5° ~ 22° C Heating: 9° ~ 60° C Installation Data Hydraulic Pipe Diameter: 25.4 mm (1") Male Pipe connection diameter: 25.4 mm (1") Dimensions and Weight Dimensions (HxWxD): 1053x1500x650 mm Internal Unit Weight: 164 Kg Daikin Mini Chiller Systems Small chilled or heated water production systems Why the inverter? The Inverter allows the compressor power to be continuously modulated based on thermal load requirements by varying its rpm. This principle, compared to traditional technology that divides the power into discrete steps of even high capacity, guarantees the end customer energy savings and better control of the system's operating parameters. Most of the time, a building's cooling requirement is less than the system's maximum load capacity. The greater the variations in annual load, the more vital it is to ensure that the units operate efficiently. Energy Saving Absorption proportional to the power supplied The Inverter offers, for the chiller as a whole, the possibility of significantly increasing its efficiency at partial loads, that is, the condition in which, seasonally, the chiller will work for most of the time, guaranteeing the best performance and reaching high values ​​of average summer seasonal efficiency ( ESEER ). Furthermore, with the introduction of the European SCOP (seasonal COP ) indicator, the adoption of modulating systems and inverter technology allows for the optimisation of consumption even in winter, in line with the best requirements requested by the new energy index. What is SEER? «Seasonal Energy Efficiency Ratio» ( SEER ): the seasonal energy efficiency ratio of the unit representative of the entire cooling season, calculated as the reference annual cooling demand divided by the annual electricity consumption for cooling purposes. New parameter representing the seasonal efficiency of the product . The SEER value is calculated over a period of 2600 hours of operation during the year. Of these, only 30 hours of operation at full load are recorded. Ideal Temperature Continuous power and noise regulation The ability to work in modulation offers the guarantee of accurate control of the fluid temperature, regulated at a fixed point on the delivery to the system. This feature is ideal for industrial applications and precision temperature control, as it excludes constant compressor stops/starts, responsible for electrical and mechanical wear. A further advantage is the lower acoustic impact when compressors and fans operate partially, or in conditions of lower power output demand, while ensuring greater stability for the water temperature. Lower System Costs Reduction of system water accumulation/content (-60%) Thanks to the ability to react quickly to load variations, chillers that use Inverter technology can work correctly with a strong reduction in water content in the system (-60% compared to traditional chillers). This allows for a reduction in thermal inertia, with energy optimization and shorter start-up times. The result is a significant saving in system costs as the accumulation tank is no longer necessary. Electrical advantages From an electrical point of view, the Inverter introduces two great advantages: Low inrush currents, significantly lower than the nominal operating current, which results in a lower cost for the electrical components to be installed More power available when needed The Inverter allows you to vary the power supplied; by powering the compressor at a higher frequency it is possible to reach maximum power values ​​higher than the nominal ones. This offers benefits in the system's start-up but, above all, it becomes an evident technical plus when the machine works in extreme operating ranges. For example, traditional air-cooled heat pumps are usually combined with boilers to compensate for the efficiency deficit due to rigid external temperatures. Inverter heat pumps can benefit from greater power when the ambient conditions require it, losing only 15% of performance in the transition from 7°C to -10°C of external air (in the case of an ON-OFF the reduction would be ~40%), guaranteeing a water temperature of 50°C at all regimes. These advanced heat pumps can therefore be considered "primary", since they allow you to avoid the use of boilers. Compressors developed and produced by Daikin Daikin has always been at the forefront of the development of compression technology and now offers a complete range of Swing, Scroll, Screw and Centrifugal compressors. As a result, Inverter compressor control is applied to our entire product range, offering greater comfort and ensuring a more efficient system. Scroll compressor for capacity control Daikin Scroll compressors are compact and suitable for use with R32 refrigerant, ensuring constant reliability and high efficiency throughout their entire life cycle. Optimized for use in small and medium-sized systems, Scroll compressors are combined with air-cooled and water-cooled chillers. Characteristics: › Simple, compact and robust › No valves or oscillating joint mechanisms, to ensure maximum reliability › Constant compression, to ensure low energy consumption › Greater compression efficiency thanks to the absence of volumetric re-expansion › Low noise › Low inrush current Advantages: › Choosing a product in R32 reduces the environmental impact by 68% compared to R410A and directly leads to lower energy consumption thanks to its high energy efficiency. › Inverter Chillers › Hermetically sealed inverter compressor › New outdoor unit coating › Separate MMI-2 controller for internal installation Product Warranty: All products for sale on our site are new and packaged. The warranty on this item is 24 months from the date of purchase.

