LG AIR CONDITIONER HiGH efficiency Air to Water Heat Pump LG Electronics Magyar Kft. H-1097 Budapest, Könyves Kálmán krt. 3/a LG Electronics Magyar Kft. www.lgeaircon.com H-1097 Budapest, Könyves Kálmán krt. 3/a www.lg.hu • LG Hungary www.lgeaircon.com www.lge.rs www.lg.hu •• LG LG Srbija Hungary www.lge.hr www.lge.rs •• LG LG Hrvatska Srbija www.lge.bg www.lge.hr •• LG LG България Hrvatska Copyright © 2014 LG Electronics. All rights reserved. Due to continuous product development, www.lge.bg България LG reserves the right• to modify LG the specifications without prior notice. Copyright © 2014 LG Electronics. All rights reserved. 1 LG HVAC SOLUTION INDEX Why LG AWHP? 04 Why LG AWHP? What is THERMA V? 06 What is THERMA V? THERMA V Line up 08 2014 Model Line-up Vitalizing every environment THERMA V Line up 10 Various Type of THERMA V 12 Supreme Energy Efficiency 16 Reliable & Safe Heating Performance 18 Superior User Comport Flexible Application 20 Flexible Applications 22 Flexible Application / Split Type 24 Flexible Application / Monobloc Type Specification LG can improve your quality of life In an affordable, eco-friendly way. Over the years, LG has strived to meet the demand for high quality air conditioning solutions with greater energy efficiency, which can reduce energy costs and also help to protect the environment. Greater energy savings can be achieved over the lifetime of the product which can offer cost savings to your home and business. 27 Therma V High Temperture Type 28 Monobloc Type 32 Split Indoor Unit 33 Split Outdoor Unit Domestic Hot Water Tank 36 Domestic Hot Water Tank Accessory 38 Domestic Hot Water Tank Kit 39 Solar Thermal Kit Furthermore, LG’s air conditioners are reliable products with long lifespans designed to provide years of hassle-free performance. Why LG AWHP? LG THERMA V with its inverter technology is wellprepared for this regulatory change, because the energy consumption adapts itself to the heat load, that depends on the outdoor temperature by utilizing LG's superior inverter technology. Supreme Energy Efficiency COP up to 4.5 by Realizing all Inverter Technology Reliable & Safe Heating Performance Quick & Stable Performance by New Technology Superior User Comfort User Friendly by Providing Multiple Control Options Flexible Applications Solution Expansion by Flexible Comparability What is THERMA V is LG’s newest Air to Water Heat Pump system, especially designed for new housing and renovation by LG’s advanced heating technology with energy saving. THERMA V can be used as various heating solution from floor heating to hot water supply with multiple heat sources. Solar Thermal Collector THERMA V is the Most Efficient Heating Solution for Your House. THERMA V offers the best solution for home heating and hot water supply with LG’s inverter technology. It is 4 times more energy efficient than boiler system by absorbing energy from the outdoor environment. Outdoor Air Fan Coil Unit 75% of Free Energy Heating Hot Water 75% 25% Best Solution for New Housing & Renovation THERMA V can be the best alternative to conventional boiler system for renovation houses or as a hybrid back-up solution to the boiler. New Housing Type Renovation Type Indoor Unit Boiler (THERMA V) Indoor Unit Domestic (THERMA V) Hot Water Outdoor Unit Outdoor Unit 6 Underfloor Heating Domestic Hot Water Tank Domestic Hot Water Outdoor Unit Indoor Unit (THERMA V) 7 2014 Line-up Monobloc Type kW Split Type Outdoor Unit 3 5 7 9 kW 9 12 14 16 hu091.u41 hu121.u31 hu141.u31 hu161.u31 hu123.u31 hu143.u31 hu163.u31 1ø 1ø HM031m.U42 HM051m.U42 HM071m.U42 HM091m.U42 Monobloc Type kW 12 14 16 1ø 3ø Split Type Indoor Unit HN0914. NK1 HN0916. NK1 HN1616. NK1 HM121m.U32 HM141m.U32 HM161m.U32 1ø HN0926. NK1 HN0936. NK1 