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elco AQUATOP T Series Planning Document

Brine-water and water-water aquatop t heat pumps
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Planning Document
Brine-Water and Water-Water
AQUATOP T Heat Pumps
General information
Calculations, dimensioning, installations and commissioning
with regard to the products described in this document
may only be executed by proven experts.
Locally valid regulations must be observed; they may deviate
from the information in this document.
Changes remain reserved.
02/2013
Art. No. 420010415301

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Summary of Contents for elco AQUATOP T Series

  • Page 1 Planning Document Brine-Water and Water-Water AQUATOP T Heat Pumps General information • Calculations, dimensioning, installations and commissioning with regard to the products described in this document may only be executed by proven experts. • Locally valid regulations must be observed; they may deviate from the information in this document.
  • Page 2 Table of Contents …………………………………………………..Table of Contents Overview............Planning Notes Heat Output AQUATOP T at 35°C Flow.... Heat Output AQUATOP T at 50 Flow..... Heat Output AQUATOP T.. HT at 35°C Flow..Heat Output AQUATOP T.. HT at 60°C Flow….. Heat Pumps, General Information......
  • Page 3 Table of Contents Standard Scheme, Overview......88 Hydraulic System AQUATOP TC 1........... AQUATOP TC 1-6........AQUATOP TC 1-I......... AQUATOP TC 2-I......... AQUATOP TC 1-6-I........AQUATOP TC 2-6-I........AQUATOP TC 2-6-H........AQUATOP TC 2-6-7-H......... AQUATOP TC 1-6-7........AQUATOP T 1-I........... AQUATOP T 2-I..........AQUATOP T 2-5-B-I........
  • Page 4 Product Overview AQUATOP T The high quality brine-water and The reversible model of the AQUATOP T…C water-water heat pump AQUATOP T AQUATOP T heat pump series can The compact heat pump with inte- extracts geothermal heat from the also be used for active cooling. grated circulation pump, expansion environment and releases it The broad range of AQUATOP T heat...
  • Page 5 Planning Notes Overview Heating output AQUATOP T with 35°C Flow 25.0 AQUATOP T14C 20.0 AQUATOP T12C 15.0 AQUATOP T10C AQUATOP T08C 10.0 AQUATOP T06C AQUATOP T05C ‐5 Temperatura sorgente fredda(°C) Heat source temperature (°C) Heat output curves also apply to same models in reversible (R), and mono-phase (M) designs.
  • Page 6 Planning Notes Overview Heating output AQUATOP T with 50°C Flow 25.0 AQUATOP T14C 20.0 AQUATOP T12C AQUATOP T10C 15.0 AQUATOP T08C AQUATOP T06C 10.0 AQUATOP T05C ‐5 Temperatura sorgente fredda(°C Heat source temperature (°C) Heat output curves also apply to same models in reversible (R), and mono-phase (M) designs.
  • Page 7 Planning Notes Overview Heating output AQUATOP T..H and T..CHT with 35°C Flow AQUATOP T43H AQUATOP T35H AQUATOP T28H AQUATOP T22H AQUATOP T17CH AQUATOP T11CHT AQUATOP T07CHT Heat source temperature (°C) Heat output curves also apply to same models in reversible (R) design.
  • Page 8 Planning Notes Overview Heating output AQUATOP T..H and T..CHT with 60°C Flow AQUATOP T43H AQUATOP T35H AQUATOP T28H AQUATOP T22H AQUATOP T17CH AQUATOP T11CHT AQUATOP T07CHT Heat source temperature (°C) Heat output curves also apply to same models in reversible (R) design.
  • Page 9 Planning Notes Heat Pumps, General Information Planning and installation must be Depending on the refrigerant used, The size of the buffer storage depends carried out in compliance with the different max. hot water temperatures on the max. heat output and the max. relevant rules and regulations (SWKI, are reached (50°C - 60°C).
