XStream Water-cooled screw chillers and Water/Water Heat pumps

XStream Water-cooled screw chillers and Water/Water Heat pumps Refrigerant R134a Model 275-515 (940 to 1860 kw) Model 330 - K00 (1140 to 3670 kw) RLC-PRC058C-GB

Table of Contents Introduction...3 Feature and benefits...4 Base unit description...7 Options description...8 Part load efficiency calculation... 10 General data... 11 Heating performance... 18 Operating maps... 19 Pressure drops...20 Electrical data...26 Acoustic data...27 2 2017 Trane RLC-PRC058C-GB

Introduction The new Trane XStream series is the result of a search for higher reliability and higher energy efficiency, for today s environment. In an effort to reduce energy consumed by cooling and heating equipment and to continually operate, Trane has developed the XStream series chillers and heat pumps with higher efficiencies and a more reliable design than any other water-to-water equipment available on the market today. The XStream series uses the proven design of the Trane helical-rotary compressors, which embraces all of the design features that have made the Trane helical-rotary compressor liquid chillers such a success since 1987. The industrial-grade design of this helical rotary chillers and heat pumps is ideal for both industrial and commercial markets, in applications such as office buildings, hospitals, schools, retail buildings, and industrial facilities. The major advantages of the XStream series are: Extended and unmatched capacities High efficiencies both in cooling and heating 99.5% reliability rate Suitable with high condensing temperature and heat pump applications with possible delivery of hot water up to 68 C () Great versatility to adapt to varying applications requirements XStream series come in several versions and efficiency levels, to allow customers to make the best choice according to his main criteria, whether they are economical or environmental. offers 3 efficiency levels Standard Efficiency (SE), High Efficiency (HE), High Seasonal Efficiency (), featuring Trane Adaptive Frequency Drive (AFD) to reach High Part Load Efficiencies (ESEER) offers 2 efficiency levels Extra Efficiency (XE) High Seasonal Efficiency (), featuring Trane Adaptive Frequency Drive (AFD) to reach the highest Part Load Efficiencies (ESEER) RLC-PRC058C-GB 3

Features and benefits Trane Helical-Rotary Compressors Unequaled-reliability. Trane helical-rotary compressor are designed, built, and tested to the same demanding and rugged standards as the previous generation helical-rotary compressors used in both air- and watercooled chillers for more than 27 years. Years of research and testing. The Trane helical-rotary compressors have amassed thousands of hours of testing, much of it at severe operating conditions beyond normal commercial air- conditioning applications. Proven track record. The Trane Company is the world s largest manufacturer of large helicalrotary compressors used for refrigeration. Over 300,000 compressors worldwide have proven that the Trane helical- rotary compressors have a reliability rate of greater than 99.5% in the first year of operation unequalled in the industry. Resistance to liquid slugging. The robust design of the Trane Series R compressor can ingest amounts of liquid refrigerant that normally would severely damage compressor. Fewer moving parts. The helical- rotary compressor has only two rotating parts: the male rotor and the female rotor. Direct-drive, low-speed, semi- hermetic compressor for high efficiency and high reliability. Field-serviceable compressor for easy maintenance. Suction-gas-cooled motor. The motor operates at lower temperatures for longer motor life. Five minute start-to-start and two minute stop-tostart anti-recycle timer allows for closer water-loop temperature control. Capacity Control and Load Matching The combination patented unloading system on Trane helical- rotary compressors uses the variable unloading valve for the majority of the unloading function. This allows the compressor to modulate infinitely, to exactly match building load and to maintain chilled-water supply temperatures within ± 0.3 C of the set point. Helicalrotary chillers that rely on stepped capacity control must run at a capacity equal to or greater than the load, and typically can only maintain water temperature to around ± 1 C. Much of this excess capacity is lost because overcooling goes toward removing building latent heat, causing the building to be dried beyond normal comfort requirements. On and version, the combination of the variable unloading valve plus the Adaptive Frequency drive allows exactly matching building load and getting excellent efficiencies at full load and part load. units (AFD equipped) are fully compliant with Class C3 (Industrial environment) requirements of EN61800-3 standard. CHIL evaporator Trane developed an evaporator specially designed for XStream chillers. Compact - High performance - Integrated design - Low charge (CHIL) evaporator optimizes the flow of the refrigerant to get an excellent heat exchange with water in every operating condition and minimize the quantity of refrigerant used. Trane GP2 compressor High Lift applications When considering heat pump or low leaving temperatures industrial process applications, compressor operates under severe pressure conditions, which, if not anticipated may be harmful for compressor or considerably decrease life and reliability of compressor. For high lift applications, XStream units, feature a dedicated compressor design to keep up with those harsh operating conditions. Therefore, units can reach temperatures as low as -12 C on the evaporator side or as high as 68 C on the condensing side, yet keeping high efficiency and premier reliability. 4 RLC-PRC058C-GB

Features and benefits Variable Primary Flow An attractive chilled-water system option may be a variable primary flow (VPF) system. VPF systems present building owners with several cost-saving benefits that are directly related to the pumps. The most obvious cost savings result from eliminating the secondary distribution pump, which in turn avoids the expense incurred with the associated piping connections (material, labor), electrical service, and variablefrequency drive. Building owners often cite pump related energy savings as the reason that prompted them to install a VPF system. With the help of a TRANE software analysis tool, you can determine whether the anticipated energy savings justify the use of variable primary flow in a particular application. It may also be easier to apply variable primary flow in an existing chilled-water plant. Unlike the decoupled design, the bypass can be positioned at various points in the chilled-water loop and an additional pump is unnecessary. The evaporator in the XStream series can withstand up to 50% percent water flow reduction as long as this flow is equal to or above the minimum flow-rate requirements. The microprocessor and capacity control algorithms are designed to handle a maximum of 10% change in water flow rate per minute in order to maintain ±0.3 C leaving evaporator temperature control. For applications in which system energy savings is most important and tight temperature control is classified as ±1.1 C, up to 30% changes in flow per minute are possible. Factory Testing Means Trouble-Free Start-up All XStream chillers are given a complete functional test at the factory. This computer-based test program completely checks the sensors, wiring, electrical components, microprocessor function, communication capability, expansion valve performance, and fans. In addition, each compressor is run-tested to verify capacity and efficiency. Where applicable, each unit is factory preset to the customer s design conditions. An example would be the leaving-liquid temperature set point. The result of this test program is that the chiller arrives at the job site fully tested and ready for operation. Factory-Installed and Tested Controls and Options Speed Installation All XStream chiller options are factory installed and tested. Some manufacturers send accessories in pieces to be field installed. With Trane, the customer saves on installation expense and has assurance that ALL chiller controls and options have been tested and will function as expected. Superior Control with UC 800 Chiller controls The Adaptive Control microprocessor system enhances the XStream chiller by providing the very latest chiller control technology. With the Adaptive Control microprocessor, unnecessary service calls and unhappy tenants are avoided. The unit does not nuisance-trip or unnecessarily shut down. Only when the chiller controls have exhausted all possible corrective actions and the unit is still violating an operating limit, will the chiller shut down. Controls on other equipment typically shut down the chiller, usually just when it is needed the most. RLC-PRC058C-GB 5