3ø HN1626. NK1 3ø HN1636. NK1 HN1629. NK1 HN1639. NK1 HM123m.U32 8 HM143m.U32 HM163m.U32 9 Various Type of THERMA V Monobloc Type Air Water Pipe Hot Water Outdoor Unit Floor Heating • All in one concept LG will provide fully packaged monobloc with 4 main component. (except 3kw monobloc) basically. No need to work refrigerant piping, easier and quicker installation. PHE (Plate Heat Exchanger) Inverter water pump Electric Heater Expansion Tank Monobloc MONOBLOC + Domestic Hot Water + BOILER + RADIATORS + Hot Water Hot Water Boiler Domestic Hot Water Radiators Radiators Buffer Tank Pump Outdoor Unit 10 11 Powerful BLDC Compressor With PI control logic, the set temperature is achieved quicker and also the air conditioning efficiency is improved by 30%. it provides not only quick but also powerful air conditioning operation. THERMA V is equipped with a BLDC compressor that uses a strong neodymium magnet. The compressor has improved efficiency compared to standard AC inverter product and it is optimized for seasonal efficiency. Temp. Powerful, Quick Operation by PI Control Quick & power performance *PI: Proportional-Integral COP Supreme Energy Efficiency BLDC Inverter Compressor 4% 8% Conventional Standard AC Compressor 30% Inverter • Minimized oil circulation Inverter Technology • High efficiency motor With the advancement of Inverter technology, it comes to be more silent, economical and powerful air conditioning systems. The LG air conditioner is manufactured based on the PFC and the sine wave technology. It makes possible to down noise level, be better efficiency, minimize compressor vibration and wider operation range. • Optimized vibration, noise 40Hz 60Hz 80Hz Frequency (Hz) • Optimized compression • High reliability Step-up Inverter by the PFC & the Sine Wave Control Technology (PFC : Power Factor Correction)compared to conventional. Conventional New Distributed Winding PFC(Power Factor Correction) Control in Power Input Concentrated Winding *V : Input voltage *I : Input electric current DC 280V DC 380V (Boot up) Partial switching Full range sine wave switching The operating voltage is increased from DC 280V to DC 380 V. This means that at high load conditions, there will be less energy consumption while at low load conditions the energy consumption. The LG BLDC fan motor offers additional energy savings up to 40% at low speed and 20% at high speed compared to an AC motor. Efficiency (%) Inverter BLDC Fan Motor BLDC Motor 80 20 % increase Sine wave Control in BLDC Compressor 40 40% AC Motor increase 20 Sine wave Rectangle wave 0 200 400 600 1,000 800 Motor Speed (RPM) With sinusoidal wave function of the voltage, the sine wave makes the function more soft and efficient. 12 13 Supreme Energy Efficiency High Efficient Inverter Water Pump THERMA V can minimize power consumption by turning off PCB except for the MICOM which receives signals. THERMA V is equipped with a high efficient inverter water pump minimizes operating & standby energy during using time. (operating power input 130W 45W) Standby power Minimizing Standby Power 15W 87% 2W Conventional New * Based on HM163M model Heat Exchanger Improvement Top Class Efficiency Efficiency and performance are improved by increased heat exchange rate of wide louver fin & new optimal distributor design applied to the heat exchanger. LG Therma V has achieved one of the highest energy efficiency levels with BLDC inverter Compressor and optimized cycle design. The heating COP of all models are above 4.1 (1/220~240/50 Monobloc model comparison) • Wide Louver Fin Improved heat exchanger efficiency of up to 28%. • Optimized Heat Exchanger Path Improved cycle efficiency up to 5% with equal distribution. Cooling Heating Conventional Unequal Distribution