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OPTIONAL FIRST START-UP, CONTACT YOUR LOCAL SERVICE CENTER! Technical Features Model : EWYA009DW1P Power: 9.0 kW Energy Efficiency SEER : 5.62 SCOP : 4.82 Energy Efficiency Class in Heating: A+++ Performance Cooling Capacity : 9.35 kW Heating capacity: 9.37 kW Cooling Power Consumption: 2.79 kW Heating absorption: 1.91 kW Air Flow Rate : 48 ~ 63 m 3 /min Water flow rate: 26.9 l/min Sound Power Level: 65.5 dB(A) Sound pressure level: 44 dB(A) Electrical Data Power supply (V,Hz,Ø) : 380~415/50/3 Refrigerant gas: R32 Air Operating Range Cooling: -10° ~ 43° C Heating: -25° ~ 25° C Operating Range Water Cooling: -5° ~ 22° C Heating: 9° ~ 60° C Installation Data Hydraulic Pipe Diameter: 25.4 mm (1") Male Pipe connection diameter: 25.4 mm (1") Dimensions and Weight Dimensions (HxWxD): 1053x1500x650 mm Internal Unit Weight: 164 Kg Daikin Mini Chiller Systems Small chilled or heated water production systems Why the inverter? The Inverter allows the compressor power to be continuously modulated based on thermal load requirements by varying its rpm. This principle, compared to traditional technology that divides the power into discrete steps of even high capacity, guarantees the end customer energy savings and better control of the system's operating parameters. Most of the time, a building's cooling requirement is less than the system's maximum load capacity. The greater the variations in annual load, the more vital it is to ensure that the units operate efficiently. Energy Saving Absorption proportional to the power supplied The Inverter offers, for the chiller as a whole, the possibility of significantly increasing its efficiency at partial loads, that is, the condition in which, seasonally, the chiller will work for most of the time, guaranteeing the best performance and reaching high values ​​of average summer seasonal efficiency ( ESEER ). Furthermore, with the introduction of the European SCOP (seasonal COP ) indicator, the adoption of modulating systems and inverter technology allows for the optimisation of consumption even in winter, in line with the best requirements requested by the new energy index. What is SEER? «Seasonal Energy Efficiency Ratio» ( SEER ): the seasonal energy efficiency ratio of the unit representative of the entire cooling season, calculated as the reference annual cooling demand divided by the annual electricity consumption for cooling purposes. New parameter representing the seasonal efficiency of the product . The SEER value is calculated over a period of 2600 hours of operation during the year. Of these, only 30 hours of operation at full load are recorded. Ideal Temperature Continuous power and noise regulation The ability to work in modulation offers the guarantee of accurate control of the fluid temperature, regulated at a fixed point on the delivery to the system. This feature is ideal for industrial applications and precision temperature control, as it excludes constant compressor stops/starts, responsible for electrical and mechanical wear. A further advantage is the lower acoustic impact when compressors and fans operate partially, or in conditions of lower power output demand, while ensuring greater stability for the water temperature. Lower System Costs Reduction of system water accumulation/content (-60%) Thanks to the ability to react quickly to load variations, chillers that use Inverter technology can work correctly with a strong reduction in water content in the system (-60% compared to traditional chillers). This allows for a reduction in thermal inertia, with energy optimization and shorter start-up times. The result is a significant saving in system costs as the accumulation tank is no longer necessary. Electrical advantages From an electrical point of view, the Inverter introduces two great advantages: Low inrush currents, significantly lower than the nominal operating current, which results in a lower cost for the electrical components to be installed More power available when needed The Inverter allows you to vary the power supplied; by powering the compressor at a higher frequency it is possible to reach maximum power values ​​higher than the nominal ones. This offers benefits in the system's start-up but, above all, it becomes an evident technical plus when the machine works in extreme operating ranges. For example, traditional air-cooled heat pumps are usually combined with boilers to compensate for the efficiency deficit due to rigid external temperatures. Inverter heat pumps can benefit from greater power when the ambient conditions require it, losing only 15% of performance in the transition from 7°C to -10°C of external air (in the case of an ON-OFF the reduction would be ~40%), guaranteeing a water temperature of 50°C at all regimes. These advanced heat pumps can therefore be considered "primary", since they allow you to avoid the use of boilers. Compressors developed and produced by Daikin Daikin has always been at the forefront of the development of compression technology and now offers a complete range of Swing, Scroll, Screw and Centrifugal compressors. As a result, Inverter compressor control is applied to our entire product range, offering greater comfort and ensuring a more efficient system. Scroll compressor for capacity control Daikin Scroll compressors are compact and suitable for use with R32 refrigerant, ensuring constant reliability and high efficiency throughout their entire life cycle. Optimized for use in small and medium-sized systems, Scroll compressors are combined with air-cooled and water-cooled chillers. Characteristics: › Simple, compact and robust › No valves or oscillating joint mechanisms, to ensure maximum reliability › Constant compression, to ensure low energy consumption › Greater compression efficiency thanks to the absence of volumetric re-expansion › Low noise › Low inrush current Advantages: › Choosing a product in R32 reduces the environmental impact by 68% compared to R410A and directly leads to lower energy consumption thanks to its high energy efficiency. › Inverter Chillers › Hermetically sealed inverter compressor › New outdoor unit coating › Separate MMI-2 controller for internal installation Product Warranty: All products for sale on our site are new and packaged. The warranty on this item is 24 months from the date of purchase.

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OPTIONAL FIRST START-UP, CONTACT YOUR LOCAL SERVICE CENTER! Technical Features Model : EWYA011D1WP Power: 11.0 kW Energy Efficiency SEER : 5.79 SCOP : 4.73 Energy Efficiency Class in Heating: A+++ Performance Cooling capacity: 11.6 kW Heating capacity: 10.6 kW Cooling Power Consumption: 3.56 kW Heating absorption: 2.18 kW Air Flow Rate : 55.8 ~ 70 m 3 /min Water flow rate: 30.3 l/min Sound Power Level: 67 dB(A) Sound pressure level: 47.7 dB(A) Electrical Data Power supply (V,Hz,Ø) : 380~415/50/3 Refrigerant gas: R32 Air Operating Range Cooling: -10° ~ 43° C Heating: -25° ~ 25° C Operating Range Water Cooling: -5° ~ 22° C Heating: 9° ~ 60° C Installation Data Hydraulic Pipe Diameter: 25.4 mm (1") Male Pipe connection diameter: 25.4 mm (1") Dimensions and Weight Dimensions (HxWxD): 1053x1500x650 mm Internal Unit Weight: 164 Kg Daikin Mini Chiller Systems Small chilled or heated water production systems Why the inverter? The Inverter allows the compressor power to be continuously modulated based on thermal load requirements by varying its rpm. This principle, compared to traditional technology that divides the power into discrete steps of even high capacity, guarantees the end customer energy savings and better control of the system's operating parameters. Most of the time, a building's cooling requirement is less than the system's maximum load capacity. The greater the variations in annual load, the more vital it is to ensure that the units operate efficiently. Energy Saving Absorption proportional to the power supplied The Inverter offers, for the chiller as a whole, the possibility of significantly increasing its efficiency at partial loads, that is, the condition in which, seasonally, the chiller will work for most of the time, guaranteeing the best performance and reaching high values ​​of average summer seasonal efficiency ( ESEER ). Furthermore, with the introduction of the European SCOP (seasonal COP ) indicator, the adoption of modulating systems and inverter technology allows for the optimisation of consumption even in winter, in line with the best requirements requested by the new energy index. What is SEER? «Seasonal Energy Efficiency Ratio» ( SEER ): the seasonal energy efficiency ratio of the unit representative of the entire cooling season, calculated as the reference annual cooling demand divided by the annual electricity consumption for cooling purposes. New parameter representing the seasonal efficiency of the product . The SEER value is calculated over a period of 2600 hours of operation during the year. Of these, only 30 hours of operation at full load are recorded. Ideal Temperature Continuous power and noise regulation The ability to work in modulation offers the guarantee of accurate control of the fluid temperature, regulated at a fixed point on the delivery to the system. This feature is ideal for industrial applications and precision temperature control, as it excludes constant compressor stops/starts, responsible for electrical and mechanical wear. A further advantage is the lower acoustic impact when compressors and fans operate partially, or in conditions of lower power