Features and benefits SmartFlow control XStream series units are fully compatible with variable flow operation both on evaporator and condenser sides. The modulation of the pump speed is managed to ensure that chiller T stays constant. Entering and leaving temperatures at the evaporator will be measured directly by the chiller controller, through the factorysupplied sensor. A T setpoint will be present on the unit controller. The option for constant T is intended to be used with 3-way valves on water systems, or 2-way valves on water system but constant flow at the by-pass. System option: Ice storage UC 800 optimization software controls operation of the required equipment and accessories to easily move from one mode of operation to another. For example: even with ice-storage systems, there are numerous hours when ice is neither produced nor consumed, but saved. In this mode, the chiller is the sole source of cooling. For example, to cool the building after all ice is produced but before high electrical demand charges take effect, UC 800 sets the chiller leaving- fluid set point to its most efficient setting and starts the chiller, chiller pump, and load pump. When electrical demand is high, the ice pump is started and the chiller is either demand limited or shut down completely. UC 800 controls have the intelligence to optimally balance the contribution of the ice and the chiller in meeting the cooling load. The capacity of the chiller plant is extended by operating the chiller and ice in tandem. UC 800 rations the ice, augmenting chiller capacity while reducing cooling costs. When ice is produced, UC 800 will lower the chiller leaving-fluid set point and start the chiller, ice and chiller pumps, and other accessories. Any incidental loads that persist while producing ice can be addressed by starting the load pump and drawing spent cooling fluid from the ice storage tanks. For specific information on ice storage applications, contact your local sales office. Series counterflow chiller configuration When considering multiple chillers plant, designers conventionally go for parallel-piped chillers configuration. Nevertheless, there are ways to bring more efficiency by using a different chiller lay-out. An effective alternative to consider is to pipe the chillers in series. Larger T and low flow design save energy on the pumping. Series chiller configuration allows as well, to get a better efficiency from the upstream chiller, more lightly loaded. Combining this configuration with Variable Primary Flow (VPF) will further increase system efficiency. Series piping principle can also be applied to condenser side. This is called Series-Series counterflow configuration. This will result in similar advantages on the condenser side, enlarging the opportunity for savings on the overall system. For more information on Series chillers arrangements, refer to Trane Application Engineering Manual about Multiple-Chiller system design and control (SYS-AP M001). 28 C 5 C 1800 kw 33 C 10 C 1800 kw 38 C 15 C Product certification Trane as a Global leader in the HVAC industry participates to both Eurovent and AHRI chillers certification programs. Through this third party certifications, Trane commits to deliver units that comply with the declared performance. 6 RLC-PRC058C-GB

Base unit description SE HE XE Power supply Compressor type Trane CHHP 400 V - 3 Ph - 50 Hz - Single point Trane CHHC Trane CHHP Compressor technology Fixed speed AFD Number of circuits 2 Compliance CE - PED Condenser application Evaporator application Refrigerant Relief valve Evaporator water connections Evporator water side pressure Condenser water connections Condenser water side pressure Flow Control Power protection Electrical IP protection Installation accessories Cooling : Entering Condenser Water Temp 35 C Heating: Low temp Water to Water HP operation Cooling - Leaving Evaporator Water Temp 4.4 C R-134a Single relief valve on condenser Direct Connection - Grooved pipes 10 bars Direct Connection - Grooved pipes 10 bars Constant Flow - Pump signal On/Off (Condenser + Evaporator) Fused Enclosure with Dead Front protection Optional Trane CHHC RLC-PRC058C-GB 7

Options description Option Description 400 V - 3 Ph - 50 Hz - Dual point Condenser Application High Temp Condenser Med & High temp water to water HP operation Low temp water to water heat pump operation 2 distinct power supplies, one per circuit Compressor design optimized for high compression ratio Compressor design optimized for high compression ratio + Condenser leaving water temperature control Condenser Leaving water temperature control 2 pass condenser Additional pass on condenser side Evaporator Application Process Cooling - Leaving Evaporator Water Temp < 4.4 C Ice making Sound Attenuation Package Relief Valve Single relief Valve on both condenser and evaporator Dual Relief valve on condenser only Dual relief Valve on both evaporator and condenser Evaporator water connection Left hand Connection Right hand Connection No insulation on cold parts Condenser water connection Left hand Connection Right hand Connection Condenser thermal insulation SmartFlow Control VPF Constant Delta T Evaporator VPF Constant Delta T Condenser VPF Constant Delta T Evaporator and Condenser Power protection Compressor design optimized for high compression ratio Compressor design optimized for high compression ratio + Dual setpoint (Comfort / Ice making) Additional compressor sound enclosure Additional relief valve on Low pressure side 2 relief valve with by 3 way valve on high pressure side 2 relief valve with by 3 way valve on both high and low side Additional pipe allowing Evaporator connections on the right side of the unit (facing control panel) Additional pipe allowing Evaporator connections on the left side of the unit (facing control panel) Unit delivered without insulation on Evaporator and cold parts Additional pipe allowing Condenser connections on the right side of the unit (facing control panel) Additional pipe allowing Condenser connections on the left side of the unit (facing control panel) Thermal insulation of condenser Optional PC board delivering a 2-10 V modulating signal output to control a pump motor speed inverter Optional PC board delivering a 2-10 V modulating signal output to control a pump motor speed inverter Optional PC board delivering a 2-10 V modulating signal output to control a pump motor speed inverter Unit protection by Circuit Breaker Factory mounted Accessory (not fitted) - Not proposed Application Renovation. Replacement of two smaller units by one only. Dry cooler applications with up to 68 C Condenser leaving water Heat pump applications with Leaving water up to 68 C Heat pump applications with condenser entering water temperature up to 35 C Condenser application with Delta T > 7K ( HE and ) Process cooling applications down to -12 C leaving water Ice storage applications for Ice making temps as low as -7 C Sound reduction of 3 db(a) per Compressor Available for - - - - - - Additional pressure safety device Maintenance Maintenance Supply and return water on the same side of the unit Supply and return water on the same side of the unit For field supplied insulation by customer Supply and return water on the same side of the unit Supply and return water on the same side of the unit Heat Pump application to avoid wasted heat Evaporator variable speed pump control based on a constant Delta T Condenser variable speed pump control based on a constant Delta T Evaporator and Condenser variable speed pump control based on constant Delta T's Protection of compressors against over current 8 RLC-PRC058C-GB