Heating COP 4.6 LG Company A 4.5 Company B 4.4 128% 4.3 123% 4.2 Heat Exchange Rate (%) 4.1 New Equal Distribution 4 3.9 3.8 Model (kW) 7 9 12 14 16 * Condition : Inlet / Outlet Water Temperature 30°C / 35°C, Outdoor Air Temperature 7°C DB / 6°C WB 14 15 Reliable & Safe Heating Performance High Reliability with Pressure Control Temperature control (Split type) Temperature Sensor Only Emergency Operation Step 1 Step 2 Sensing current temperature of refrigerent, indoor and outdoor temperature Estimating Pressure This algorithm is more likely to be affected by temperature change and it takes more time to calculate proper operation range of compressor to target point. Finding recorded target pressure to operate compressor, based on the corresponding temperature data Even in case of sudden product error, THERMA V ensures stable heating operation by applying 2 steps of emergency control. • In case of minor problem (Mainly caused by sensor) - Forcing to operate with setting dip switch inside unit • In case of major problem (Mainly caused by outdoor) - Forcing to operate with using electric heater Minor problem level 1 Major problem level 2 Pressure control (Monobloc type) Step 1 This ensures to reach target performance point without failing to keep a reliable operation. Sensing refrigerent pressure and temperature simultaneously to make sure compressor ready for targe operation Temperature Sensor Pressure Sensor Improved Grille & Fan Quick Operating Response Pressure control takes up to 44% less time to reach the desired temperature with a high level of accuracy and stability. The new grille shape design on the outdoor unit helps to disperse air more efficiently which improves heat exchange and reduces noise level. The new axial Fan has a thick front edge and smooth rear edge, this provides a high efficiency, low noise, wide fan, as well as improving the air flow rate. Leaving Water Temp. (ºC) Leading edge thickening 44% Mogul trailing edge 40 526mm Reverse hub 460mm Pressure Control Temperature Control Narrow hub blade 3 5 Saw tooth trailing edge Time (Min.) Grille 16 Fan Type 1 Fan Type 2 * Applied to 12, 14, 16 kW models * Applied to 3, 5, 7, 9 kW models 17 Superior User Comport Extended Piping Length and Elevation If users choose this mode, setting temperature will follow outdoor temperature automatically. If outdoor temperature decreases, heating capacity for the house will increase automatically in order to keep same room temperature. Through the BLDC inverter technology, it is possible to design a system with world-class longer piping length and elevation difference. With this feature, more efficient design & flexible installation is allowed. Leaving Water Temp.(°C) Weather Dependent Operation 55 34 -10°C Outdoor uit 15°C Outdoor temperature (°C) L50m Silent Mode H30m Night Silent operation can reduce noise level at night time by pushing a button on the remote controller. *Split type for mid. & high temp. model Easy Service THERMA V has an automatic program to heat up the screed according to a pre-defined sequence with 18 days. Easy and efficient installation & service of outdoor unit will provide the comfort for installers. Heating flow Temperature °C Screed Drying Program Function (Monobloc type) • Compact Design & Ez SVC - Remove 3 pieces of screw for SVC - Front panel removal system 55 50 45 • Easy access - Easily accessible SVC parts like compressor, water pump, etc. 40 35 30 25 20 0 1 X 1 5 7 1 Pre heating 5 10 15 18 Day 3 pieces of screw Smooth drying of the screed 25 Ez SVC Notice : Some functions are not applied to the split type. 18 19 Flexible Applications Hybrid System with Boiler Backup Linkage with Solar Thermal kit Dry Contact will expand the heating system network into conventional