  • Page 10 Planning Notes Heat Pumps, General Information AQUATOP T heat pumps run Transport Initial Startup Never tilt the heat pump beyond max. extremely quiet, thanks to the noise— The initial startup must be carried out 30º (in any direction) when trans- dampening insulation of the cladding by qualified technicians or the warranty porting it.
  • Page 11 Planning Notes Configuration of Pressure Expansion Vessels VN = VA * F * X Key: Vn = Expansion volume VA = System content acc. to list below Temperature-dependent   Factor TZ = Average system temperature TZ = (TV + TR)/2 40°C 50°C 60°C...
  • Page 12 Planning Notes AQUATOP T..C Configuration Integrated 12-l Expansion Vessel General Information about the Installation Example Permissible Water Volume V of the AQUATOP T14C, Standard 1-6, Correct Configuration System AQUATOP T..C heat pumps can be dimensioning conditions of the system: The following table lists the max. installed without an additional external TZ 35°C: max.
  • Page 13 Planning Notes Determining Heat Output and Allowances New construction: The heat demand is calculated in accordance with national and local standards. Oil heater Retrofitting an existing oil or gas With hot water Without hot water heater with heat pump: The heating capacity can be calculated Mid-level Qh = Oil consumption (Ltr.)
  • Page 14 Planning Notes Basic Principles for Configuring Geothermal Probes Basic Principles for Operating Basic Principles for Configuring Geothermal Probes Geothermal Probes The possible load of a geothermal probe Local Norms and regulations must depends primarily on the subsoil/rock always be considered and have priority and the borehole depth.
  • Page 15 Planning Notes Basic Principles for Configuring Geothermal Tube Collectors In Central Europe, the following Description of Geothermal Tube Basic Principles for Configuring constellation usually applies: Collectors Geothermal Tube Collectors Contrary to borehole heat exchangers, The collector lengths indicated in the tube collectors are installed vertically documentation affect the following basic Moist/sandy/normal...
  • Page 16 Planning Notes Basic Principles for Configuring Geothermal Probes Heat Source Booster Pump Thermal Insulation Because the median temperature All lines, pumps, and valves must be difference, the flow rate, and the equipped with cold insulation material material properties of the used heat as a protective seal from vapor carrier fluid (water-antifreeze mixture) diffusion (install drip pan, if necessary).
  • Page 17 Planning Notes Brine-Water Heat Pumps Application Range Permits Brine Heat Carrier Brine-water heat pumps are usually A permit for the utilization of geothermal The brine circuit requires the use of used as monovalent heaters. energy must be obtained from the non-polluting antifreeze agents (e.g.
  • Page 18 With more probe fields an additional adjusting device must be available per distributor. The adjustment of the probes and the probe fields must take place on site. Delivery/installation by ELCO/ installation company Integrated with compact units On-site Ditches and openings Heat pump connection...
  • Page 19 Pointing out correct connection of the revolving field. Notify contractor of necessary landscaping Landscaper work, especially when retrofitting. Coordinate appointment with electrical Initial startup by ELCO installer. Before initial startup, make sure the water flow volumes on brine and heater side meet specifications.
  • Page 20 Planning Notes Borehole Heat Exchanger Supply Trench Layout of Several Borehole Heat Exchangers Borehole Heat Exchanger Supply Line Trench Detail of Supply Line Trench incorrect correct Sand Layout of Several Borehole Heat Exchangers (BHE) correct incorrect 2 BHWs 3 BHEs 4 or more BHEs 7 or more BHEs The above mentioned values are reference values...
  • Page 21 Planning Notes Example of a Borehole Heat Exchanger Injection pipe Bend radius DN32: 40 cm Bend radius DN40: 50-80cm Layer of sand Probe pipe specification: DN 32, type UL 32 4x d32/3.0 mm Fill volume 2.2 l/m DN 40, type UL 40 4x d40/3.7 mm Fill volume 3.2 l/m PE 100 / S5 / PN 16 Two separated circuits...