Options description Option Description Under/over voltage protection Under/Over voltage protection Under/Over voltage protection + ground fault protection Smart Com protocole BACNet MSTP interface BACNet IP interface ModBus RTU interface LonTalk Interface External setpoints & capacity outputs Phase monitoring device Phase monitoring device + differential circuit breaker Communication card Communication card Communication card Communication card Programmable Input/Output card and sensors Application Protection of unit against voltage unbalance (Standard feature on variable speed units) Protection of unit against voltage unbalance and ground fault Communication with BMS through BACNet MSTP Protocol Communication with BMS through BACNet IP Protocol Communication with BMS through Modbus Protocol Communication with BMS through LonTalk Protocol Remote Control or remote monitoring Available for Outdoor Air Temp Sensor With Outdoor Air Temp Sensor Measurement of Outdoor ambient air temp to perform water set point offset Electrical IP Protection IP 20 protection Electrical safety Master slave operation Energy metering Condenser Refrigerant Pressure Output Condenser Water Control Output Condenser Pressure (%HPC) Output Differential Pressure Output Power socket Anti vibration accessories Neoprene isolators Communication card Additional energy meter Communication card - 0-10 V Analog output Communication card - 0-10 V Analog output Communication card - 0-10 V Analog output 230 V Power socket Operation of two chillers on a same water loop Monitors electricity consumption (kwh) of the full unit Allows to control a valve on condenser loop to perform proper unit start when condenser water loop is cold Allows control of cooling device based on condenser pressure (Ie. Cooling tower fan, 3-Way valve.) Allows control of a 3-way valve on condenser water loop Local Power source to connect an electrical device such as a Laptop Eliminates vibration transmission risk to building Neoprene pads Eliminates vibration transmission risk to building Grooved pipe with coupling & pipe stub 4 Grooved pipe adapters Allows welded connection to unit Flow Switch Evap or Condenser Flow switch Evap and Condenser Flow switch One Flow Switch delivered to be installed either on Evaporator or Condenser side Two Flow Switches delivered to be installed respectively on Evaporator and Condenser side Factory mounted Accessory (not fitted) - Not proposed Allows to check flow detection Allows to check flow detection RLC-PRC058C-GB 9

Part load efficiency calculation Trane and are both Eurovent and AHRI certified: Eurovent certification program certifies unit performances of units up to 1500 kw. AHRI certification program certifies unit performances of units above 750 kw (200 tons). ESEER (European Seasonal Energy Efficiency Ratio) Eurovent expresses part load efficiency using ESEER. ESEER is the weighted average of 4 net efficiencies (net EER) at 4 different operating conditions. Net EER is computed according to EN14511:2013 European standard. EN14511:2013 defines Net performances by taking into account the impact of Heat exchangers water pressure drop (or pumps when delivered as an option) on overall power consumption. Condition A B C D % Part Load 100% 75% 50% 25% Condenser Entering/Leaving water temp.( C) 30 / 35 26 / * 22 / * 18 / * Evaporator entering /Leaving water temp ( C) 12 / 7 * / 7 * / 7 * / 7 Operating time 3% 33% 41% 23% * Temperature change depending on Nominal flow (100% Load). To compute unit ESEER, use formula below: ESEER = net EER A x 3% + net EER B x 33% + net EER C x 41% +net EER D x 23% IPLV (Integrated Part Load Value) AHRI expresses part load using IPLV. IPLV is the weighted average of 4 gross efficiencies (gross EER) at 4 different operating conditions. IPLV is computed according to AHRI 551-591 Standard (SI Metric units). Condition A B C D % Part Load 100% 75% 50% 25% Condenser Entering water temp ( C) 30 24.5 19 19 Condenser Temperature change (K) 5 * Evaporator Leaving water temp ( C) 7 7 7 7 Evaporator Temperature change (K) 5 * Operating time 1% 42% 45% 12% * Temperature change depending on Nominal flow (100% Load). EER calculation is done using following fouling factors: Condenser: 0.0440 m² K/kW Evaporator: 0.0180 m² K/kW To compute unit IPLV, formula below must be used: IPLV = Gross EER A x 1% + Gross EER B x 42% + Gross EER C x 45% +Gross EER D x 12% 10 RLC-PRC058C-GB