boiler. THERMA V can be linked with solar kit as an accessory, when solar pumps works, it will be displayed in the remote controller. • Monobloc + Boiler Hybrid MONOBLOC + Domestic Hot Water + BOILER + RADIATORS + Hot Water Solar Hot Water Boiler Domestic Hot Water Radiators Radiators Hot Water THERMA V Buffer Tank Domestic Hot Water Floor Heating Radiators Pump Outdoor Outdoor • Split + Boiler Hybrid Split + Domestic Hot Water + BOILER + RADIATORS + Hot Water Hot Water Boiler THERMA V Domestic Hot Water Radiators Radiators Buffer Tank Outdoor 20 Pump 21 Flexible Application Split Type Application 1 Application 3 T T ECS R Temperature Sensor Controller Security Thermostat Temperature Sensor Regulator Electric Heater ECS M Security Thermostat Water Pump Water Pump Check Valve Check Valve Shut-Off Valve Shut-Off Valve Motorized 3 ways Valve Motorized 2 ways Valve Relief Valve Decantation tank Motorized 2 ways Valve Expension tank S Regulation Thermostat By pass Valve S S S Decantation tank Expension tank > Bivalent operation mode > Operation system > Bivalent operation mode > Operation system • Underfloor heating • Low temperature radiators • Domestic hot water THERMA V + Previous boiler system (option) • Underfloor heating • Domestic hot water THERMA V + Solar panels(option) Application 2 Application 4 Temperature Sensor Temperature Sensor Security Thermostat T ECS T Electric Heater Regulator ECS T T Security Thermostat M Electric Heater Water Pump Water Pump Check Valve Check Valve Shut-Off Valve Shut-Off Valve By pass Valve Motorized 2 ways Valve Motorized 2 ways Valve Motorized 3 ways Valve Relief Valve Relief Valve Decantation tank By pass Valve Expension tank S S S Decantation tank Expension tank > Bivalent operation mode > Operation system • Underfloor heating • Low temperature radiators 22 > Bivalent operation mode • Domestic hot water • THERMA V + Solar panels(option) > Operation system • Low temperature radiators • Domestic hot water THERMA V + Solar panels 23 Flexible Application Monobloc Type Application 1 Application 3 Temperature Sensor T T Controller Temperature Sensor Security Thermostat ECS Regulator ECS R Electric Heater M Security Thermostat Water Pump Water Pump Check Valve Check Valve Shut-Off Valve Shut-Off Valve Motorized 3 ways Valve Motorized 2 ways Valve Relief Valve Decantation tank Motorized 2 ways Valve Expension tank S Regulation Thermostat By pass Valve S S S Decantation tank Expension tank > Bivalent operation mode > Operation system > Bivalent operation mode • Underfloor heating • Low temperature radiators • Domestic hot water THERMA V + Previous boiler system (option) > Operation system • Underfloor heating • Domestic hot water THERMA V + Solar panels(option) Application 2 Application 4 Temperature Sensor Temperature Sensor Security Thermostat T ECS T Electric Heater Regulator ECS T Security Thermostat M Electric Heater Water Pump Water Pump Check Valve Check Valve Shut-Off Valve Shut-Off Valve By pass Valve Motorized 2 ways Valve Motorized 2 ways Valve Motorized 3 ways Valve Relief Valve Relief Valve Decantation tank By pass Valve S T Expension tank S S Decantation tank Expension tank > Bivalent operation mode > Operation system • Underfloor heating • Low temperature radiators 24 > Bivalent operation mode • Domestic hot water • THERMA V + Solar panels(option) > Operation system • Low temperature radiators • Domestic hot water THERMA V + Solar panels 25 Therma V High Temperature High Temperture Type (1ø 220V~240V) Cycle Diagram Outdoor Unit Therma V High Temperature Heating by Hot Water Air - Refrigerant Air 80°C Air Refrigerant Pipe (R410a) Refrigerant Cycle (R134a) Water Pipe Split Outdoor Unit Power Supply Enhanced Efficiency & Performance Capacity Therma V high temp. can produce Max. 80°C hot water with 3 times higher efficiency compare to fuel boiler Leaving water temperature (°C) Power Input COP EER High efficiency Low efficiency 90 Fuel Boiler Enhanced Efficiency 80 High Temperture Sound Pressure Level Enhanced Performance Sound Power Level Operation Range (Min.