  • Page 22 Planning Notes Water-Water Heat Pumps Only professionally dug wells ensure Application Range Permit Water-water heat pumps are usually Approval or a permit by the local proper, trouble-free operation. used as monovalent heaters. The high municipality or district as well as a temperature level of the water sources hydro-geological expert statement or Heat is usually extracted from surface...
  • Page 23 Planning Notes Basic Scheme of Ground Water (Indirect Utilization) Implementation Heat Source System Lines for Extraction and Return Well Interior Installation • • • Accessibility and available space Select the shortest line distance All lines, pumps, and fittings must for heavy equipment (pneumatic possible.
  • Page 24 Planning Notes Groundwater System Groundwater System Shaft Implementation The extraction and output shafts must always be separate to prevent cooling / freezing of the extraction shaft. The shafts must be installed at a distance of at least 15 m. Please see the enclosed implementation recom- mendation for groundwater shafts.
  • Page 25 Planning Notes Groundwater System Production Well min. Ø 100cm Sealed shaft cover labeled "groundwater" and screw-type min. Ø 60cm or latch lock or projection and pump pit Possible bank min. of 30 cm Upper edge terrain Carefully installed seal The cement pipe joints and pipe openings in the access shaft must be sealed Possible...
  • Page 26 Planning Notes Groundwater System min. Ø 100cm Sealed shaft cover labeled "percolation" and screw-type min. Ø 60cm or latch lock or projection and pump pit. Possible bank min. of 30 cm Upper edge terrain Carefully installed seal: Backfill with impermeable or difficult to permeate excavation material (>1m) or clay pug (50 cm) Possible...
  • Page 27 Planning Notes Groundwater System Infiltration Collection pit Inflow Leach pit Infiltration trench, number, direction, length and width depending on percolation capacity of ground. Infiltration trenches can be established with drainage pipes or simply with a gravel bed. Infiltration trenches can be established as lengthwise trenches, as connection between two or several leach pits, or radially for one leach pit.
  • Page 28 Planning Notes Cooling with Heat Pump Systems The cooling and heating cycle cannot Rooms with increased heating Definition: run at the same time. The use of a cool demand in winter (bathrooms, etc.) storage is recommended to prevent too are somewhat more heavily cooled Free Cooling A comfortable room climate regardless many switching commands being sent...
  • Page 29 Planning Notes Cooling with Heat Pump Systems Basic Cooling Information Measures to Reduce the Building Calculating the Cooling Capacity The cooling cycle always must be The cooling demand is calculated in Cooling Capacity monitored. If the room air is cooled The room cooling capacity is calculated accordance with national and local unchecked, condensation water will...
  • Page 30 Planning Notes Cooling with Heat Pump Systems Comfortable Room Temperature A room is considered to be thermally comfortable when the room tempera- ture in the summer is below 28°C. This does not apply to air-conditioned rooms. Other factors are affecting thermal comfort ranges as well.
  • Page 31 Planning Notes Cooling with Heat Pump Systems Monitoring Function to Prevent Distributor box floor heating Condensate Precipitation To avoid condensation, the integrated LOGON B WP controller features different monitor functions. 1. Flow Temperature Monitoring Return flow The temperature is set at the factory to 18°C.
  • Page 32 Unit Dimensions AQUATOP T..C.. Dimensional Front view Right view Rear view Drawing (control side) Floor plan with min. clearances Control panel AQUATOP T..C.. Heating water Outlet Internal thread 1" Heating water Inlet Internal thread 1" Heat source Outlet Internal thread 1"...
  • Page 33 Unit Dimensions AQUATOP T17CH Dimensional Front view Right view Rear view Drawing (control side) Floor plan with min. clearances Control panel AQUATOP T17CH Heating water Outlet Internal thread 1" Heating water Inlet Internal thread 1" Heat source Outlet Internal thread 1"...