General Data SE (Standard Efficiency) 275 SE 290 SE Gross Cooling Capacity (1) (kw) 940 984 1043 1113 1251 1398 1538 1677 Gross Power Input (1) (kw) 184 193 204 218 247 273 301 328 Gross EER (1) 5.11 5.10 5.11 5.11 5.07 5.13 5.11 5.12 Gross ESEER (Not certified) (1) 7.19 7.15 7.09 7.31 7.17 7.66 7.48 7.29 IPLV (2) 7.266 7.243 7.145 7.311 7.243 7.819 7.702 7.525 Net cooling capacity (1) (3) (kw) 936 980 1039 1109 1246 1393 1532 1671 Net Power Input (1)(3) (kw) 192 202 214 228 259 285 315 343 Net EER (1) (3) 4.87 4.85 4.86 4.86 4.81 4.88 4.86 4.87 Eurovent Energy class - Cooling B B B B B B B B Net ESEER (3) 6.16 6.05 6.01 6.18 6.04 6.48 6.35 6.23 SEER (4) 6.45 6.40 6.78 6.78 6.80 7.25 7.33 7.25 Space cooling efficiency ηs,c (4) (%) 250 248 263 263 264 282 285 282 Compressor Circuit 1 2 2 2 2 2 2 2 2 Circuit 2 1 1 1 1 1 2 2 2 Evaporator Pass 1 Nominal Flow (1) l/s 44.8 46.9 49.7 53.0 59.6 66.6 73.3 79.9 Pressure Drop (1) kpa 53 58 58 59 59 59 59 59 Minimum Flow l/s 18.0 18.0 19.1 20.4 23.3 252.0 28.0 31.0 Maximum Flow l/s 65.9 65.9 70.2 74.9 85.3 93.0 103.0 113.0 Water Connection Type Grooved end Water Connection Size in 6 6 6 6 6 8 8 8 Condenser Pass 1 Nominal Flow (1) l/s 54.3 56.8 60.2 64.2 72.3 80.7 88.8 96.8 Pressure Drop (1) kpa 62 68 67 67 75 69 72 70 Minimum Flow l/s 17.8 17.8 19.3 20.8 22.2 24.8 27.1 30.2 Maximum Flow l/s 62.5 65.2 70.7 76.3 81.4 91.0 99.5 110.7 Water Connection Type Grooved end Water Connection Size in 6 6 6 6 6 8 8 8 Refrigerant Type R134a Charge Circuit 1 kg 163 163 163 163 155 155 155 155 Charge Circuit 2 kg 76 76 76 76 155 155 155 155 Dimensions & Weight Length mm 4754 4754 4784 4784 4784 4774 4774 4774 Width mm 1727 1727 1727 1727 1727 1823 1823 1823 Height mm 2032 2032 2032 2032 2032 2135 2135 2135 Operating weight kg 5276 5273 5456 5511 5574 6945 7025 7109 310 SE 330 SE 370 SE 410 SE 450 SE 490 SE (1) Evaporator 12/7 C and 0.0 m²k/kw, and condenser at 30/35 C and 0.0 m²k/kw. (2) According to AHRI Standard 550/590, based on TOPSS (Trane Official Product Selection Software). (3) Net performances calculated as per EN 14511-2013. (4) ηs,c / SEER as defined in Directive 2009/125/EC of the European Parliament and of the Council with regard to Ecodesign requirements for Comfort Chillers with 2000 kw maximum capacity - COMMISSION REGULATION (EU) N 2016/2281 of 20 December 2016. RLC-PRC058C-GB 11

General Data HE (High Efficiency) 275 HE 290 HE Gross Cooling Capacity (1) (kw) 958 1004 1067 1135 1268 1424 1564 1707 Gross Power Input (1) (kw) 177 185 197 210 235 261 289 316 Gross EER (1) 5.43 5.43 5.42 5.41 5.40 5.46 5.41 5.39 Gross ESEER (Not certified) (1) 7.48 7.45 7.37 7.60 7.46 7.88 7.66 7.45 IPLV (2) 7.666 7.666 7.550 7.719 7.676 8.152 7.954 7.750 Net cooling capacity (1) (3) (kw) 955 1000 1064 1131 1263 1419 1558 1701 Net Power Input (1)(3) (kw) 182 191 203 216 243 269 299 326 Net EER (1) (3) 5.25 5.25 5.23 5.23 5.20 5.27 5.22 5.22 Eurovent Energy class - Cooling A A A A A A A A Net ESEER (3) 6.72 6.64 6.59 6.76 6.62 7.03 6.84 6.72 SEER (4) 6.83 6.78 6.58 6.75 6.80 7.58 7.60 7.50 Space cooling efficiency ηs,c (4) (%) 265 263 255 262 264 295 296 292 Compressor Circuit 1 2 2 2 2 2 2 2 2 Circuit 2 1 1 1 1 1 2 2 2 Evaporator Pass 1 Nominal Flow (1) l/s 45.6 47.8 50.8 54.1 60.4 67.8 74.5 81.3 Pressure Drop (1) kpa 44 48 43 49 60 50 51 49 Minimum Flow l/s 20.4 20.4 23.3 23.3 23.3 28.0 31.0 34.6 Maximum Flow l/s 74.9 74.9 85.3 85.3 85.3 103.0 113.0 126.9 Water Connection Type Grooved end Water Connection Size in 6 6 6 6 6 8 8 8 Condenser Pass 1 Nominal Flow (1) l/s 54.8 57.4 61.0 64.9 72.6 81.3 89.5 97.7 Pressure Drop (1) kpa 26 29 33 29 24 29 31 29 Minimum Flow l/s 29.9 29.9 29.9 34.2 45.4 41.4 44.0 50.1 Maximum Flow l/s 111.0 111.0 111.0 125.2 167.5 151.8 161.4 184.5 Water Connection Type Grooved end Water Connection Size in 6 6 6 6 6 8 8 8 Refrigerant Type R-134a Charge Circuit 1 kg 193 193 193 193 193 183 183 183 Charge Circuit 2 kg 90 90 90 90 90 183 183 183 Dimensions & Weight Length mm 4754 4754 4784 4784 4784 4774 4774 4774 Width mm 1727 1727 1727 1727 1727 1823 1823 1823 Height mm 2032 2032 2032 2032 2032 2135 2135 2135 Operating weight kg 5687 5683 5886 5950 6123 7446 7571 7694 310 HE 330 HE 370 HE 410 HE 450 HE 490 HE (1) Evaporator 12/7 C and 0.0 m²k/kw, and condenser at 30/35 C and 0.0 m²k/kw. (2) According to AHRI Standard 550/590, based on TOPSS (Trane Official Product Selection Software). (3) Net performances calculated as per EN 14511-2013. (4) ηs,c / SEER as defined in Directive 2009/125/EC of the European Parliament and of the Council with regard to Ecodesign requirements for Comfort Chillers with 2000 kw maximum capacity - COMMISSION REGULATION (EU) N 2016/2281 of 20 December 2016. 12 RLC-PRC058C-GB