output demand, while ensuring greater stability for the water temperature. Lower System Costs Reduction of system water accumulation/content (-60%) Thanks to the ability to react quickly to load variations, chillers that use Inverter technology can work correctly with a strong reduction in water content in the system (-60% compared to traditional chillers). This allows for a reduction in thermal inertia, with energy optimization and shorter start-up times. The result is a significant saving in system costs as the accumulation tank is no longer necessary. Electrical advantages From an electrical point of view, the Inverter introduces two great advantages: Low inrush currents, significantly lower than the nominal operating current, which results in a lower cost for the electrical components to be installed More power available when needed The Inverter allows you to vary the power supplied; by powering the compressor at a higher frequency it is possible to reach maximum power values ​​higher than the nominal ones. This offers benefits in the system's start-up but, above all, it becomes an evident technical plus when the machine works in extreme operating ranges. For example, traditional air-cooled heat pumps are usually combined with boilers to compensate for the efficiency deficit due to rigid external temperatures. Inverter heat pumps can benefit from greater power when the ambient conditions require it, losing only 15% of performance in the transition from 7°C to -10°C of external air (in the case of an ON-OFF the reduction would be ~40%), guaranteeing a water temperature of 50°C at all regimes. These advanced heat pumps can therefore be considered "primary", since they allow you to avoid the use of boilers. Compressors developed and produced by Daikin Daikin has always been at the forefront of the development of compression technology and now offers a complete range of Swing, Scroll, Screw and Centrifugal compressors. As a result, Inverter compressor control is applied to our entire product range, offering greater comfort and ensuring a more efficient system. Scroll compressor for capacity control Daikin Scroll compressors are compact and suitable for use with R32 refrigerant, ensuring constant reliability and high efficiency throughout their entire life cycle. Optimized for use in small and medium-sized systems, Scroll compressors are combined with air-cooled and water-cooled chillers. Characteristics: › Simple, compact and robust › No valves or oscillating joint mechanisms, to ensure maximum reliability › Constant compression, to ensure low energy consumption › Greater compression efficiency thanks to the absence of volumetric re-expansion › Low noise › Low inrush current Advantages: › Choosing a product in R32 reduces the environmental impact by 68% compared to R410A and directly leads to lower energy consumption thanks to its high energy efficiency. › Inverter Chillers › Hermetically sealed inverter compressor › New outdoor unit coating › Separate MMI-2 controller for internal installation Product Warranty: All products for sale on our site are new and packaged. The warranty on this item is 24 months from the date of purchase.

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OPTIONAL FIRST START-UP, CONTACT YOUR LOCAL SERVICE CENTER! Technical Features Model : EWYA014DW1P Power: 12.8 kW Energy Efficiency SEER : 5.71 SCOP : 4.70 Energy Efficiency Class in Heating: A+++ Performance Cooling capacity: 12.8 kW Heating capacity: 12.0 kW Cooling Power Consumption: 4.06 kW Heating absorption: 2.46 kW Air Flow Rate : 70.4 ~ 85.0 m 3 /min Water flow rate: 34.4 l/min Sound Power Level: 69 dB(A) Sound pressure level: 50.8 dB(A) Electrical Data Power supply (V,Hz,Ø) : 380~415/50/3 Refrigerant gas: R32 Air Operating Range Cooling: -10° ~ 43° C Heating: -25° ~ 25° C Operating Range Water Cooling: -5° ~ 22° C Heating: 9° ~ 60° C Installation Data Hydraulic Pipe Diameter: 25.4 mm (1") Male Pipe connection diameter: 25.4 mm (1") Dimensions and Weight Dimensions (HxWxD): 1053x1500x650 mm Internal Unit Weight: 164 Kg Daikin Mini Chiller Systems Small chilled or heated water production systems Why the inverter? The Inverter allows the compressor power to be continuously modulated based on thermal load requirements by varying its rpm. This principle, compared to traditional technology that divides the power into discrete steps of even high capacity, guarantees the end customer energy savings and better control of the system's operating parameters. Most of the time, a building's cooling requirement is less than the system's maximum load capacity. The greater the variations in annual load, the more vital it is to ensure that the units operate efficiently. Energy Saving Absorption proportional to the power supplied The Inverter offers, for the chiller as a whole, the possibility of significantly increasing its efficiency at partial loads, that is, the condition in which, seasonally, the chiller will work for most of the time, guaranteeing the best performance and reaching high values ​​of average summer seasonal efficiency ( ESEER ). Furthermore, with the introduction of the European SCOP (seasonal COP ) indicator, the adoption of modulating systems and inverter technology allows for the optimisation of consumption even in winter, in line with the best requirements requested by the new energy index. What is SEER? «Seasonal Energy Efficiency Ratio» ( SEER ): the seasonal energy efficiency ratio of the unit representative of the entire cooling season, calculated as the reference annual cooling demand divided by the annual electricity consumption for cooling purposes. New parameter representing the seasonal efficiency of the product . The SEER value is calculated over a period of 2600 hours of operation during the year. Of these, only 30 hours of operation at full load are recorded. Ideal Temperature Continuous power and noise regulation The ability to work in modulation offers the guarantee of accurate control of the fluid temperature, regulated at a fixed point on the delivery to the system. This feature is ideal for industrial applications and precision temperature control, as it excludes constant compressor stops/starts, which are responsible for electrical and mechanical wear. A further advantage is the lower acoustic impact when compressors and fans operate partially, or in conditions of lower power output demand, while ensuring greater stability for the water temperature. Lower System Costs Reduction of system water accumulation/content (-60%) Thanks to the ability to react quickly to load variations, chillers that use Inverter technology can work correctly with a strong reduction in water content in the system (-60% compared to traditional chillers). This allows for a reduction in thermal inertia, with energy optimization and shorter start-up times. The result is a significant saving in system costs as the accumulation tank is no longer necessary. Electrical advantages From an electrical point of view, the Inverter introduces two great advantages: Low inrush currents, significantly lower than the nominal operating current, which results in a lower cost for the electrical components to be installed More power available when needed The Inverter allows you to vary the power supplied; by powering the compressor at a higher frequency it is possible to reach maximum power values ​​higher than the nominal ones. This offers benefits in the system's start-up but, above all, it becomes an evident technical plus when the machine works in extreme operating ranges. For example, traditional air-cooled heat pumps are usually combined with boilers to compensate for the efficiency deficit due to rigid external temperatures. Inverter heat pumps can benefit from greater power when the ambient conditions require it, losing only 15% of performance in the transition from 7°C to -10°C of external air (in the case of an ON-OFF the reduction would be ~40%), guaranteeing a water temperature of 50°C at all regimes. These advanced heat pumps can therefore be considered "primary", since they allow you to avoid the use of boilers. Compressors developed and produced by Daikin Daikin has always been at the forefront of the development of compression technology and now offers a complete range of Swing, Scroll, Screw and Centrifugal compressors. As a result, Inverter compressor control is applied to our entire product range, offering greater comfort and ensuring a more efficient system. Scroll compressor for capacity control Daikin Scroll compressors are compact and suitable for use with R32 refrigerant, ensuring constant reliability and high efficiency throughout their entire life cycle. Optimized for use in small and medium-sized systems, Scroll compressors are combined with air-cooled and water-cooled chillers. Characteristics: › Simple, compact and robust › No valves or oscillating joint mechanisms, to ensure maximum reliability › Constant compression, to ensure low energy consumption › Greater compression efficiency thanks to the absence of volumetric re-expansion › Low noise › Low inrush current Advantages: › Choosing a product in R32 reduces the environmental impact by 68% compared to R410A and directly leads to lower energy consumption thanks to its high energy efficiency. › Inverter Chillers › Hermetically sealed inverter compressor › New outdoor unit coating › Separate MMI-2 controller for internal installation Product Warranty: All products for sale on our site are new and packaged. The warranty on this item is 24 months from the date of purchase.