~Max.) Dimensions Weight Compressor Refrigerant 70 60 Condensing Boiler 50 0 1.00 2.00 3.00 Monobloc & Split Type 4.00 5.00 COP Piping Length Cascade 2 Stage Compression Technology Max. 80°C hot water can be generated through Cascade R410A to R134A BLDC compressor technology and applicable for existing old boiler heating system which demands hot water supply. Quick Defrosting Through R134A compressor controlling technology, necessary time for defrost operation has been minimized effectively. (LG Patent) Time Pressure High temperature through Cascade cycle technology Standard Defrosting Water Second Stage R410A R134A First Stage Piping Level Difference 2 min. 4 min. 6 min. 8 min. Split Indoor Unit Power Supply Dimensions Weight Compressor Refrigerant Heat Exchanger Sound Pressure Level Heating Cooling Heating Cooling Heating Cooling Heating Cooling Heating Heating(Outdoor Temperature) Domestic Hot water Unit(W x H x D) Unit Type Type Minimum Standard Maximum Maximum Unit(W x H x D) Unit Type Type Type Heating Unit HU161H.U32 Ø / V / Hz kw kw kw kw W/W W/W dB(A) dB(A) dB(A) °C DB °C DB mm kg m m m m 1/220-240/50 16.00 6.13 2.61 53 -15~35 25~80 950x1,380x330 105 Hermetic Motor R410A 5 7.5 50 30 Unit HN1610H.NK2 Ø / V / Hz mm kg dB(A) 1/220-240/50 520x1,080x330 94 Twin Rotary Inverter R134A Blazed Plate HEX 43 Note : 1. Capacities and power inputs are based on the following conditions: - Heating Condition : Inlet / Outlet Water Temperature 55°C / 65°C, Outdoor Air Temperature 7°C DB / 6°C WB - Piping Length : Interconnected Pipe Length = 7.5m - Difference Limit of Elevation (Outdoor ~ Indoor Unit) is Zero. 2. The specification may be subject to change without prior notice for purpose of improvement. Hybrid Defrosting Air Enthalpy 26 27 Monobloc Type (1ø 220V~240V) Monobloc Power Supply Dimensions Weight Capacity Power Input COP EER Sound Pressure Level Sound Power Level Operation Range (Min.~Max.) Outdoor Temperature Operation Range (Min.~Max.) Leaving Water Temperature Compressor Refrigerant Heat Exchanger Pump Electric Heater Unit(W x H x D) Unit Heating Cooling Heating Cooling Heating Cooling Heating Cooling Cooling Heating Cooling Heating (Radiator) Heating (Under floor) Cooling (Fan coil unit) Cooling (Under floor) Type Type Type Type Number of Heating Coil Unit Ø/V/Hz mm kg kW kW kW kW W/W W/W dB(A) dB(A) dB(A) °C DB °C °C °C °C °C EA HM031M.U42 1/220-240/50 950x834x330 60 3.00 0.73 4.10 47 -20~30 5~48 15~57 15~57 Hermetic Motor R410A Brazed Plate HEX Note : 1. Capacities and power inputs are based on the following conditions: - Heating Condition : Inlet / Outlet Water Temperature 30°C / 35°C, Outdoor Air Temperature 7°C DB / 6°C WB - Cooling Condition : Inlet / Outlet Water Temperature 23°C / 18°C, Outdoor Air Temperature 35°C DB / 24°C WB 2. The specification may be subject to change without prior notice for purpose of improvement. 28 - HM051M.U42 HM071M.U42 1/220-240/50 1/220-240/50 1,239x907x390 1,239x907x390 99 99 4.99 7.00 4.99 7.00 1.13 1.63 1.38 2.00 4.40 4.30 3.61 3.50 51 52 50 52 63 65 -20~30 -20~30 5~48 5~48 15~57 15~57 15~57 15~57 6~30 6~30 16~30 16~30 Hermetic Motor Hermetic Motor R410A R410A Brazed Plate HEX Brazed Plate HEX Canned type for hot water circulation 2+2 2+2 HM091M.U32 1/220-240/50 1,239x907x390 99 9.00 9.00 2.20 2.65 4.10 3.40 52 52 67 -20~30 5~48 15~57 15~57 6~30 16~30 Hermetic Motor R410A Brazed Plate HEX 2+2 Monobloc Power Supply Dimensions Weight Capacity Power Input COP EER Sound Pressure Level Sound Power Level Operation Range (Min.