General Data (High Seasonal Efficiency) 275 290 Gross Cooling Capacity (1) (kw) 960 1006 1067 1135 1259 1424 1564 1697 1859 Gross Power Input (1) (kw) 180 188 202 215 239 266 294 321 363 Gross EER (1) 5.33 5.34 5.28 5.29 5.27 5.35 5.31 5.29 5.12 Gross ESEER (Not certified) (1) 7.61 7.62 7.64 7.54 7.71 7.85 7.58 7.58 7.48 IPLV (2) 7.829 7.827 7.895 7.831 8.055 8.289 7.987 8.030 7.999 Net cooling capacity (1) (3) (kw) 957 1003 1064 1131 1254 1419 1558 1692 1853 Net Power Input (1)(3) (kw) 186 195 208 221 247 274 304 330 375 Net EER (1) (3) 5.16 5.16 5.11 5.11 5.08 5.17 5.13 5.12 4.94 Eurovent Energy class - Cooling A A A A A A A A B Net ESEER (3) 6.84 6.79 6.82 6.74 6.85 7.01 6.77 6.82 6.63 SEER (4) 7.00 7.05 7.18 7.13 7.08 7.50 7.38 7.45 7.45 Space cooling efficiency ηs,c (4) (%) 272 274 279 277 275 292 287 290 290 Compressor Circuit 1 2 2 2 2 2 2 2 2 2 Circuit 2 1 1 1 1 1 2 2 2 2 Evaporator Pass 1 Nominal Flow (1) l/s 45.7 47.9 50.8 54.1 60.0 67.8 74.5 80.9 88.6 Pressure Drop (1) kpa 44 48 43 49 60 50 51 48 58 Minimum Flow l/s 20.4 20.4 23.3 23.3 23.3 28.0 31.0 34.6 34.6 Maximum Flow l/s 74.9 74.9 85.3 85.3 85.3 103.0 113.0 126.9 126.9 Water Connection Type Grooved end Water Connection Size in 6 6 6 6 6 8 8 8 8 Condenser Pass 1 Nominal Flow (1) l/s 54.9 57.6 61.1 65.0 72.2 81.5 89.6 97.3 107.2 Pressure Drop (1) kpa 26 29 33 30 24 29 31 29 35 Minimum Flow l/s 29.9 29.9 29.9 34.2 45.4 41.4 44.0 50.1 50.1 Maximum Flow l/s 111.0 111.0 111.0 125.2 167.5 151.8 161.4 184.5 184.5 Water Connection Type Grooved end Water Connection Size in 6 6 6 6 6 8 8 8 8 Refrigerant Type R-134a Charge Circuit 1 kg 193 193 193 193 193 183 183 183 183 Charge Circuit 2 kg 90 90 90 90 90 183 183 183 183 Dimensions & Weight Length mm 4754 4754 4784 4784 4784 4774 4774 4774 4774 Width mm 1727 1727 1727 1727 1727 1823 1823 1823 1823 Height mm 2032 2032 2032 2032 2032 2135 2135 2135 2135 Operating weight kg 5862 5858 6100 6164 6337 7660 7785 7908 7907 310 330 370 410 450 490 515 (1) Evaporator 12/7 C and 0.0 m²k/kw, and condenser at 30/35 C and 0.0 m²k/kw. (2) According to AHRI Standard 550/590, based on TOPSS (Trane Official Product Selection Software). (3) Net performances calculated as per EN 14511-2013. (4) ηs,c / SEER as defined in Directive 2009/125/EC of the European Parliament and of the Council with regard to Ecodesign requirements for Comfort Chillers with 2000 kw maximum capacity - COMMISSION REGULATION (EU) N 2016/2281 of 20 December 2016. RLC-PRC058C-GB 13

General Data XE (Extra High Efficiency) 330 XE 360 XE 410 XE 460 XE 500 XE 540 XE Gross Cooling Capacity (1) (kw) 1142 1258 1459 1573 1777 1898 Gross Power Input (1) (kw) 190 212 247 267 301 318 Gross EER (1) 6.00 5.93 5.91 5.90 5.91 5.97 Gross ESEER (Not certified) (1) 7.37 7.30 7.12 7.30 7.34 7.43 IPLV (2) 7.620 7.590 7.270 7.440 7.450 7.560 Net cooling capacity (1) (3) (kw) 1139 1255 1455 1569 1773 1892 Net Power Input (1)(3) (kw) 195 217 253 274 309 328 Net EER (1) (3) 5.84 5.77 5.75 5.73 5.73 5.77 Eurovent Energy class - Cooling A A A A A A Net ESEER (3) 6.85 6.79 6.62 6.72 6.71 6.75 SEER (4) 6.55 6.40 6.30 6.33 6.40 6.43 Space cooling efficiency ηs,c (4) (%) 254 248 244 245 248 249 Compressor Circuit 1 1 Circuit 2 1 Evaporator Pass 1 Nominal Flow (1) l/s 54.4 59.9 69.5 74.9 84.7 90.4 Pressure Drop (1) kpa 40 40 38 43 42 48 Minimum Flow l/s 34.56 34.56 39.4 39.4 39.4 39.4 Maximum Flow l/s 127.4 127.4 144.6 144.6 144.6 144.6 Water Connection Type Grooved end Water Connection Size in 8 8 8 8 8 8 Condenser Pass 1 Nominal Flow (1) l/s 62.8 69.3 80.4 86.7 97.9 104.4 Pressure Drop (1) kpa 14 15 18 21 27 28 Minimum Flow l/s 50.3 50.3 56.7 56.7 56.7 56.7 Maximum Flow l/s 184.2 184.2 207.7 207.7 207.7 207.7 Water Connection Type Grooved end Water Connection Size in 8 8 8 8 8 8 Refrigerant Type R-134a Charge Circuit 1 kg 176 180 181 178 197 197 Charge Circuit 2 kg 174 180 181 180 202 199 Dimensions & Weight Length mm 4585 4585 4585 4585 4585 4585 Width mm 1840 1840 1840 1840 1840 1840 Height mm 2395 2395 2395 2395 2395 2395 Operating weight kg 7350 7450 8590 8590 9630 9680 (1) Evaporator 12/7 C and 0.0 m²k/kw, and condenser at 30/35 C and 0.0 m²k/kw. (2) According to AHRI Standard 550/590, based on TOPSS (Trane Official Product Selection Software). (3) Net performances calculated as per EN 14511-2013. (4) ηs,c / SEER as defined in Directive 2009/125/EC of the European Parliament and of the Council with regard to Ecodesign requirements for Comfort Chillers with 2000 kw maximum capacity - COMMISSION REGULATION (EU) N 2016/2281 of 20 December 2016. 14 RLC-PRC058C-GB