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OPTIONAL FIRST START-UP, CONTACT YOUR LOCAL SERVICE CENTER! Technical Features Model : EWAA011DW1P Power: 11.6 kW Energy Efficiency SEER : 5.79 Performance Cooling capacity: 11.6 kW Cooling Power Consumption: 3.56 kW Air flow rate: 70 m3 /min Sound power level: 67 dB(A) Sound pressure level: 48 dB(A) Electrical Data Power supply (V,Hz,Ø) : 380~415/50/3 Refrigerant gas: R32 Operating Range Cooling: -10° ~ 43° C Heating: -5° ~ 22° C Installation Data Hydraulic Pipe Diameter: 25.4 mm (1") Male Pipe connection diameter: 25.4 mm (1") Dimensions and Weight Dimensions (HxWxD): 1053x1500x650 mm Internal Unit Weight: 164 Kg Daikin Mini Chiller Systems Small chilled or heated water production systems Why the inverter? The Inverter allows the compressor power to be continuously modulated based on thermal load requirements by varying its rpm. This principle, compared to traditional technology that divides the power into discrete steps of even high capacity, guarantees the end customer energy savings and better control of the system's operating parameters. Most of the time, a building's cooling requirement is less than the system's maximum load capacity. The greater the variations in annual load, the more vital it is to ensure that the units operate efficiently. Energy Saving Absorption proportional to the power supplied The Inverter offers, for the chiller as a whole, the possibility of significantly increasing its efficiency at partial loads, that is, the condition in which, seasonally, the chiller will work for most of the time, guaranteeing the best performance and reaching high values ​​of average summer seasonal efficiency ( ESEER ). What is SEER? «Seasonal Energy Efficiency Ratio» ( SEER ): the seasonal energy efficiency ratio of the unit representative of the entire cooling season, calculated as the reference annual cooling demand divided by the annual electricity consumption for cooling purposes. New parameter representing the seasonal efficiency of the product . The SEER value is calculated over a period of 2600 hours of operation during the year. Of these, only 30 hours of operation at full load are recorded. Ideal Temperature Continuous power and noise regulation The ability to work in modulation offers the guarantee of accurate control of the fluid temperature, regulated at a fixed point on the delivery to the system. This feature is ideal for industrial applications and precision temperature control, as it excludes constant compressor stops/starts, responsible for electrical and mechanical wear. A further advantage is the lower acoustic impact when compressors and fans operate partially, or in conditions of lower power output demand, while ensuring greater stability for the water temperature. Lower System Costs Reduction of system water accumulation/content (-60%) Thanks to the ability to react quickly to load variations, chillers using Inverter technology can work correctly with a strong reduction in water content in the system (-60% compared to traditional chillers). This allows for a reduction in thermal inertia, with energy optimization and shorter start-up times. The result is a significant saving in system costs as the accumulation tank is no longer necessary. Electrical advantages From an electrical point of view, the Inverter introduces two great advantages: Low inrush currents, significantly lower than the nominal operating current, which results in a lower cost for the electrical components to be installed More power available when needed The Inverter allows you to vary the power supplied; by powering the compressor at a higher frequency it is possible to reach maximum power values ​​higher than the nominal ones. This offers benefits in the system's start-up but, above all, it becomes an evident technical plus when the machine works in extreme operating ranges. For example, traditional air-cooled heat pumps are usually combined with boilers to compensate for the efficiency deficit due to rigid external temperatures. Inverter heat pumps can benefit from greater power when the ambient conditions require it, losing only 15% of performance in the transition from 7°C to -10°C of external air (in the case of an ON-OFF the reduction would be ~40%), guaranteeing a water temperature of 50°C at all regimes. These advanced heat pumps can therefore be considered "primary", since they allow you to avoid the use of boilers. Compressors developed and produced by Daikin Daikin has always been at the forefront of the development of compression technology and now offers a complete range of Swing, Scroll, Screw and Centrifugal compressors. As a result, Inverter compressor control is applied to our entire product range, offering greater comfort and ensuring a more efficient system. Scroll compressor for capacity control Daikin Scroll compressors are compact and suitable for use with R32 refrigerant, ensuring constant reliability and high efficiency throughout their entire life cycle. Optimized for use in small and medium-sized systems, Scroll compressors are combined with air-cooled and water-cooled chillers. Characteristics: › Simple, compact and robust › No valves or oscillating joint mechanisms, to ensure maximum reliability › Constant compression, to ensure low energy consumption › Greater compression efficiency thanks to the absence of volumetric re-expansion › Low noise › Low inrush current Advantages: › Choosing a product in R32 reduces the environmental impact by 68% compared to R410A and directly leads to lower energy consumption thanks to its high energy efficiency. › Inverter Chillers › Hermetically sealed inverter compressor › New outdoor unit coating › Separate MMI-2 controller for internal installation Product Warranty: All products for sale on our site are new and packaged. The warranty on this item is 24 months from the date of purchase.

