OPTIONAL FIRST START-UP, CONTACT THE AREA ASSISTANCE CENTER! Technical features Model : EWAA014DW1P Power : 12.8 kW Energy efficiency SEER: 5.71 Performance Cooling Capacity: 12.8 kW Cooling absorption: 4.06 kW Air Flow : 85 m 3 /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 Field of Operation Cooling: -10° ~ 43°C Heating: -5° ~ 22°C Installation data Plumbing Pipe Diameter: 25.4 mm (1") male Pipe connections diameter : 25.4 mm (1") Dimensions and weight Dimensions (HxWxD): 1053x1500x650 mm Indoor Unit Weight: 164 Kg Daikin Mini Chiller Systems Small systems for the production of chilled or heated water Why the inverter ? The inverter allows you to continuously modulate the power supplied by the compressor based on the thermal load requests, varying the number of revolutions of the same. This principle, compared to the traditional technology which divides the power into discrete steps of even high capacity, guarantees the final customer energy savings and better control of the operating parameters of the system. Most of the time, the cooling demand of a building is less than the maximum load capacity of the system. The larger the variations in yearly load, the more vital it is to ensure units are operating 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, i.e. the condition in which, seasonally, the chiller will work for most of the time, guaranteeing the best performance and reaching high values average seasonal summer yield ( ESEER ). What is SEER? 'seasonal energy efficiency ratio' ( SEER ) means 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 representative of the seasonal efficiency of the product . The SEER value is calculated over a period of 2600 operating hours during the year. Of these, only 30 hours of full load operation result. Ideal temperature Continuous regulation of power and noise 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 from the point of view of industrial application and precision temperature control, as it excludes the constant stops/starts of the compressors, responsible for electrical and mechanical wear. A further advantage is represented by the lower acoustic impact when compressors and fans operate partialised, i.e. in conditions of lower demand for power supplied, while ensuring greater stability for the water temperature. Lower Plant Costs Reduction of water accumulation/content of the plant (-60%) Thanks to the ability to react quickly to load variations, chillers that use Inverter technology can work correctly with a strong reduction in the water content in the system (-60% compared to traditional chillers). This makes it possible to reduce thermal inertia, with energy optimization and shorter start-up times. This results in 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, considerably lower than the rated operating current, which results in a lower cost for the supply of electrical components to be installed More power available when needed The inverter allows you to vary the power supplied; by feeding the compressor at a higher frequency it is possible to reach maximum power values ​​higher than the nominal ones. This offers benefits in bringing the system up to speed but, above all, becomes an evident technical plus when the machine works in extreme operating fields. For example, traditional air-cooled heat pumps are usually combined with boilers to compensate for the efficiency deficit due to cold outside temperatures. Inverter heat pumps can benefit from greater power when ambient conditions require it, losing only 15% of output in the passage 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", as they make it possible to avoid the use of boilers. Compressors developed and manufactured by Daikin Daikin has always been at the forefront of compressor technology development and now offers a complete range of swing, scroll, screw and centrifugal compressors. As a result, inverter compressor control is applied across our entire product range, providing more comfort and ensuring a more efficient system. Scroll compressor for capacity control Daikin's compact scroll-type compressors are suitable for use with R32 refrigerant, to ensure constant reliability and high efficiency throughout their life. Optimized for use in small and medium capacity systems, Scroll compressors are combined with air and water cooled chillers. Characteristics: › Simple, compact and robust › Absence of valves and swing joint mechanisms, to ensure maximum reliability › Constant compression, to ensure a low level of energy consumption › Greater compression efficiency thanks to the absence of volumetric re-expansion › Low noise › Low starting current Advantages: › Choosing a product in R32 reduces the environmental impact by 68% compared to R410A and leads directly to lower energy consumption thanks to its high energy efficiency › Chillers with Inverter › Hermetically sealed inverter compressor › New casing of the outdoor unit › Separate MMI-2 controller for indoor installation 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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OPTIONAL FIRST START-UP, CONTACT THE AREA ASSISTANCE CENTER! Technical features Model : EWAA011DV3P Power : 11.6 kW Energy efficiency SEER: 5.79 Performance Cooling Capacity: 11.6 kW Cooling absorption: 3.56 kW Air Flow : 70 m 3 /min Sound power level : 67 dB(A) Sound pressure level : 48 dB(A) Electrical data Power supply (V,Hz, Ø) : 220~240/50/1 Refrigerant gas : R32 Field of Operation Cooling: -10° ~ 43°C Heating: -5° ~ 22°C Installation data Plumbing Pipe Diameter: 25.4 mm (1") male Pipe connections diameter : 25.4 mm (1") Dimensions and weight Dimensions (HxWxD): 1053x1500x650 mm Indoor Unit Weight: 164 Kg Daikin Mini Chiller Systems Small systems for the production of chilled or heated water Why the inverter ? The inverter allows you to continuously modulate the power supplied by the compressor based on the thermal load requests, varying the number of revolutions of the same. This principle, compared to the traditional technology which divides the power into discrete steps of even high capacity, guarantees the final customer energy savings and better control of the operating parameters of the system. Most of the time, the cooling demand of a building is less than the maximum load capacity of the system. The larger the variations in yearly load, the more vital it is to ensure units are operating 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, i.e. the condition in which, seasonally, the chiller will work for most of the time, guaranteeing the best performance and reaching high values average seasonal summer yield ( ESEER ). What is SEER? 'seasonal energy efficiency ratio' ( SEER ) means 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 representative of the seasonal efficiency of the product . The SEER value is calculated over a period of 2600 operating hours during the year. Of these, only 30 hours of full load operation result. Ideal temperature Continuous regulation of power and noise 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 from the point of view of industrial application and precision temperature control, as it excludes the constant stops/starts of the compressors, responsible for electrical and mechanical wear. A further advantage is represented by the lower acoustic impact when compressors and fans operate partialised, i.e. in conditions of lower demand for power supplied, while ensuring greater stability for the water temperature. Lower Plant Costs Reduction of water accumulation/content of the plant (-60%) Thanks to the ability to react quickly to load variations, chillers that use Inverter technology can work correctly with a strong reduction in the water content in the system (-60% compared to traditional chillers). This makes it possible to reduce thermal inertia, with energy optimization and shorter start-up times. This results in 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, considerably lower than the rated operating current, which results in a lower cost for the supply of electrical components to be installed More power available when needed The inverter allows you to vary the power supplied; by feeding the compressor at a higher frequency it is possible to reach maximum power values ​​higher than the nominal ones. This offers benefits in bringing the system up to speed but, above all, becomes an evident technical plus when the machine works in extreme operating fields. For example, traditional air-cooled heat pumps are usually combined with boilers to compensate for the efficiency deficit due to cold outside temperatures. Inverter heat pumps can benefit from greater power when ambient conditions require it, losing only 15% of output in the passage 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", as they make it possible to avoid the use of boilers. Compressors developed and manufactured by Daikin Daikin has always been at the forefront of compressor technology development and now offers a complete range of swing, scroll, screw and centrifugal compressors. As a result, inverter compressor control is applied across our entire product range, providing more comfort and ensuring a more efficient system. Scroll compressor for capacity control Daikin's compact scroll-type compressors are suitable for use with R32 refrigerant, to ensure constant reliability and high efficiency throughout their life. Optimized for use in small and medium capacity systems, Scroll compressors are combined with air and water cooled chillers. Characteristics: › Simple, compact and robust › Absence of valves and swing joint mechanisms, to ensure maximum reliability › Constant compression, to ensure a low level of energy consumption › Greater compression efficiency thanks to the absence of volumetric re-expansion › Low noise › Low starting current Advantages: › Choosing a product in R32 reduces the environmental impact by 68% compared to R410A and leads directly to lower energy consumption thanks to its high energy efficiency › Chillers with Inverter › Hermetically sealed inverter compressor › New casing of the outdoor unit › Separate MMI-2 controller for indoor installation 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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ATTENTION! PRODUCT MADE TO ORDER, WILL BE SHIPPED IN 10 WORKING DAYS Technical Features Model : EWYA011DV3P 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) : 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 First start-up optional, contact your local service center! 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 : 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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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 : 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 : 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 : 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 : 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 : 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 : 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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