General Data XE (Extra High Efficiency) (Continued) 600 XE 650 XE 700 XE 750 XE 800 XE 840 XE Gross Cooling Capacity (1) (kw) 2111 2251 2512 2649 2829 3012 Gross Power Input (1) (kw) 330 361 393 421 459 495 Gross EER (1) 6.40 6.24 6.40 6.29 6.17 6.08 Gross ESEER (Not certified) (1) 7.75 7.74 7.98 7.67 7.58 7.52 IPLV (2) 7.990 7.960 8.150 7.900 7.910 7.780 Net cooling capacity (1) (3) (kw) 2108 2248 2507 2643 2822 3004 Net Power Input (1)(3) (kw) 336 368 402 433 473 512 Net EER (1) (3) 6.27 6.10 6.23 6.11 5.97 5.87 Eurovent Energy class - Cooling A A A A A A Net ESEER (3) 7.32 7.27 7.39 7.09 6.94 6.83 SEER (4) 7.30 6.93 7.08 6.73 6.68 6.43 Space cooling efficiency ηs,c (4) (%) 284 269 275 261 259 249 Compressor Circuit 1 1 Circuit 2 1 Evaporator Pass 1 Nominal Flow (1) l/s 100.6 107.2 119.7 126.2 134.8 143.5 Pressure Drop (1) kpa 23 26 33 36 41 47 Minimum Flow l/s 63.8 63.8 63.8 63.8 63.8 63.8 Maximum Flow l/s 234.0 234.0 234.0 234.0 234.0 234.0 Water Connection Type Grooved end Water Connection Size in 10 10 10 10 10 10 Condenser Pass 1 Nominal Flow (1) l/s 115 123.1 136.8 144.6 154.9 165.3 Pressure Drop (1) kpa 17 20 24 27 31 36 Minimum Flow l/s 90.9 90.9 90.9 90.9 90.9 90.9 Maximum Flow l/s 333.2 333.2 333.2 333.2 333.2 333.2 Water Connection Type Grooved end Water Connection Size in 10 10 10 10 10 10 Refrigerant Type R-134a Charge Circuit 1 kg 283 283 280 280 275 275 Charge Circuit 2 kg 296 282 279 279 279 274 Dimensions & Weight Length mm 5250 5250 5250 5250 5250 5250 Width mm 2090 2090 2090 2090 2090 2090 Height mm 2455 2455 2455 2455 2455 2455 Operating weight kg 13080 13380 13380 13380 13490 13610 (1) Evaporator 12/7 C and 0.0 m²k/kw, and condenser at 30/35 C and 0.0 m²k/kw. (2) According to AHRI Standard 550/590, based on TOPSS (Trane Official Product Selection Software). (3) Net performances calculated as per EN 14511-2013. (4) ηs,c / SEER as defined in Directive 2009/125/EC of the European Parliament and of the Council with regard to Ecodesign requirements for Comfort Chillers with 2000 kw maximum capacity - COMMISSION REGULATION (EU) N 2016/2281 of 20 December 2016. RLC-PRC058C-GB 15

General Data (High Seasonal Efficiency) 330 360 410 Gross Cooling Capacity (1) (kw) 1139 1257 1457 1570 1771 1892 2084 2272 2107 Gross Power Input (1) (kw) Gross EER (1) 5.84 5.79 5.81 5.78 5.79 5.84 5.68 5.52 6.29 Gross ESEER (Not certified) (1) 8.46 8.58 8.71 8.81 8.74 8.88 8.84 8.74 9.15 IPLV (2) 8.760 9.010 9.020 8.960 9.100 9.180 9.140 9.020 9.840 Net cooling capacity (1) (3) (kw) 1136 1253 1453 1566 1767 1886 2077 2263 2103 Net Power Input (1)(3) (kw) Net EER (1) (3) 5.69 5.64 5.66 5.62 5.62 5.65 5.47 5.30 6.16 Eurovent Energy class - Cooling A A A A A A A A A Net ESEER (3) 7.75 7.85 7.94 7.94 7.85 7.90 7.72 7.51 8.51 SEER (4) 7.38 7.23 7.38 7.50 7.45 7.48 7.13 6.98 8.33 Space cooling efficiency ηs,c (4) (%) 287 281 287 292 290 291 277 271 325 Compressor Circuit 1 1 Circuit 2 1 Evaporator Pass 1 Nominal Flow (1) l/s 54.3 59.9 69.4 74.8 84.4 90.1 99.3 108.2 100.3 Pressure Drop (1) kpa 40 40 37 43 42 48 58 68 23 Minimum Flow l/s 34.6 34.6 39.4 39.4 39.4 39.4 39.4 39.4 63.8 Maximum Flow l/s 127.4 127.4 144.6 144.6 144.6 144.6 144.6 144.6 234.0 Water Connection Type Grooved end Water Connection Size in 8 8 8 8 8 8 8 8 10 Condenser Pass 1 Nominal Flow (1) l/s 62.7 69.2 80.3 86.6 97.6 104.1 115.2 126.1 114.8 Pressure Drop (1) kpa 14 15 18 21 27 28 34 40 17 Minimum Flow l/s 50.3 50.3 56.7 56.7 56.7 56.7 56.7 56.7 90.9 Maximum Flow l/s 184.2 184.2 207.7 207.7 207.7 207.7 207.7 207.7 333.2 Water Connection Type Grooved end Water Connection Size in 8 8 8 8 8 8 8 8 10 Refrigerant Type R-134a Charge Circuit 1 kg 176 180 181 178 197 197 196 194 283 Charge Circuit 2 kg 174 180 181 180 202 199 197 196 296 Dimensions & Weight Length mm 4585 4585 4585 4585 4585 4585 4585 4585 5250 Width mm 1940 1940 1940 1940 1940 1940 1940 1940 2090 Height mm 2395 2395 2395 2395 2395 2395 2395 2395 2455 Operating weight kg 7520 7620 8820 8820 9920 9970 9960 9960 13440 460 500 540 590 640 600 (1) Evaporator 12/7 C and 0.0 m²k/kw, and condenser at 30/35 C and 0.0 m²k/kw. (2) According to AHRI Standard 550/590, based on TOPSS (Trane Official Product Selection Software). (3) Net performances calculated as per EN 14511-2013. (4) ηs,c / SEER as defined in Directive 2009/125/EC of the European Parliament and of the Council with regard to Ecodesign requirements for Comfort Chillers with 2000 kw maximum capacity - COMMISSION REGULATION (EU) N 2016/2281 of 20 December 2016. 16 RLC-PRC058C-GB