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OPTIONAL FIRST START-UP, CONTACT YOUR LOCAL SERVICE CENTER! Technical Features Model : EWAA014DV3P Power: 12.8 kW Energy Efficiency SEER : 5.71 Performance Cooling capacity: 12.8 kW Cooling Power Consumption: 4.06 kW Air flow rate: 85 m3 /min Sound Power Level: 69 dB(A) Sound pressure level: 50.8 dB(A) Electrical Data Power supply (V,Hz,Ø) : 220~240/50/1 Refrigerant gas: R32 Operating Range Cooling: -10° ~ 43° C Heating: -5° ~ 22° C Installation Data Hydraulic Pipe Diameter: 25.4 mm (1") Male Pipe connection diameter: 25.4 mm (1") Dimensions and Weight Dimensions (HxWxD): 1053x1500x650 mm Internal Unit Weight: 164 Kg Daikin Mini Chiller Systems Small chilled or heated water production systems Why the inverter? The Inverter allows the compressor power to be continuously modulated based on thermal load requirements by varying its rpm. This principle, compared to traditional technology that divides the power into discrete steps of even high capacity, guarantees the end customer energy savings and better control of the system's operating parameters. Most of the time, a building's cooling requirement is less than the system's maximum load capacity. The greater the variations in annual load, the more vital it is to ensure that the units operate efficiently. Energy Saving Absorption proportional to the power supplied The Inverter offers, for the chiller as a whole, the possibility of significantly increasing its efficiency at partial loads, that is, the condition in which, seasonally, the chiller will work for most of the time, guaranteeing the best performance and reaching high values ​​of average summer seasonal efficiency ( ESEER ). What is SEER? «Seasonal Energy Efficiency Ratio» ( SEER ): the seasonal energy efficiency ratio of the unit representative of the entire cooling season, calculated as the reference annual cooling demand divided by the annual electricity consumption for cooling purposes. New parameter representing the seasonal efficiency of the product . The SEER value is calculated over a period of 2600 hours of operation during the year. Of these, only 30 hours of operation at full load are recorded. Ideal Temperature Continuous power and noise regulation The ability to work in modulation offers the guarantee of accurate control of the fluid temperature, regulated at a fixed point on the delivery to the system. This feature is ideal for industrial applications and precision temperature control, as it excludes constant compressor stops/starts, responsible for electrical and mechanical wear. A further advantage is the lower acoustic impact when compressors and fans operate partially, or in conditions of lower power output demand, while ensuring greater stability for the water temperature. Lower System Costs Reduction of system water accumulation/content (-60%) Thanks to the ability to react quickly to load variations, chillers that use Inverter technology can work correctly with a strong reduction in water content in the system (-60% compared to traditional chillers). This allows for a reduction in thermal inertia, with energy optimization and shorter start-up times. The result is a significant saving in system costs as the accumulation tank is no longer necessary. Electrical advantages From an electrical point of view, the Inverter introduces two great advantages: Low inrush currents, significantly lower than the nominal operating current, which results in a lower cost for the electrical components to be installed More power available when needed The Inverter allows you to vary the power supplied; by powering the compressor at a higher frequency it is possible to reach maximum power values ​​higher than the nominal ones. This offers benefits in the system's start-up but, above all, it becomes an evident technical plus when the machine works in extreme operating ranges. For example, traditional air-cooled heat pumps are usually combined with boilers to compensate for the efficiency deficit due to rigid external temperatures. Inverter heat pumps can benefit from greater power when the ambient conditions require it, losing only 15% of performance in the transition from 7°C to -10°C of external air (in the case of an ON-OFF the reduction would be ~40%), guaranteeing a water temperature of 50°C at all regimes. These advanced heat pumps can therefore be considered "primary", since they allow you to avoid the use of boilers. Compressors developed and produced by Daikin Daikin has always been at the forefront of the development of compression technology and now offers a complete range of Swing, Scroll, Screw and Centrifugal compressors. As a result, Inverter compressor control is applied to our entire product range, offering greater comfort and ensuring a more efficient system. Scroll compressor for capacity control Daikin Scroll compressors are compact and suitable for use with R32 refrigerant, ensuring constant reliability and high efficiency throughout their entire life cycle. Optimized for use in small and medium-sized systems, Scroll compressors are combined with air-cooled and water-cooled chillers. Characteristics: › Simple, compact and robust › No valves or oscillating joint mechanisms, to ensure maximum reliability › Constant compression, to ensure low energy consumption › Greater compression efficiency thanks to the absence of volumetric re-expansion › Low noise › Low inrush current Advantages: › Choosing a product in R32 reduces the environmental impact by 68% compared to R410A and directly leads to lower energy consumption thanks to its high energy efficiency. › Inverter Chillers › Hermetically sealed inverter compressor › New outdoor unit coating › Separate MMI-2 controller for internal installation Product Warranty: All products for sale on our site are new and packaged. The warranty on this item is 24 months from the date of purchase.