  • Page 34 Unit Dimensions AQUATOP T..H.. Dimensional Front view Right view Rear view Drawing (control side) Floor plan with min. clearances Control panel AQUATOP T..H.. T22-43H Heating water Outlet Internal thread 1¼" Heating water Inlet Internal thread 1¼" Heat source Outlet Internal thread 1½"...
  • Page 35 Unit Dimensions Cascade Setup AQUATOP T..H Dimensional Drawing Front view (control side) Right view Rear view Floor plan with min. clearances Control panel...
  • Page 36 Technical Data AQUATOP T05C-T08C Heat Pump AQUATOP T T05C T06C T08C Model Type Compact Model Standard Data Heat Pumps Brine Heating capacity with B0 Cooling capacity with B0 El. power consumption with B0 Performance rating with B0 Standard Data Heat Pumps Water Heating capacity at W10 10.7 10.1...
  • Page 37 Technical Data AQUATOP T05C-T08C Heat Pump AQUATOP T T05C T06C T08C Usage Range Heat source brine outlet T min °C Heat source water outlet T min °C Heater flow temperature min/max °C 20/55 20/55 20/55 Electrical Data 3 x 400 V / 50 Hz Operating voltage, feed Rated input with B0/W35 Ext.
  • Page 38 Technical Data AQUATOP T10C-T14C Heat Pump AQUATOP T T10C T12C T14C Model Type Compact Model Standard Data Heat Pumps Brine Heating capacity with B0 11.5 10.8 Cooling capacity with B0 10.8 El. power consumption with B0 Performance rating with B0 Standard Data Heat Pumps Water Heating capacity at W10 12.6...
  • Page 39 Technical Data AQUATOP T10C-T14C Heat Pump AQUATOP T T10C T12C T14C Usage Range Heat source brine outlet T min °C Heat source water outlet T min °C Heater flow temperature min/max °C 20/55 20/55 20/55 Electrical Data Operating voltage, feed 3 x 400 V / 50 Hz Rated input with B0/W35 Ext.
  • Page 40 Technical Data AQUATOP T07CHT - T11CHT Heat Pump Type AQUATOP T T07CHT T11CHT Model Type/Design Compact Design High Temperature Standard Data Heat Pumps Brine Heating capacity B0 10.2 Cooling capacity B0 El. power consumption B0 Performance rating B0 according to EN14511 Performance rating B0 according to EN255 Standard Data Heat Pumps Water Heating capacity W10...
  • Page 41 Technical Data AQUATOP T07CHT - T11CHT Heat Pump Type AQUATOP T T07CHT T11CHT Electrical Data Operating voltage, feed 3 x 400 V / 50 Hz Rated input at B0/W35 Ext. fuse with electr. heating element Ext. fuse without electr. heating element l max.
  • Page 42 Technical Data AQUATOP T17CH Heat Pump AQUATOP T T17CH* Model Type Compact Model Standard Data Heat Pumps Brine Heating capacity with B0 17.7 16.6 Cooling capacity with B0 13.7 10.5 El. power consumption with B0 Performance rating with B0 acc. to EN14511 Performance rating with B0 acc.
  • Page 43 Technical Data AQUATOP T17CH Heat Pump AQUATOP T T17CH* Electrical Data Operating voltage, feed 3 x 400 V / 50 Hz Rated input with B0/W35 Ext. protection with electric heating element Ext. protection without electric heating element l max. Rated current electric heating element I max.
  • Page 44 Technical Data AQUATOP T22H-T43H Heat Pump Type AQUATOP TH T22H T28H T35H T43H Model Type Standard Model High Temperature Standard Data Heat Pumps Brine Heating capacity with B0 21.0 20.4 28.7* 24.8* 36.7 34.7 44.4 41.3 Cooling capacity with B0 16.4 13.4 22.2* 15.6*...
  • Page 45 Technical Data AQUATOP T22H-T43H T22H T28H T35H T43H Heat Pump Type AQUATOP T Electrical Data Operating voltage, feed 3 x 400 V / 50 Hz Rated input with B0/W35 4.52 6.30 8.21 Ext. protection 3 x 25 3 x 32 3 x 40 3 x 40 Rated current...