General Data (High Seasonal Efficiency) (Continued) 650 700 750 Gross Cooling Capacity (1) (kw) 2242 2503 2641 2820 3000 3000 3224 3447 3671 Gross Power Input (1) (kw) Gross EER (1) 6.10 6.27 6.18 6.06 5.96 5.96 5.64 5.39 5.17 Gross ESEER (Not certified) (1) 9.27 9.41 9.46 9.23 8.92 8.92 8.77 8.71 8.64 IPLV (2) 9.730 9.840 9.920 9.690 9.290 9.290 9.150 9.060 8.960 Net cooling capacity (1) (3) (kw) 2238 2497 2635 2813 2991 2991 3215 3437 3658 Net Power Input (1)(3) (kw) Net EER (1) (3) 5.97 6.11 6.00 5.88 5.76 5.76 5.42 5.18 4.96 Eurovent Energy class - Cooling A A A A A A A A B Net ESEER (3) 8.57 8.57 8.54 8.26 7.93 7.93 7.70 7.54 7.37 SEER (4) 8.20 8.18 8.05 7.45 7.55 7.55 7.35 7.15 6.95 Space cooling efficiency ηs,c (4) (%) 320 319 314 290 294 294 286 278 270 Compressor Circuit 1 1 Circuit 2 1 Evaporator Pass 1 Nominal Flow (1) l/s 106.8 119.2 125.8 134.3 142.9 142.9 153.6 164.2 174.8 Pressure Drop (1) kpa 26 33 36 41 46 46 53 61 69 Minimum Flow l/s 63.8 63.8 63.8 63.8 63.8 63.8 63.8 63.8 63.8 Maximum Flow l/s 234.0 234.0 234.0 234.0 234.0 234.0 234.0 234.0 234.0 Water Connection Type Grooved end Water Connection Size in 10 10 10 10 10 10 10 10 10 Condenser Pass 1 Nominal Flow (1) l/s 122.7 136.4 144.2 154.4 164.7 164.7 178.4 192.1 206 Pressure Drop (1) kpa 19 24 27 31 36 36 42 48 56 Minimum Flow l/s 90.9 90.9 90.9 90.9 90.9 90.9 90.9 90.9 90.9 Maximum Flow l/s 333.2 333.2 333.2 333.2 333.2 333.2 333.2 333.2 333.2 Water Connection Type Grooved end Water Connection Size in 10 10 10 10 10 10 10 10 10 Refrigerant Type R-134a Charge Circuit 1 kg 283 280 280 275 275 275 275 275 275 Charge Circuit 2 kg 282 279 279 279 274 274 274 274 274 Dimensions & Weight Length mm 5250 5250 5250 5250 5250 5520 5520 5520 5520 Width mm 2090 2090 2090 2090 2090 2280 2280 2280 2280 Height mm 2455 2455 2455 2455 2455 2460 2460 2460 2460 Operating weight kg 13740 13740 13740 13850 13970 14570 14570 14570 14570 800 840 850 900 950 K00 (1) Evaporator 12/7 C and 0.0 m²k/kw, and condenser at 30/35 C and 0.0 m²k/kw. (2) According to AHRI Standard 550/590, based on TOPSS (Trane Official Product Selection Software). (3) Net performances calculated as per EN 14511-2013. (4) ηs,c / SEER as defined in Directive 2009/125/EC of the European Parliament and of the Council with regard to Ecodesign requirements for Comfort Chillers with 2000 kw maximum capacity - COMMISSION REGULATION (EU) N 2016/2281 of 20 December 2016. RLC-PRC058C-GB 17

Heating Performance Gross Heating Cap (kw) 40/45 C Entering/Leaving Condenser 10/7 C Entering/Leaving Evaporator Gross COP Net Heating Cap (kw) (1) Net COP (1) Gross Heating Cap (kw) 47/55 C Entering/Leaving Condenser 10/7 C Entering/Leaving Evaporator Gross COP Net Heating Cap (kw) (1) Net COP (1) 275 SE 1035 4.64 1039 4.41 975 3.77 976 3.67 290 SE 1085 4.63 1089 4.38 1023 3.77 1025 3.66 310 SE 1148 4.64 1153 4.39 1083 3.78 1084 3.67 330 SE 1215 4.67 1219 4.42 1146 3.80 1147 3.69 370 SE 1346 4.68 1351 4.44 1270 3.82 1272 3.71 410 SE 1537 4.65 1542 4.40 1449 3.79 1450 3.68 450 SE 1669 4.68 1675 4.44 1574 3.82 1576 3.71 490 SE 1800 4.71 1806 4.47 1698 3.84 1700 3.74 275 HE 1045 4.81 1047 4.62 986 3.91 986 3.82 290 HE 1097 4.80 1099 4.59 1035 3.91 1036 3.82 310 HE 1164 4.79 1166 4.60 1098 3.91 1099 3.82 330 HE 1227 4.83 1230 4.62 1159 3.93 1159 3.84 370 HE 1352 4.88 1354 4.64 1276 3.97 1277 3.86 410 HE 1550 4.81 1553 4.61 1462 3.93 1463 3.83 450 HE 1683 4.84 1686 4.63 1588 3.95 1589 3.85 490 HE 1816 4.88 1819 4.68 1715 3.98 1716 3.89 275 1048 4.75 1050 4.56 990 3.85 991 3.76 290 1102 4.73 1104 4.53 1041 3.85 1042 3.76 310 1169 4.71 1172 4.52 1105 3.83 1106 3.75 330 1233 4.75 1235 4.55 1165 3.86 1166 3.77 370 1376 4.76 1378 4.53 1301 3.87 1301 3.76 410 1556 4.75 1559 4.55 1470 3.87 1470 3.77 450 1688 4.78 1691 4.58 1895 3.88 1896 3.80 490 1840 4.78 1844 4.59 1740 3.90 1740 3.81 515 2018 4.71 2022 4.49 1912 3.86 1913 3.76 (1) according to EN14511:2013. 18 RLC-PRC058C-GB

