Cooling Capacity 3.5kW - 101.6kW Heating Capacity 4.4kW - 98.6kW Water-Cooled Air Conditioning Giving you complete control
More than just another air conditioning company. We re dedicated to pioneering innovative new technologies and creating market-leading, easy-to-use solutions that offer you complete control. The sky s the limit with Temperzone water-cooled When buildings head skyward, only Temperzone s water-cooled air conditioning system has what it takes to meet your climate control challenges. A key fixture of many CBD high-rise developments throughout Oceania and Asia, our innovative water-cooled units are more reliable, economical, flexible, and environmentally friendly than any air-cooled alternative. And while other systems struggle to deliver as the floors stack up, our technology has been engineered to deliver optimum performance in multi story buildings particularly those exceeding 15-storeys. Why water-cooled rules the roost up high Temperzone s water-cooled technology combines the benefits of a water-cooled condenser with an air-cooled evaporator, delivering a level of performance that refrigerant-based units can t. Available in capacities from 3.5kW to 101.6kW, they re also designed to run on individual power sources, eliminating the need to install expensive central plants. And because they re designed to fit into virtually any internal space or cavity, they re ideal for high-rise buildings that prohibit the use of balcony units. Enabling pump power savings of up to 36% and carbon emission reductions of up to 20%, a Temperzone water-cooled system can also play a central role in developing a sustainable energy strategy or energy upgrade for any building. Page 1
How our water-cooled systems can change with the times Rather than having to plan your entire air conditioning layout in advance, Temperzone s water-cooled modular technology offers you the unique ability to expand or adapt your system as a building s commercial demands evolve. And because each unit connects to an individual meter and power source, users are only billed for their own usage. It s just another way Temperzone s water-cooled range gives tenants complete control of their air conditioning needs. Multiple units can be used to cater for vastly different uses within the same building. For example, you can choose to cool or heat a large open-plan office area while also employing a range of separate water-cooled units to service 20 small meeting rooms. 3.5 46% 58% 2.0 2.6 4.1 3.8 0.0 1.0 AEER 3.0 4.0 ECO HWP - Energy efficiency comparison 1st Gen. HW* MEPS New Gen HWP** ECO HWP** * ** * ** HW 301 HWP 118 Page 2 HW 301 HWP 118
Why more builders and developers are turning to Temperzone water-cooled technology Unprecedented flexibility, outstanding economy and solid green credentials are only the start. Other benefits include: Easy installation procedure simply add power and tap into a water supply. Simple design that ensures servicing can take place without shutting down the entire building. High reliability levels and low maintenance requirements. Low noise levels. BMS compatibility, enabling you to remotely monitor and quickly identify faults in individual units. The ability to cope with a wide range of water temperatures, enabling our units to deliver outstanding performance. Ease when retrofitting. BMS located in the basement Plant Room BMS communication cable (2 wire shielded). Maximum cable length is 1000m. BMS Page 5
Water Cooled Why Temperzone? As innovative market leaders in air conditioning technology development, Temperzone is ideally positioned to play a partnering role in your commercial projects and to ensure you select the right solutions for your needs. Because our systems are all designed, manufactured and supported using home-grown expertise, you can always rely on the convenience of ready availability and easily accessible technical support. Page 7