  • Page 46 Technical Data AQUATOP T05CX - T08CX (available in F/I/B) Heat Pump Type AQUATOP T...CX T05CX T06CX T08CX Model Type Compact Model Single Phase Standard Data Heat Pumps Brine Heating capacity with B0 Cooling capacity with B0 El. power consumption with B0 Performance rating with B0 Standard Data Heat Pumps Water Heating capacity at W10...
  • Page 47 Technical Data AQUATOP T05CX - T08CX (available in F/I/B) T05CX T06CX T08CX Heat Pump Type AQUATOP T...CX Electrical Data Operating voltage, feed 1 x 230 V / 50 Hz Rated input with B0/W35 Ext. protection with electric heating element Ext. protection without electric heating element Rated current electric heating element I max Rated current compressor...
  • Page 48 Technical Data AQUATOP T10CX - T12CX (available in F/I/B) Heat Pump Type AQUATOP T...CX T10CX T12CX Model Type Compact Model Single Phase Standard Data Heat Pumps Brine Heating capacity with B0 11.5 10.8 Cooling capacity with B0 El. power consumption with B0 Performance rating with B0 Standard Data Heat Pumps Water Heating capacity at W10...
  • Page 49 Technical Data AQUATOP T10CX - T12CX (available in F/I/B) T10CX T12CX Heat Pump Type AQUATOP T...CX Electrical Data Operating voltage, feed 1 x 230V / 50Hz Rated input with B0/W35 Ext. protection with electric heating element Ext. protection without electric heating element l max.
  • Page 50 Technical Data AQUATOP T06CR - T08CR Heat Pump Type AQUATOP T...CR T06CR T08CR Model Type Compact Model Reversible Heating Mode Standard Data Heat Pumps Brine Heating capacity with B0 Cooling capacity with B0 El. power consumption with B0 Performance rating with B0 Cooling Mode Standard Data Heat Pumps Brine Cooling capacity with B35...
  • Page 51 Technical Data AQUATOP T06CR - T08CR T06CR T08CR Heat Pump Type AQUATOP T...CR Usage Range Heat source brine outlet Tmin °C Heat source water outlet Tmin °C Heater flow temperature min/max °C 20-55 20-55 Electrical Data 3 x 400 V / 50 Hz Operating voltage, feed Rated input with B0/W35 Ext.
  • Page 52 Technical Data AQUATOP T10CR-T14CR Heat Pump Type AQUATOP T...CR T10CR T12CR T14CR Model Type Compact Model Reversible Heating Mode Standard Data Heat Pumps Brine Heating capacity with B0 11.5 Cooling capacity with B0 10.8 El. power consumption with B0 Performance rating with B0 Cooling Mode Standard Data Heat Pumps Brine Cooling capacity with B35...
  • Page 53 Technical Data AQUATOP T10CR-T14CR T10CR T12CR T14CR Heat Pump Type AQUATOP T...CR Usage Range Heat source brine outlet Tmin °C Heat source water outlet Tmin °C Heater flow temperature min/max °C 20/55 20/55 20/55 Electrical Data 3 x 400 V / 50 Hz Operating voltage, feed Rated input with B0/W35 Ext.
  • Page 54 Technical Data AQUATOP T05CRX-T08CRX Heat Pump Type AQUATOP T...CR T05CRX T06CRX T08CRX Model Type Compact Model Reversible Single Phase Heating Mode Standard Data Heat Pumps Brine Heating capacity with B0 Cooling capacity with B0 El. power consumption with B0 Performance rating with B0 Cooling Mode Standard Data Heat Pumps Brine 1) Cooling capacity with B35...