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OPTIONAL FIRST START-UP, CONTACT YOUR LOCAL SERVICE CENTER! Technical Features Model : EWAA016DW1P Power: 14.0 kW Energy Efficiency SEER : 5.59 Performance Cooling capacity : 14.0 kW Cooling Power Consumption: 4.58 kW Air flow rate: 85 m3 /min Sound Power Level: 69 dB(A) Sound pressure level: 51 dB(A) Electrical Data Power supply (V,Hz,Ø) : 380~415/50/3 Refrigerant gas: R32 Operating Range Cooling: -10° ~ 43° C Heating: -5° ~ 22° C Installation Data Hydraulic Pipe Diameter: 25.4 mm (1") Male Pipe connection diameter: 25.4 mm (1") Dimensions and Weight Dimensions (HxWxD): 1053x1500x650 mm Internal Unit Weight: 164 Kg Daikin Mini Chiller Systems Small chilled or heated water production systems Why the inverter? The Inverter allows the compressor power to be continuously modulated based on thermal load requirements by varying its rpm. This principle, compared to traditional technology that divides the power into discrete steps of even high capacity, guarantees the end customer energy savings and better control of the system's operating parameters. Most of the time, a building's cooling requirement is less than the system's maximum load capacity. The greater the variations in annual load, the more vital it is to ensure that the units operate efficiently. Energy Saving Absorption proportional to the power supplied The Inverter offers, for the chiller as a whole, the possibility of significantly increasing its efficiency at partial loads, that is, the condition in which, seasonally, the chiller will work for most of the time, guaranteeing the best performance and reaching high values ​​of average summer seasonal efficiency ( ESEER ). What is SEER? «Seasonal Energy Efficiency Ratio» ( SEER ): the seasonal energy efficiency ratio of the unit representative of the entire cooling season, calculated as the reference annual cooling demand divided by the annual electricity consumption for cooling purposes. New parameter representing the seasonal efficiency of the product . The SEER value is calculated over a period of 2600 hours of operation during the year. Of these, only 30 hours of operation at full load are recorded. Ideal Temperature Continuous power and noise regulation The ability to work in modulation offers the guarantee of accurate control of the fluid temperature, regulated at a fixed point on the delivery to the system. This feature is ideal for industrial applications and precision temperature control, as it excludes constant compressor stops/starts, responsible for electrical and mechanical wear. A further advantage is the lower acoustic impact when compressors and fans operate partially, or in conditions of lower power output demand, while ensuring greater stability for the water temperature. Lower System Costs Reduction of system water accumulation/content (-60%) Thanks to the ability to react quickly to load variations, chillers that use Inverter technology can work correctly with a strong reduction in water content in the system (-60% compared to traditional chillers). This allows for a reduction in thermal inertia, with energy optimization and shorter start-up times. The result is a significant saving in system costs as the accumulation tank is no longer necessary. Electrical advantages From an electrical point of view, the Inverter introduces two great advantages: Low inrush currents, significantly lower than the nominal operating current, which results in a lower cost for the electrical components to be installed More power available when needed The Inverter allows you to vary the power supplied; by powering the compressor at a higher frequency it is possible to reach maximum power values ​​higher than the nominal ones. This offers benefits in the system's start-up but, above all, it becomes an evident technical plus when the machine works in extreme operating ranges. For example, traditional air-cooled heat pumps are usually combined with boilers to compensate for the efficiency deficit due to rigid external temperatures. Inverter heat pumps can benefit from greater power when the ambient conditions require it, losing only 15% of performance in the transition from 7°C to -10°C of external air (in the case of an ON-OFF the reduction would be ~40%), guaranteeing a water temperature of 50°C at all regimes. These advanced heat pumps can therefore be considered "primary", since they allow you to avoid the use of boilers. Compressors developed and produced by Daikin Daikin has always been at the forefront of the development of compression technology and now offers a complete range of Swing, Scroll, Screw and Centrifugal compressors. As a result, Inverter compressor control is applied to our entire product range, offering greater comfort and ensuring a more efficient system. Scroll compressor for capacity control Daikin Scroll compressors are compact and suitable for use with R32 refrigerant, ensuring constant reliability and high efficiency throughout their entire life cycle. Optimized for use in small and medium-sized systems, Scroll compressors are combined with air-cooled and water-cooled chillers. Characteristics: › Simple, compact and robust › No valves or oscillating joint mechanisms, to ensure maximum reliability › Constant compression, to ensure low energy consumption › Greater compression efficiency thanks to the absence of volumetric re-expansion › Low noise › Low inrush current Advantages: › Choosing a product in R32 reduces the environmental impact by 68% compared to R410A and directly leads to lower energy consumption thanks to its high energy efficiency. › Inverter Chillers › Hermetically sealed inverter compressor › New outdoor unit coating › Separate MMI-2 controller for internal installation Product Warranty: All products for sale on our site are new and packaged. The warranty on this item is 24 months from the date of purchase.

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OPTIONAL FIRST START-UP, CONTACT YOUR LOCAL SERVICE CENTER! Technical Features Model : EWAA016DV3P Power: 14.0 kW Energy Efficiency SEER : 5.59 Performance Cooling capacity : 14.0 kW Cooling Power Consumption: 4.58 kW Air flow rate: 85 m3 /min Sound Power Level: 69 dB(A) Sound pressure level: 51 dB(A) Electrical Data Power supply (V,Hz,Ø) : 220~240/50/1 Refrigerant gas: R32 Operating Range Cooling: -10° ~ 43° C Heating: -5° ~ 22° C Installation Data Hydraulic Pipe Diameter: 25.4 mm (1") Male Pipe connection diameter: 25.4 mm (1") Dimensions and Weight Dimensions (HxWxD): 1053x1500x650 mm Internal Unit Weight: 164 Kg Daikin Mini Chiller Systems Small chilled or heated water production systems Why the inverter? The Inverter allows the compressor power to be continuously modulated based on thermal load requirements by varying its rpm. This principle, compared to traditional technology that divides the power into discrete steps of even high capacity, guarantees the end customer energy savings and better control of the system's operating parameters. Most of the time, a building's cooling requirement is less than the system's maximum load capacity. The greater the variations in annual load, the more vital it is to ensure that the units operate efficiently. Energy Saving Absorption proportional to the power supplied The Inverter offers, for the chiller as a whole, the possibility of significantly increasing its efficiency at partial loads, that is, the condition in which, seasonally, the chiller will work for most of the time, guaranteeing the best performance and reaching high values ​​of average summer seasonal efficiency ( ESEER ). What is SEER? «Seasonal Energy Efficiency Ratio» ( SEER ): the seasonal energy efficiency ratio of the unit representative of the entire cooling season, calculated as the reference annual cooling demand divided by the annual electricity consumption for cooling purposes. New parameter representing the seasonal efficiency of the product . The SEER value is calculated over a period of 2600 hours of operation during the year. Of these, only 30 hours of operation at full load are recorded. Ideal Temperature Continuous power and noise regulation The ability to work in modulation offers the guarantee of accurate control of the fluid temperature, regulated at a fixed point on the delivery to the system. This feature is ideal for industrial applications and precision temperature control, as it excludes constant compressor stops/starts, responsible for electrical and mechanical wear. A further advantage is the lower acoustic impact when compressors and fans operate partially, or in conditions of lower power output demand, while ensuring greater stability for the water temperature. Lower System Costs Reduction of system water accumulation/content (-60%) Thanks to the ability to react quickly to load variations, chillers that use Inverter technology can work correctly with a strong reduction in water content in the system (-60% compared to traditional chillers). This allows for a reduction in thermal inertia, with energy optimization and shorter start-up times. The result is a significant saving in system costs as the accumulation tank is no longer necessary. Electrical advantages From an electrical point of view, the Inverter introduces two great advantages: Low inrush currents, significantly lower than the nominal operating current, which results in a lower cost for the electrical components to be installed More power available when needed The Inverter allows you to vary the power supplied; by powering the compressor at a higher frequency it is possible to reach maximum power values ​​higher than the nominal ones. This offers benefits in the system's start-up but, above all, it becomes an evident technical plus when the machine works in extreme operating ranges. For example, traditional air-cooled heat pumps are usually combined with boilers to compensate for the efficiency deficit due to rigid external temperatures. Inverter heat pumps can benefit from greater power when the ambient conditions require it, losing only 15% of performance in the transition from 7°C to -10°C of external air (in the case of an ON-OFF the reduction would be ~40%), guaranteeing a water temperature of 50°C at all regimes. These advanced heat pumps can therefore be considered "primary", since they allow you to avoid the use of boilers. Compressors developed and produced by Daikin Daikin has always been at the forefront of the development of compression technology and now offers a complete range of Swing, Scroll, Screw and Centrifugal compressors. As a result, Inverter compressor control is applied to our entire product range, offering greater comfort and ensuring a more efficient system. Scroll compressor for capacity control Daikin Scroll compressors are compact and suitable for use with R32 refrigerant, ensuring constant reliability and high efficiency throughout their entire life cycle. Optimized for use in small and medium-sized systems, Scroll compressors are combined with air-cooled and water-cooled chillers. Characteristics: › Simple, compact and robust › No valves or oscillating joint mechanisms, to ensure maximum reliability › Constant compression, to ensure low energy consumption › Greater compression efficiency thanks to the absence of volumetric re-expansion › Low noise › Low inrush current Advantages: › Choosing a product in R32 reduces the environmental impact by 68% compared to R410A and directly leads to lower energy consumption thanks to its high energy efficiency. › Inverter Chillers › Hermetically sealed inverter compressor › New outdoor unit coating › Separate MMI-2 controller for internal installation Product Warranty: All products for sale on our site are new and packaged. The warranty on this item is 24 months from the date of purchase.