Best In-Class Comfort and Saving Temperzone s state-of-the-art ThermoShell technology and intuitive controls enable precise room temperature settings, energy savings, and the flexibility of individual room comfort within a large complex. ThermoShell Efficiency Offering up to 6% reduction in nominal water flow rate and up to 34% reduction in water pressure drop, Temperzone s state-of-the-art ThermoShell sets new standards in water-cooled technology. Enabling a reduction in hydronic equipment size, it reduces capital and operating costs while increasing building sustainability. Technological advancements HWP Comparison 0.36 l/s 0.34 l/s 6% reduction Nominal water flow rate Current New Gen 62 HWP # HWP ## kpa 41 kpa 34% reduction Water pressure drop Current HWP + New Gen HWP ++ # HWP 58 ## HWP 59 + HWP 96 ++ HWP 98 Page 9
Technological advancements Life Long Efficiency Unlike coaxial and plate-type heat exchangers, ThermoShell prevents degradation in heat transfer efficiency due to water fouling, facilitating reliable operation throughout the unit service life. ThermoShell Heat Heat Exchanger ThermoShell R Refrigerant Coaxial Heat Exchanger 25 C 25 C Coaxial Heat Exchanger Plate Heat Exchanger Piping has a very undulated No Loss in heat exchange surface making it prone to efficiency with extreme water fouling. non-fouling Many plates at extremely close intervals create a very receptive fouling surface. technology 25 C Plate Heat Exchanger Refrigerant in Piping has a very undulated Water out it prone to surface making Non water foulingfouling. surface extreme 20 C Refrigerant in Cooling Tower 20 C Many plates at extremely close intervals create a very Water out receptive fouling surface. Cooling Tower New Gen HWP New Gen HWP30 C Supply water Plate Water in water out refrigerant in Supply water35 C 30 C Return water Plate Return water 35 C Previous HWP 20 C Previous HWP +5+17 +50 C to to +50 C New Gen HWP 5 Control 10 15 20 25 New Gen HWP Simultaneous Cooling and Heating 5 Temperzone s individual UC Intuitive control system makes it easy to maintain a unit at the prescribed temperature. It offers the flexibility to exert complete control on climate and comfort outcomes, or allow the control system to make the decisions for you. +17 to +50 C 10 15 20 25 30 35 Cooling Tower 40 45 50 +5EWT to range +50 C in cooling at nominal water flow ( C ) 30 35 40 New Gen HWP 50 * HWP 96 ** HWP 98 45 Each unit allows a simultaneous same-floor heating Supply water 30 C and cooling capacity via a single water piping system. EWT range in cooling at nominal water flow ( C ) * HWP 96 ** HWP 98 The lower end of cooling and heating functions have been extended to enable a water Return water 35 C temperature operating range to 5 C, creating a wider spectrum of potential applications. Controlled via an easy-to-use, wall-mounted SAT-3 or TZT-100 touch pad featuring LCD display panel, possible system upgrades include multiple-room controllers, remote temperature sensors and individual temperature control. Previous HWP New Gen HWP 5 10 15 20 25 +17 to +50 C +5 to +50 C 30 35 40 45 50 EWT range in cooling at nominal water flow ( C ) * HWP 96 ** HWP 98 Page 10 Page 11
Standard Features Versatility Flexible handing configurations Galvanised Steel construction Filter box with inbuilt filter slides* AS1530.3 compliant Insulation Internal condensate pump* Efficiency Thermo Shell technology** High Efficiency Motors* Epoxy coated Evaporator Coils Advanced Rifle bore Copper Tubes 13mm foil face insulation polyurethane High efficiency compressors Control Intuitive UC Control* Precise Temperature Control BMS Connectivity with Modbus/BACnet 3rd Party Control Integration with 12VAC or 24VDC control Dry Contact Fault Output 0-10V EC Fan Motor speed* Electronic Regulating Valve Signal Pump call