  • Page 55 Technical Data AQUATOP T05CRX-T08CRX Heat Pump Type AQUATOP T...CR T05CRX T06CRX T08CRX Usage Range Heat source brine outlet Tmin °C Heat source water outlet Tmin °C Heater flow temperature min/max °C 20/55 20/55 20/55 Electrical Data Operating voltage, feed 1 x 230 V / 50 Hz Rated input with B0/W35 Ext.
  • Page 56 Technical Data AQUATOP T10CRX-T12CRX Heat Pump Type AQUATOP T...CR T10CRX T12CRX Model Type Compact Model Reversible Single Phase Heating Mode Standard Data Heat Pumps Brine Heating capacity with B0 11.5 Cooling capacity with B0 El. power consumption with B0 Performance rating with B0 Cooling Mode Standard Data Heat Pumps Brine Cooling capacity with B35...
  • Page 57 Technical Data AQUATOP T10CRX-T12CRX Heat Pump Type AQUATOP T...CR T10CRX T12CRX Usage Range Heat source brine outlet Tmin °C Heat source water outlet Tmin °C Heater flow temperature min/max °C 20/55 20/55 Electrical Data Operating voltage, feed 1 x 230 V / 50 Hz Rated input with B0/W35 Ext.
  • Page 58 Technical Data AQUATOP T17CHR Heat Pump Type AQUATOP TCHR T17CHR Model Type Compact Model Reversible Heating Mode Standard Data Heat Pumps Brine Heating capacity with B0 17.7 Cooling capacity with B0 13.7 El. power consumption with B0 Performance rating with B0 Cooling Mode Standard Data Heat Pumps Brine Cooling capacity with B35...
  • Page 59 Technical Data AQUATOP T17CHR Heat Pump Type AQUATOP T T17CHR Application Range Heat source brine outlet Tmin °C Heat source water outlet Tmin °C Heating flow temperature min/max °C 20/60 Electrical Data Operating voltage, feed 3 x 400 V / 50 Hz Rated input at B0/W35 Ext.
  • Page 60 Technical Data AQUATOP T22HR-T43HR Heat Pump Type AQUATOP T...HR T22HR T28HR T35HR T43HR Model Type Standard Model High Temperature Reversible Standard Data Heat Pumps Brine Heating capacity with B0 21.0 28.7 36.7 44.4 Cooling capacity with B0 16.4 22.2 28.4 34.4 El.
  • Page 61 Technical Data AQUATOP T22HR-T43HR Heat Pump Type AQUATOP T...HR T22HR T28HR T35HR T43HR Electrical Data Operating voltage, feed 3 x 400 V / 50 Hz Rated input with B0/W35 10.0 Ext. protection 3 x 25 3 x 32 3 x 40 3 x 40 l max.
  • Page 62 Integrated Pumps Compact Heat Pump Heat source or recovery pump AQUATOP T05C.. AQUATOP T06C.. Pumping medium Ethylene glycol Concentration 30 % Medium temperature = 0 °C Pump type: UPS 25-60k Viscosity 3.95 mm Density 1052 kg/m - - - - H Water ——...
  • Page 63 Integrated Pumps Compact Heat Pump Heat source or recovery pump AQUATOP T08C.. UPS 25-80 AQUATOP T10C.. Pumping medium Ethylene glycol AQUATOP T11CHT.. Concentration 30 % Medium temperature = 0 °C Pump type: UPS 25-80 Viscosity 3.95 mm Density 1052 kg/m - - - - H Water ——...
  • Page 64 Integrated Pumps Compact Heat Pump Heat -, resp. condenser pump AQUATOP T05C.. AQUATOP T06C.. Pumping medium Water Medium temperature = 35 °C AQUATOP T08C.. Density 994 kg/m AQUATOP T10C.. AQUATOP T12C.. AQUATOP T07CHT.. Pump type: UPS 25-60 Delivery height [m] Flow rate [m AQUATOP T17CH..
  • Page 65 Performance Data Brine-Water AQUATOP T..C (Information according to EN 14511) AQUATOP T..C  Brine Inlet Temperature** [°C]  R407C     ‐5  0  5  .  WL  KL  AL  COP  WL  KL  AL  COP  WL  KL  AL  COP  Model  °C  kW  kW  kW  ‐  kW  kW  kW  ‐  kW ...