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CONFIGURATION AND START UP MANDATORY PIT-A2W-START UP NOT INCLUDED! Technical Features Catalog code WH-MDC12H6E5 Wi-Fi Optional : CZ-TAW1 Energy Efficiency Energy efficiency class at medium temperatures: A++ Energy efficiency class at low temperatures: A++ Performance Cooling capacity : 12.0 kW Heating capacity: 10.0 kW Sound Power Level : 68 ~ 69 dB(A) Electrical Data Power supply (V,Hz,Ø) : 220~240/50/1 Refrigerant gas: R410 Operating range - Cooling: -16° ~ 43° C - Heating: -20° ~ 35° C Installation Data Hydraulic pipe diameter: 1 mm (1/4") Dimensions and Weight Dimensions (HxWxD): 1410x1283x320 mm Empty weight: 140 Kg Aquarea Heat Pumps Efficiency at the highest levels Panasonic introduces an innovative low energy consumption system based on air-to-water heat pump technology. Aquarea heats your home effectively and efficiently, even in extreme outdoor temperatures. Aquarea can cool spaces even in summer and bring hot water all year round. Aquarea High Performance is the range for new installations and low consumption homes. Exceptional efficiency and energy savings with reduced CO 2 emissions and minimal space. The Monobloc system has only one outdoor unit. The system does not require a refrigerated connection and is only connected to heating and / or hot water A heat pump transforms thermal energy outside into heat inside With Aquarea 80% of the required thermal energy is taken from the environment. Aquarea, through heat exchange with the outside air and the refrigerant gas contained in it, is able to heat/cool the water by conveying it to the domestic air conditioning system and satisfies all the needs for the production of domestic hot water 3 good reasons why Aquarea is the ideal solution for your home Wide range to suit all homes Aquarea is an innovative, energy-efficient system designed to provide ideal temperatures and domestic hot water, even in extreme outdoor temperatures. It is highly reliable thanks to the quality of all components, including the compressor, developed and manufactured by Panasonic. With the possibility of choosing between multiple units, Aquarea ensures a very wide range availability to ensure the most appropriate choice for your home, regardless of its size Heat pump, 80% energy at zero cost Based on air-water heat pump technology, Aquarea is highly efficient and environmentally friendly. It captures the thermal energy present in the air and transfers it to heat the water needed to heat your home, for domestic hot water and even to cool your home if you wish. In this way, up to 80% of the thermal energy required is taken from the ambient air, even at extremely low temperatures It helps you save You can save up to €1,100 per year compared to conventional electric heating. Although the initial investment may be higher than other technologies, the running costs are much cheaper, with a shorter payback period. The savings are significant, especially when compared to electric oil boilers and heaters Aquarea with R32 Refrigerant The detail that makes the difference Panasonic recommends R32 refrigerant because it is environmentally friendly. Unlike R22 and R410A gases, R32 refrigerant has a low potential impact on the ozone layer and global warming. Panasonic has introduced R32 models to align with all European countries that have adopted the Montreal Protocol to protect the ozone layer and prevent global warming. Innovative Installation Extremely easy to install. (Make sure your pressure gauge and vacuum pump are compatible with R32). This refrigerant is 100% pure, making it easier to recycle and reuse. Environmental Innovation Zero impact on the ozone layer. Reduced impact on global warming by 75% Economic and energy innovation Lower costs and higher savings. Higher efficiency compared to R410A gas Aquarea Service Cloud. Control anytime, anywhere Aquarea Smart Cloud is a powerful, intuitive and free service designed to help you remotely control your Aquarea heat pumps from anywhere, 24/7. Advanced Control is an intelligent, sophisticated and effective service for fully managing the Aquarea range in terms of heating, cooling and domestic hot water functions within the home, including monitoring domestic energy consumption via smartphone, tablet or mobile device. Product Warranty: All products for sale on our site are new and packaged. The warranty on this item is 24 months from the date of purchase.