~Max.) Outdoor Temperature Operation Range (Min.~Max.) Leaving Water Temperature Compressor Refrigerant Heat Exchanger Pump Electric Heater Unit(W x H x D) Unit Heating Cooling Heating Cooling Heating Cooling Heating Cooling Cooling Heating Cooling Heating(Radiator) Heating(Under floor) Cooling(Fan coil unit) Cooling(Under floor) Type Type Type Type Number of Heating Coil Unit Ø/V/Hz mm kg kW kW kW kW W/W W/W dB(A) dB(A) dB(A) °C DB °C °C °C °C °C EA HM121M.U32 HM141M.U32 HM161M.U32 1/220-240/50 1/220-240/50 1/220-240/50 1,239x1,450x390 1,239x1,450x390 1,239x1,450x390 141 141 141 12.00 14.00 16.00 14.50 15.50 16.10 2.67 3.15 3.81 4.00 4.69 5.07 4.49 4.44 4.20 3.63 3.30 3.18 53 53 53 54 54 54 68 68 68 -20~30 -20~30 -20~30 5~48 5~48 5~48 15~57 15~57 15~57 15~57 15~57 15~57 6~30 6~30 6~30 16~30 16~30 16~30 Hermetic Motor Hermetic Motor Hermetic Motor R410A R410A R410A Brazed Plate HEX Brazed Plate HEX Brazed Plate HEX Canned type for hot water circulation 3+3 3+3 3+3 Note : 1. Capacities and power inputs are based on the following conditions: - Heating Condition : Inlet / Outlet Water Temperature 30°C / 35°C, Outdoor Air Temperature 7°C DB / 6°C WB - Cooling Condition : Inlet / Outlet Water Temperature 23°C / 18°C, Outdoor Air Temperature 35°C DB / 24°C WB 2. The specification may be subject to change without prior notice for purpose of improvement. 29 Monobloc Type (3ø 380V~415V) Monobloc Power Supply Dimensions Weight Capacity Power Input COP EER Sound Pressure Level Sound Power Level Operation Range (Min.~Max.) Outdoor Temperature Operation Range (Min.~Max.) Leaving Water Temperature Compressor Refrigerant Heat Exchanger Pump Electric Heater Unit(W x H x D) Unit Heating Cooling Heating Cooling Heating Cooling Heating Cooling Cooling Heating Cooling Heating (Radiator) Heating (Under floor) Cooling (Fan coil unit) Cooling (Under floor) Type Type Type Type Number of Heating Coil Unit Ø/V/Hz mm kg kW kW kW kW W/W W/W dB(A) dB(A) dB(A) °C DB °C °C °C °C °C EA Note : 1. Capacities and power inputs are based on the following conditions: - Heating Condition : Inlet / Outlet Water Temperature 30°C / 35°C, Outdoor Air Temperature 7°C DB / 6°C WB - Cooling Condition : Inlet / Outlet Water Temperature 23°C / 18°C, Outdoor Air Temperature 35°C DB / 24°C WB 2. The specification may be subject to change without prior notice for purpose of improvement. 30 HM123M.U32 HM143M.U32 3/380-415/50 3/380-415/50 1,239x1,450x390 1,239x1,450x390 141 141 12.00 14.00 14.50 15.50 2.67 3.15 4.00 4.69 4.49 4.44 3.63 3.30 53 53 54 54 68 68 -20~30 -20~30 5~48 5~48 15~57 15~57 15~57 15~57 6~30 6~30 16~30 16~30 Hermetic Motor Hermetic Motor R410A R410A Brazed Plate HEX Brazed Plate HEX Canned type for hot water circulation 2+2+2 2+2+2 Monobloc Power Supply Dimensions Weight Capacity Power Input COP EER Sound Pressure Level Sound Power Level Operation Range (Min.~Max.) Outdoor Temperature Operation Range (Min.~Max.) Leaving Water Temperature Compressor Refrigerant Heat Exchanger Pump Electric Heater Unit(W x H x D) Unit Heating Cooling Heating Cooling Heating Cooling Heating Cooling Cooling Heating Cooling Heating (Radiator) Heating (Under floor) Cooling (Fan coil unit) Cooling (Under floor) Type Type Type Type Number of Heating Coil Unit Ø/V/Hz mm kg kW kW kW kW W/W W/W dB(A) dB(A) dB(A) °C DB °C °C °C °C °C EA HM163M.U32 3/380-415/50 1,239x1,450x390 141 16.00 16.10 3.81 5.07 4.20 3.18 53 54 68 -20~30 5~48 15~57 15~57 6~30 16~30 Hermetic Motor R410A Brazed Plate HEX Canned type for hot water circulation 2+2+2 Note : 1. Capacities and power inputs are based on the following conditions: - Heating Condition : Inlet / Outlet Water Temperature 30°C / 35°C, Outdoor Air Temperature 7°C DB / 6°C WB - Cooling Condition : Inlet / Outlet Water Temperature 23°C / 18°C, Outdoor Air Temperature 35°C DB / 24°C WB 2. The specification may be subject to change without prior notice for purpose of improvement. 