  • Page 66 Performance Data Water-Water AQUATOP T..C (Information according to EN 14511) AQUATOP T..C  Water Inlet Temperature [°C]  R407C     10  15  .  WL  KL  AL  COP  WL  KL  AL  COP  Model  °C  kW  kW  kW  ‐  kW  kW  kW  ‐  35  7.0  5.8  1.2  5.7  7.9 ...
  • Page 67 Performance Data Brine-Water AQUATOP T..H (Information according to EN 14511) AQUATOP T..H Brine Inlet Temperature [°C] R 407c Model °C 15.5 11.7 17.7 13.7 20.0 16.1 15.2 10.8 17.4 13.0 19.7 15.3 14.9 10.1 17.1 12.2 19.3 14.5 T17CH 14.6 16.8 11.4 19.0...
  • Page 68 Performance Data Water-Water AQUATOP T..H (Information according to EN 14511) AQUATOP T..H Water Inlet Temperature [°C] R 407c Model °C 22.9 18.9 25.5 21.9 22.4 18.0 25.1 20.8 22.0 17.0 24.7 19.7 T17CH 21.5 16.0 24.2 18.7 21.1 14.9 23.8 17.6 20.8 14.0...
  • Page 69 Performance Data Brine-Water AQUATOP T..HT (Information according to EN 14511) AQUATOP T Brine Inlet Temperature [°C] R 134a Model °C T07C-HT 10,2 11,9 10,0 11,6 11,3 T11C-HT 10,9 10,6 10,3 10,0 (Flow) Outlet temperature, heating water HC: Heating capacity CC: Cooling capacity UC: Uptake capacity...
  • Page 70 Performance Data Water-Water AQUATOP T..HT (Information according to EN 14511) AQUATOP T Water Inlet Temperature [°C] R 134a Model °C 11,3 11,0 10,8 T07CHT 10,5 10,3 10,1 14,3 11,8 16,5 14,0 13,9 11,1 16,0 13,3 13,6 10,4 15,6 12,5 T11CHT 13,2 15,2 11,7...
  • Page 71 Performance Data AQUATOP T..R (Information according to EN 14511-Cooling) (Flow) Outlet temperature, heating water HC: Heating capacity CC: Cooling capacity UC: Uptake capacity...
  • Page 72 Performance Data AQUATOP T..R (Information according to EN 14511-Cooling) (Flow) Outlet temperature, heating water HC: Heating capacity CC: Cooling capacity UC: Uptake capacity...
  • Page 73 Performance Data AQUATOP T..HR (Information according to EN 14511-Cooling) (Flow) Outlet temperature, heating water HC: Heating capacity CC: Cooling capacity UC: Uptake capacity...
  • Page 74 Performance Data AQUATOP T..HR (Information according to EN 14511-Cooling) CC: Cooling capacity (Flow) Outlet temperature, heating water UC: Uptake capacity HC: Heating capacity...
  • Page 75 Performance Data Limits of Use Limit of Use AQUATOP T..C Einsatzgrenze AQUATOP T..C Source inlet temperature [°C] Limit of Use AQUATOP T..H Einsatzgrenze AQUATOP T..H Source inlet temperature [°C]...
  • Page 76 Performance Data Limits of Use Einsatzgrenze AQUATOP T07CHT-T11CHT Limit of Use AQUATOP T07CHT – T11CHT Source inlet temperature [°C]...
  • Page 77 Performance Charts Water-Water Aquatop T05CRX (Informationn according to EN14511-Cooling) Flow 18°C Flow 7°C Flow 18°C Flow 7°C Water Inlet Temperature Heat Output Circuit [°C]...
  • Page 78 Performance Charts Water-Water Aquatop T06CR(X) (Informationn according to EN14511-Cooling) Flow 18°C Flow 7°C Flowt 18°C Flow 7°C Water Inlet Temperature Heat Output Circuit [°C]...