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FREE FIRST START-UP Technical features Product code : HMI080 Energy efficiency EER: 3.11 COP: 3.75 Energy Efficiency Class for low temperatures: A+++ Energy Efficiency Class for medium temperatures: A++ Performance Cooling Capacity: 5.0 kW Heating Capacity: 7.5 kW Cooling absorption: 1.61 kW Heating absorption: 2.0 kW Cooling water flow rate: 860 l/h Heating water flow rate: 1240 l/h Sound power level : 65 dB(A) Sound Pressure Level : 51~53 dB(A) Electrical data Power supply (V,Hz, Ø) : 220~240/50/1 Refrigerant gas : R32 Installation data Hydraulic pipes diameter: 25 mm (1") Male Dimensions and weight External Unit Dimensions (LxHxP): 1150x758x345 mm Weight of Outdoor Unit: 96 Kg Aermec Air Condensed Heat Pump Outdoor reversible heat pump for air conditioning systems where, in addition to cooling the rooms, high temperature hot water is required for heating or for the production of domestic hot water. For the production of DHW, it must be combined with the DHWT300S domestic hot water storage tank . HMI has been designed to meet the needs of the new construction and renovation markets, replacing or supporting conventional boilers . It can be combined with low temperature emission systems such as underfloor heating or fan coils but also with more traditional radiators, and is already supplied with the main hydraulic components, thus also facilitating the final installation Operational Limits Full load operation up to -25 °C outside air temperature in winter and up to 48 °C in summer. Maximum temperature of water produced in heating mode 60 °C Cooling circuit with economizer Brushless DC axial fans designed for aerodynamic optimization, allowing a reduction of the noise level, but at the same time, an increase in efficiency and air flow. Equipped with base electric resistance to prevent any formation of ice and facilitate the disposal of condensate during heating operation. Electronic expansion valve Main hydraulic components Inverter pump Plate heat exchanger Expansion vessel Safety valve Flow switch Supplied water filter (compulsory installation) Adjustment via multilingual touch screen control panel Management of a 3-way diverter valve (not supplied) for the production of domestic hot water Management of a 2-way valve (not supplied) for shutting off a part of the system Weekly and time band programming Auto-restart function Emergency operation (can activate a substitute heat source) Quick hot water function for rapid heating of domestic hot water Weather dependent mode function for climatic regulation Quiet function for silent operation, programmable with timer Condensation control The activation of the anti-legionella cycle (easily set from the control panel) allows weekly heating of the entire tank to a temperature (max 70°C) such as to eradicate the bacterium responsible for the infection Special golden fin battery Unlike normal coils, this special gold colored silicon-free epoxy coating is able to protect the exchanger from rust and corrosion in areas where the amount of salt present in the air is very high Ewpe Smart APP The system is equipped as standard with the Wi-Fi module; through this module and a special App for iOS and Android devices, available free of charge on the Apple Store and Google Play, it is possible to control the system remotely directly from your smartphone or tablet. Remote control can be done via Cloud using a wireless router connected to the internet. Accessories DHWT300S: (220-240V~50Hz) enamelled steel domestic hot water storage tank. Single-phase power supply, 300-litre capacity with main and secondary coil, 3 kW electric support heater. Magnesium sacrificial anode. Indoor installation, as indicated in the installation manual HMICB15: Connection cable for wired control panel. Cable length 15m IC-2P: Connector for using communication via ModBus or VMF-485LINK. Compulsory accessory if combined with VMF-485LINK, or for third-party supervisory systems VMF-485LINK: Expansion to interface the unit with the VMF communication protocol, making it possible to manage from VMF-E5 or VMF-E6 supervisors Product Guarantee: All products for sale on our site are new and packed. The warranty on this item is 24 months from the date of purchase.

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FREE FIRST START-UP Technical features Product code : HMI100 Energy efficiency EER: 3.15 COP: 3.70 Energy Efficiency Class for low temperatures: A+++ Energy Efficiency Class for medium temperatures: A++ Performance Cooling Capacity: 7.8 kW Heating Capacity: 10.0 kW Cooling absorption: 2.48 kW Heating absorption: 2.70 kW Cooling water flow rate: 1320 l/h Heating water flow rate: 1700 l/h Sound power level : 69 dB(A) Sound Pressure Level : 54~56 dB(A) Electrical data Power supply (V,Hz, Ø) : 220~240/50/1 Refrigerant gas : R32 Installation data Hydraulic pipes diameter: 25 mm (1") Male Dimensions and weight External Unit Dimensions (LxHxP): 1200x878x460 mm Weight of Outdoor Unit: 151 Kg Aermec Air Condensed Heat Pump Outdoor reversible heat pump for air conditioning systems where, in addition to cooling the rooms, high temperature hot water is required for heating or for the production of domestic hot water. For the production of DHW, it must be combined with the DHWT300S domestic hot water storage tank . HMI has been designed to meet the needs of the new construction and renovation markets, replacing or supporting conventional boilers . It can be combined with low temperature emission systems such as underfloor heating or fan coils but also with more traditional radiators, and is already supplied with the main hydraulic components, thus also facilitating the final installation Operational Limits Full load operation up to -25 °C outside air temperature in winter and up to 48 °C in summer. Maximum temperature of water produced in heating mode 60 °C Cooling circuit with economizer Brushless DC axial fans designed for aerodynamic optimization, allowing a reduction of the noise level, but at the same time, an increase in efficiency and air flow. Equipped with base electric resistance to prevent any formation of ice and facilitate the disposal of condensate during heating operation. Electronic expansion valve Main hydraulic components Inverter pump Plate heat exchanger Expansion vessel Safety valve Flow switch Supplied water filter (compulsory installation) Adjustment via multilingual touch screen control panel Management of a 3-way diverter valve (not supplied) for the production of domestic hot water Management of a 2-way valve (not supplied) for shutting off a part of the system Weekly and time band programming Auto-restart function Emergency operation (can activate a substitute heat source) Quick hot water function for rapid heating of domestic hot water Weather dependent mode function for climatic regulation Quiet function for silent operation, programmable with timer Condensation control The activation of the anti-legionella cycle (easily set from the control panel) allows weekly heating of the entire tank to a temperature (max 70°C) such as to eradicate the bacterium responsible for the infection Special golden fin battery Unlike normal coils, this special gold colored silicon-free epoxy coating is able to protect the exchanger from rust and corrosion in areas where the amount of salt present in the air is very high Ewpe Smart APP The system is equipped as standard with the Wi-Fi module; through this module and a special App for iOS and Android devices, available free of charge on the Apple Store and Google Play, it is possible to control the system remotely directly from your smartphone or tablet. Remote control can be done via Cloud using a wireless router connected to the internet. Accessories DHWT300S: (220-240V~50Hz) enamelled steel domestic hot water storage tank. Single-phase power supply, 300-litre capacity with main and secondary coil, 3 kW electric support heater. Magnesium sacrificial anode. Indoor installation, as indicated in the installation manual HMICB15: Connection cable for wired control panel. Cable length 15m IC-2P: Connector for using communication via ModBus or VMF-485LINK. Compulsory accessory if combined with VMF-485LINK, or for third-party supervisory systems VMF-485LINK: Expansion to interface the unit with the VMF communication protocol, making it possible to manage from VMF-E5 or VMF-E6 supervisors Product Guarantee: All products for sale on our site are new and packed. The warranty on this item is 24 months from the date of purchase.

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