and pump flow verifications Installation Ease of wiring Low Profile models Vertical handling on CWP Adjustable Indoor Airflow control Rigid structural construction Simplistic maintenance with Access Panels Drain tray compliant to AS3666 Removal drain pan* Rectangular spigot EC Fans* Increase energy savings at part load conditions with variable 0-10V dc control signal Increase fan reliability and efficiency by soft starting Superior noise attenuation with forward curved fans AC Fans* Increase comfort conditions with 3 speed control Superior noise attenuation with forward curved fans Thermso Shell Heat exchanger** Superior heat transfer with counter flow finned rifle bore copper tubes to suit harsh conditions Long life non-fouling technology Coils Superior epoxy coated fins and advanced rifle bore copper tubes Sheet metal Durable galvanised steel cabinet Durable polyester powder drain tray Leak free access door construction Easy service and maintenance access using panels Insulation Highly durable closed cell foam insulation to ensure no particles are introduced into the air stream Meets fire test standards AS 1530.3 (1989) and BS 476 parts 6 and 7 Controls Meets BCA requirements for fresh air provision Simplified BMS integration with Modbus and BACnet communication protocol Easy integration with 3rd party controls with 12VAC or 24VDC control * Contact Temperzone ** HWP 36 142 Page 12 Page 13
Capital vs. Running Costs Spending more on an energy efficient unit at the outset will save on running costs and ongoing maintenance well into the future. Cost Additional maintenance costs. Higher running costs each year which may escalate with energy prices growing. $$ ECO+ system. Higher initial cost Less running costs means the machine has paid for itself within a few years. $ Standard system. Lower initial cost Time Contact the Temperzone team to help you crunch the numbers on your project. Page 15
Standard Range options and features Horizontal Water Cooled <10kW Shown model: HWP 79 Horizontal Water Cooled >10kW Shown model: HWP 225 The range of options available allow you to customise your desired unit, giving you ultimate control and flexibility. Series HWP HWP HWP Model 36-118 141-225 290-445 EC Fan Motor 0-10VDC Fan Speed Control Handing Options Electric Heat Option * BMS Connection Vertical Water Cooled >55kW Shown model: CWP 1030 Series CWP CWP CWP CWP Model 0063-0132 0178-0266 0374-0568 0890-1030 EC Fan Motor 0-10VDC Fan Speed Control Handing Options Electric Heat Option Cabinet Color Option BMS Connection OPTION STANDARD N/A * Electric Heating not available on the HWP 291 Vertical Water Cooled <11kW Shown model: CWP 0083 Vertical Water Cooled 11kW- 55kW Shown model: CWP 0132 Page 16 Page 17
Standard Range Single Phase HWP Checklist Chart Model HWP 36 HWP 48 HWP 59 HWP 79 HWP 98 Capacity (Range) kw Nominal Cooling Capacity *2 (kw) 3.5 4.4 5.9 8.1 9.9 Net Cooling Capacity (kw) 3.4 4.3 5.7 7.9 9.8 Efficiency Cooling (EER/AEER) 3.64 / 3.59 3.64 / 3.62 3.61 / 3.60 3.71 / 3.70 3.77 / 3.76 Heating Capacity *3 (kw) 3.7 4.6 5.4 8.9 11.1 Efficiency Heating (COP/ACOP) 3.82 / 3.79 3.66 / 3.64 3.62 / 3.61 4.18 / 4.16 4.22 / 4.21 Electric Heat Option (kw) 2 2 3 4 4 Nominal Supply Air Flow l/sec 190 230 320 500 560 Sound Pressure Level *4 db(a) 41 41 46 46 46 Power Supply *1 Single Phase (230-240V 50Hz) Single Phase (230-240V 50Hz) Run Amps at Nominal Conditions 4.2 5.2 7.6 9.1 11.5 Water Flow l/sec 0.22 0.27 0.34 0.50 0.65 Water Pressure Drop kpa / psi 27.6 / 4 27.6 / 4 41 / 6 70 / 10 41 / 6 Water Connections Ø mm / BSP 13 / ½" 13 / ½" 13 / ½" 19 / ¾" 19 / ¾" Dimensions (mm) Width 928 928 1255 1213 1213 Height 355 355 355 415 415 Depth 788 788 788 721 721 Weight (kg) Weight (excluding water) 70 70 85 102 112 NOTES: *1 Voltage fluctuation limits: Single Phase models 200 252 V a.c. *2 Nominal Cooling Capacity at AS/NZS 3823.1.3 conditions: Entering Water Temperature 30 C; Entering Air Temperature 27 C D.B., 19 C W.B. *3 Heating Capacity (HWP R version only) at AS/NZS 3823.1.3 conditions: Entering Water Temperature 21 C; Entering Air Temperature 21 C D.B. *4 SPL measured to JIS 8616 (1 m from source in an anechoic chamber) at nominal supply air flow, with 1 m insulated duct. *5 Pressure Drops based on nominal water flow. Materials and specifications subject to change without notice due to the manufacturer s ongoing research and development programme. Page 18 Page 19