31 Domestic Hot Water Tank Domestic Hot Water Tank - Single Coil LGRTV200E 198 LitERs LGRTV300E 287 LitERs Domestic Hot Water Tank – Single Coil Domestic Hot Water Tank LGRTV200E LGRTV300E L mm mm kg 198 580 1230 45 Stainless steel Paint Epoxy White NC 287 580 1680 59 Stainless steel Paint Epoxy White NC kW ºC 3 60 ~ 90 3 60 ~ 90 ºC Single LDX 2101 – Stainless steel 80 Single LDX 2101 – Stainless steel 80 mm mm 25 25 25 25 mm mm 22 22 22 22 ø/V/Hz 1ø/220-240V 50Hz 1ø/220-240V 50Hz PHLTA PHLTA LGRTV200VE LGRTV300VE L mm mm kg 198 580 1230 50 Stainless steel Paint Epoxy White NC 287 580 1680 64 Stainless steel Paint Epoxy White NC kW ºC 3 60 ~ 90 3 60 ~ 90 ºC Double LDX 2101 – Stainless steel 80 (With an Heat Pump) Double LDX 2101 – Stainless steel 80 (With an Heat Pump) mm mm 25 25 25 25 mm mm 22 22 22 22 ø/V/Hz 1ø/220-240V 50Hz 1ø/220-240V 50Hz PHLTA PHLTA General Characteristics Water Volume Diameter Height Empty Weight Tank – Materials Outer Skin – Materials Color – White RA Characteristics of Electrical Back-up Additional Electric Heater Adjustable Thermostat Characteristics of Exchanger Exchanger Type Material Exchanger Maximum Water Temperature Hydraulic connections – Heat Pump THERMA V Entry THERMA V Exit Hydraulic connections – Domestic Hot Water Tank City Water Entry Hot water Exit Domestic Hot Water Tank - Double Coil LGRTV200VE 198 LitERs LGRTV300VE 287 LitERs Electric connection Supply MANDATORY OPTIONAL ACCESSORIES Sanitary Water Tank Installation Kit Domestic Hot Water Tank – Double Coil Domestic Hot Water Tank General Characteristics Water Volume Diameter Height Empty Weight Tank – Materials Outer Skin – Materials Color – White RAL Characteristics of Electrical Back-up Additional Electric Heater Adjustable Thermostat Characteristics of Exchanger Exchanger Type Material Exchanger Maximum Water Temperature Hydraulic connections – Heat Pump THERMA V Entry THERMA V Exit Hydraulic connections – Domestic Hot Water Tank City Water Entry Hot water Exit Solar Thermal Collectors For better performance and energy saving, it is possible to combine the THERMA V heat pump & solar thermal collectors. Electric connection Supply MANDATORY OPTIONAL ACCESSORIES Domestic Hot Water Tank Installation Kit 32 33 Domestic Hot Water Tank Kit • PHLTA (1Φ) Solar Thermal Kit • PHLLA • PHLTC (3Φ) • PHLTB * PHLTA / PHLTC PHLTB * The sensor (PHRSTA0) can be purchased separately in case of using other brand’s Domestic tank. Features Features Easy to install the domestic hot water for monobloc. There is a MCCB to protect the product. Dimension(mm) (HxWxD) : 250x170x110 Weight(kg) : 2.1 To interface solar-thermal system with THERMA V and double coil Domestic tank. Installed at the water pipe, between Domestic tank and solar-thermal system. Dimension(mm) (HxWxD) : 110x55x22 To extend THERMA V functionality in generating domestic hot water. Application Application Components : THERMA V system, PHLTA, PHLTC, and field-supplied items. Components : THERMA V system, PHLTA, PHLTC, and field-supplied items. Outdoor Outdoor Indoor Indoor Outdoor Unit Outdoor Unit Indoor Unit Indoor Unit Fan Coil Unit Hot Water Fan Coil Unit Hot Water City Water 34 Domestic Hot Water Floor Heating Loop Radator City Water Solar Heat Source Domestic Hot Water Floor Heating Loop Radator High Temperature Room Thermostat(Field supply) Low Temperature Motorized 2way control valve(Field supply) Shut-off valve By-pass valve(Field supply) Motorized 3way control valve (Field supply) 35
© Copyright 2024 ExpyDoc