Operating Maps Condenser Leaving Water Temperature ( C) Overall Operating Map 75 70 65 60 55 50 45 40 35 30 25 20 15 10 5 0-14 -12-10 -8-6 -4-2 0 2 4 6 8 10 12 14 16 18 20 22 Evaporator Leaving Water Temperature ( C) Condenser Leaving Water Temperature ( C) Overall Operating Map 55 50 45 40 35 30 25 20 15 10 5 0-14 -12-10 -8-6 -4-2 0 2 4 6 8 10 12 14 16 18 20 22 Evaporator Leaving Water Temperature ( C) The charts above represent the overall operating limits of the unit, that is to say the limits within which unit will remain in operation. Some capacity limitations may occur depending on model and size when getting close to those limits. Always refer to Trane Official Product Selection Software output for actual operation limits of the selected unit. RLC-PRC058C-GB 19

Pressure drop Evaporator pressure drop SE - Evaporator pressure drop 100 Pressure Drop (kpa) 10 1 10 100 Water flow rate (l/s) 20 RLC-PRC058C-GB

Pressure drop HE/- Evaporator pressure drop 100 Pressure Drop (kpa) 10 1 10 100 Water flow rate (l/s) RLC-PRC058C-GB 21

Pressure drop XE/ - Evaporator pressure drop 100 Pressure Drop (kpa) 10 1 10 100 Water flow rate (l/s) 22 RLC-PRC058C-GB

Pressure drop Condenser pressure drop SE - Condenser pressure drop 100 Pressure Drop (kpa) 10 1 10 100 Water flow rate (l/s) RLC-PRC058C-GB 23

Pressure drop HE/- Condenser pressure drop 100 Pressure Drop (kpa) 10 1 10 100 Water flow rate (l/s) 24 RLC-PRC058C-GB

Pressure drop XE/ - Condenser pressure drop Pressure Drop (kpa) 100 10 10 100 Water flow rate (l/s) RLC-PRC058C-GB 25

Electrical Data Std application High condensing application 275 SE 290 SE 310 SE 330 SE 370 SE 410 SE 450 SE 490 SE Max current (A) 402 416 442 469 532 586 646 706 Starting current (A) 547 561 587 647 710 731 824 884 Max current (A) 543 568 603 642 720 806 882 960 Starting current (A) 633 661 693 756 834 896 996 1074 Std application High condensing application 275 HE 290 HE 310 HE 330 HE 370 HE 410 HE 450 HE 490 HE Max current (A) 402 416 442 469 532 586 646 706 Starting current (A) 547 561 587 647 710 731 824 884 Max current (A) 543 568 603 642 720 806 882 960 Starting current (A) 633 661 693 756 834 896 996 1074 Std application High condensing application 275 290 310 330 370 410 450 490 515 Max current (A) 381 398 420 450 509 566 626 685 750 Starting current (A) 526 543 565 628 687 711 804 863 928 Max current (A) 519 543 578 617 688 779 857 928 957 Starting current (A) 609 633 668 731 802 869 971 1042 1071 Std application 330 XE 360 XE 410 XE 460 XE 500 XE 540 XE Max current (A) 466 466 582 582 698 698 Starting current (A) 645 645 761 761 829 829 Std application 600 XE 650 XE 700 XE 750 XE 800 XE 840 XE Max current (A) 804 910 910 910 943 976 Starting current (A) 1097 1203 1203 1203 1236 1236 Std application 330 360 410 460 500 540 590 640 Max current (A) 450 450 549 549 649 649 702 773 Starting current (A) 450 450 549 549 649 649 702 773 Std application 600 650 700 750 800 840 900 950 K00 Max current (A) 759 869 869 869 901 934 1077 1359 1359 Starting current (A) 759 869 869 869 901 934 1077 1359 1359 26 RLC-PRC058C-GB

Acoustic Data Global Sound Power SWL (db(a)) Global Sound Pressure level at 10m SPL (db(a)) 275 SE 100 68 290 SE 100 68 310 SE 101 69 330 SE 101 69 370 SE 101 69 410 SE 102 70 450 SE 102 70 490 SE 102 70 275 HE 100 68 290 HE 100 68 310 HE 101 69 330 HE 101 69 370 HE 101 69 410 HE 102 70 450 HE 102 70 490 HE 102 70 275 100 68 290 100 68 310 101 69 330 101 69 370 101 69 410 102 70 450 102 70 490 102 70 515 107 75 330 XE 97 65 360 XE 97 65 410 XE 98 66 460 XE 98 66 500 XE 99 67 540 XE 99 67 600 XE 102 70 650 XE 103 71 700 XE 103 71 750 XE 103 71 800 XE 103 71 840 XE 103 71 330 97 65 360 97 65 410 98 66 460 98 66 500 99 67 540 99 67 590 102 70 640 104 72 600 102 70 650 103 71 700 103 71 750 103 71 800 103 71 840 103 71 850 103 71 900 106 74 950 107 75 K00 109 77 RLC-PRC058C-GB 27

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