Standard Range Three Phase HWP Checklist Chart Model HWP 118 HWP 142 HWP 171 HWP 191 HWP 225 HWP 290 HWP 291 *6 HWP 370 HWP 445 Capacity (Range) kw Nominal Cooling Capacity *2 (kw) 12.2 14.7 15.9 18.9 23.1 28.7 19 / 27.7 / 31 36.6 44.5 Net Cooling Capacity (kw) 11.9 14.1 15.3 18.3 22.2 27.5 27.2 34.65 42.2 Efficiency Cooling (EER/AEER) 3.84 / 3.83 3.80 / 3.79 3.57 / 3.56 3.59 / 3.58 3.52 / 3.51 3.60 / 3.59 3.94 / 3.93 3.71 / 3.70 3.41 / 3.41 Heating Capacity *3 (kw) 11.9 14.8 16.5 18.4 22.3 28.6 28.5 34.9 42.2 Efficiency Heating (COP/ACOP) 3.80 / 3.79 4.10 / 4.09 4.07 / 4.06 4.11 / 4.10 3.85 / 3.84 3.88 / 3.87 4.28 / 4.26 3.86 / 3.85 3.64 / 3.64 Electric Heat Option (kw) 6 6 9 12 12 18 N/A 18 24 Nominal Supply Air Flow l/sec 620 775 1015 1060 1180 1500 1400 1900 2300 Sound Pressure Level *4 db(a) 49 51 58 54 58 68 67 67 68 Power Supply *1 3 Phase 400V 50Hz 3 Phase 400V 50Hz Run Amps at Nominal Conditions 5.1 / 3.7 / 4.2 7.9 / 4.6 / 4.5 9.3 / 7.4 / 7.6 10.6 / 7.7 / 8.0 14.6 / 10.9 / 10.8 16.38 / 16.38 / 12.2 17 / 17 / 11.5 18.38 / 18.38 / 14.2 22.98 / 22.98 / 22.98 Water Flow l/sec 0.74 0.9 0.9 1.17 1.2 1.5 1.58 2.0 2.25 Water Pressure Drop kpa / psi 55 / 8 70 / 10 14.2 / 6 44.9 / 6.5 34.5 / 5 46.2 / 7.4 48 / 6.9 48.3 / 7 34.5 / 5 Water Connections Ø mm / BSP 19 / ¾" 19 / ¾" 25 / 1" 25 / 1" 25 / 1" 32 / 1¼" 32 / 1¼" 32 / 1¼" 32 / 1¼" Dimensions (mm) Width 1283 1283 1505 1670 1845 1935 1965 2050 2280 Height 425 507 506 526 575 655 695 655 673 Depth 721 771 700 700 705 875 940 875 875 Weight (kg) Weight (excluding water) 117 141 160 179 215 270 308 290 385 NOTES: *1 Voltage fluctuation limits 3 Phase models 342 436 v.a.c. *2 Nominal Cooling Capacity at AS/NZS 3823.1.3 conditions: Entering Water Temperature 30 C; Entering Air Temperature 27 C D.B., 19 C W.B. *3 Heating Capacity (HWP R version only) at AS/NZS 3823.1.3 conditions: Entering Water Temperature 21 C; Entering Air Temperature 21 C D.B. *4 SPL measured to JIS 8616 (1 m from source in an anechoic chamber) at nominal supply air flow, with 1 m insulated duct. *5 Pressure Drops based on nominal water flow. *6 Inverter Compressor. Materials and specifications subject to change without notice due to the manufacturer s ongoing research and development programme. Page 20 Page 21
Standard Range Single Phase CWP Checklist Chart Model CWP 0063 CWP 0083 CWP 0096 CWP 0109 CWP 0132 Capacity (Range) kw Nominal Cooling Capacity *2 (kw) 6.27 8.31 9.63 10.9 13.14 Net Cooling Capacity (kw) 6.14 8.09 9.37 10.58 12.77 Efficiency Cooling (EER/AEER) 3.53 / 3.51 3.64 / 3.58 3.564 / 3.558 3.62 / 3.54 3.523 / 3.517 Heating Capacity *3 (kw) 6.63 8.34 9.58 10.27 11.9 Efficiency Heating (COP/ACOP) 4.31 / 4.28 4.34 / 4.27 4.06 / 4.00 3.89 / 3.80 3.86 / 3.80 Electric Heat Option (kw) 2.5 3 4 4.5 5.5 Nominal Supply Air Flow l/sec 380 490 570 600 770 Sound Pressure Level *4 db(a) 55.1 60.4 63.4 63.4 58.6 Power Supply *1 Single Phase (230-240V 50Hz) Single Phase (230-240V 50Hz) Run Amps at Nominal Conditions 7.5 9.63 11.38 15.3 24.65 Water Flow l/sec 0.42 0.5 0.58 0.67 0.8 Water Pressure Drop kpa / psi 20.7 / 3 27.6 / 4 34.5 / 5 27.6 / 4 41.4 / 6 Water Connections Ø mm / BSP 19 / ¾" 25 / 1" 25 / 1" 25 / 1" 32 / 1¼" Dimensions (mm) Width 740 740 740 740 855 Height 1430 1465 1465 1465 1400 Depth 650 650 650 650 780 Weight (kg) Weight (excluding water) 150 170 170 176 216 NOTES: *1 Voltage fluctuation limits 3 Phase models 342 436 v.a.c. *2 Nominal Cooling Capacity at AS/NZS 3823.1.3 conditions: Entering Water Temperature 30 C; Entering Air Temperature 27 C D.B., 19 C W.B. *3 Heating Capacity (CWP R version only) at AS/NZS 3823.1.3 conditions: Entering Water Temperature 21 C; Entering Air Temperature 21 C D.B. *4 SPL measured to JIS 8616 (1 m from source in an anechoic chamber) at nominal supply air flow, with 1 m insulated duct. *5 Pressure Drops based on nominal water flow. Materials and specifications subject to change without notice due to the manufacturer s ongoing research and development programme. Page 22 Page 23
Standard Range Three Phase CWP Checklist Chart Model CWP 0109 CWP 0132 CWP 0178 CWP 0217 CWP 0266 CWP 0374 CWP 0447 CWP 0568 CWP 0890 CWP 1030 Capacity (Range) kw Nominal Cooling Capacity *2 (kw) 10.87 13.14 17.8 21.74 26.28 37.44 44.7 57.54 89 101.6 Net Cooling Capacity (kw) 10.58 12.77 17.25 21.16 25.54 36.16 42.94 55.74 83.4 Efficiency Cooling (EER/AEER) 3.526 / 3.52 3.523 / 3.517 3.58 / 3.52 3.6 / 3.52 3.523 / 3.517 3.688 / 3.646 3.688 / 3.57 3.716 / 3.65 3.456 / 3.24 2.99 / 2.982 Heating Capacity *3 (kw) 10.27 11.9 16.41 20.54 23.8 35.5 46.63 53.1 84.4 98.6 Efficiency Heating (COP/ACOP) 3.98 / 3.80 3.98 / 3.8 3.98 / 3.92 4.09 /4.03 3.839 / 3.78 4.06 / 4.05 3.99 / 3.98 4.0 / 3.93 3.59 / 3.585 3.31 / 3.308 Electric Heat Option (kw) 4.5 5.5 6.5 8 10 15 21 22.5 34.5 39 Nominal Supply Air Flow l/sec 600 770 920 1210 1535 1940 2315 2935 4600 4960 Sound Pressure Level *4 db(a) 63.4 58.6 62.9 69.3 66.3 42.3 69.3 69.3 82 81 Power Supply *1 3 Phase 400V 50Hz 3 Phase 400V 50Hz Run Amps at Nominal Conditions 5.5 / 4.5 / 4.4 6.0 / 5.7 / 5.7 8.3 / 8.1 / 8.1 10.2 / 10.1 / 10 10.4 / 9.8 / 9.8 17.6 / 15.9 / 16.6 22.3 / 21.8 / 22 27.4 / 26.4 / 26.8 45.1 / 45.9 / 45.7 60.3 / 60.3 / 57.1 Water Flow l/sec 0.67 0.8 1.08 1.34 1.60 2.27 2.6 3.4 4.9 5.7 Water Pressure Drop kpa / psi 27.6 / 4 41.4 / 6 34.5 / 5 27.6 / 4 27.6 /4 27.6 / 4 27.6 / 4 27.6 / 4 34.5 / 5 31.05 / 4.5 Water Connections Ø mm / BSP 25 / 1" 32 / 1¼" 32 / 1¼" 38 / 1½" 38 / 1½" 51 / 2" 51 / 2" 51 / 2" 64 / 2½" 76 / 3 Dimensions (mm) Width 740 855 855 1320 1320 1520 2070 2070 1990 2360 Height 1465 1400 1400 1490 1490 1745 1845 2100 1905 2225 Depth 650 780 780 1035 1035 1035 1090 1090 1160 1365 Weight (kg) Weight (excluding water) 176 216 226 330 460 530 655 770 795 1140 NOTES: *1 Voltage fluctuation limits 3 Phase models 342 436 v.a.c. *2 Nominal Cooling Capacity at AS/NZS 3823.1.3 conditions: Entering Water Temperature 30 C; Entering Air Temperature 27 C D.B., 19 C W.B. *3 Heating Capacity (CWP R version only) at AS/NZS 3823.1.3 conditions: Entering Water Temperature 21 C; Entering Air Temperature 21 C D.B. *4 SPL measured to JIS 8616 (1 m from source in an anechoic chamber) at nominal supply air flow, with 1 m insulated duct. *5 Pressure Drops based on nominal water flow. Materials and specifications subject to change without notice due to the manufacturer s ongoing research and development programme. Page 24 Page 25
Sydney: (02) 8822 5700 Newcastle: (02) 4962 1155 Christchurch: (03) 379 3216 Townsville: (07) 4774 3506 Perth: (08) 6399 5900 Jakarta: (21) 2963 4983 Adelaide: (08) 8115 2111 Launceston: (03) 6331 4209 Singapore: (65) 6733 4292 Brisbane: (07) 3308 8333 Auckland: (09) 279 5250 Shanghai: (21) 5648 2078 Melbourne: (03) 8769 7600 Wellington: (04) 569 3262 Auckland (Head Office and Manufacturing) Sydney (Australian Head Office and Manufacturing) Branches Wellington, Christchurch, Brisbane, Melbourne, Adelaide, Singapore, Shanghai and Jakarta. Distributors North Queensland, Perth, Launceston, Newcastle, Singapore, Shanghai, Beijing, Jakarta, Hong Kong, Sri Lanka, Mauritius, Bangalore, Bangkok, Hanoi, Cambodia, South Pacific Islands and Bangladesh.