  • Page 79 Performance Charts Water-Water Aquatop T08CR(X) (Informationn according to EN14511-Cooling) Flow 18°C Flow 7°C Flow 18°C Flow 7°C Water Inlet Temperature Heat Output Circuit [°C]...
  • Page 80 Performance Charts Water-Water Aquatop T10CR(X) (Informationn according to EN14511-Cooling) Flow 18°C Flow 7°C Flow 18°C Flow 7°C Water Inlet Temperature Heat Output Circuit [°C]...
  • Page 81 Performance Charts Water-Water Aquatop T12CR (Informationn according to EN14511-Cooling) Flow 18°C Flow 7°C Flow18°C Flow 7°C Water Inlet Temperature Heat Output Circuit [°C]...
  • Page 82 Performance Charts Water-Water Aquatop T14CR (Informationn according to EN14511-Cooling) Flow 18°C Flow 7°C Flow 18°C Flow 7°C Water Inlet Temperature Heat Output Circuit [°C]...
  • Page 83 Performance Charts Water-Water Aquatop T17CHR (Informationn according to EN14511-Cooling) Flow 18°C Flow 7°C Flow 18°C Flow 7°C Water Inlet Temperature Heat Output Circuit [°C]...
  • Page 84 Performance Charts Water-Water Aquatop T22HR (Informationn according to EN14511-Cooling) Flow 18°C Flow 7°C Flow 18°C Flow 7°C Water Inlet Temperature Heat Output Circuit [°C]...
  • Page 85 Performance Charts Water-Water Aquatop T28HR (Informationn according to EN14511-Cooling) Flow 18°C Flow 7°C Flow 18°C Flow 7°C Water Inlet Temperature Heat Output Circuit [°C]...
  • Page 86 Performance Charts Water-Water Aquatop T35HR (Informationn according to EN14511-Cooling) Flow 18°C Flow 7°C Flow 18°C Flow 7°C Water Inlet Temperature Heat Output Circuit [°C]...
  • Page 87 Performance Charts Water-Water Aquatop T43HR (Informationn according to EN14511-Cooling) Flow 18°C Flow 7°C Flow 18°C Flow 7°C Water Inlet Temperature Heat Output Circuit [°C]...
  • Page 88 Hydraulic System Standard Scheme, Overview System /Scheme Component Optional Standard No. AQUATOP TC1 AQUATOP TC 1-6 AQUATOP TC 1-I AQUATOP TC 2-I AQUATOP TC 1-6-I AQUATOP TC 2-6-I AQUATOP TC 2-6-H AQUATOP TC 2-6-7-H AQUATOP TC 1-6-7 AQUATOP T 1 AQUATOP T 1-I AQUATOP T 2-I AQUATOP T 2-5-B-I...
  • Page 89 Hydraulic System AQUATOP TC 1 Use / Description: Function Description: Heat pump directly on heater without buffer storage. Optimal with floor Heating Cycle heating with min. 60% constant hot The heat pump is activated via the water flow. Internal return sensor and exterior sensor B9 when requesting heat.
  • Page 90 Hydraulic System AQUATOP TC 1-6 Use / Description: Function Description: Heat pump directly on heater without Heating Cycle buffer storage. Hot water is heated by a The heat pump is activated via the Hot Water coil water heater. Optimal with floor internal return sensor and exterior Hot water heating is activated via heating with a heating water flow...
  • Page 91 Hydraulic System AQUATOP TC 1-I Use / Description: Function Description: Heat pump uncoupled with buffer storage and adjustable heating circuit. Heating Cycle Hot Water Optimal with floor heating or radiator The heat pump is activated via sensor Hot water heating can be carried out heating with variable flow.
  • Page 92 Hydraulic System AQUATOP TC 2-I Use / Description: Function Description: Heat pump uncoupled with buffer storage and mixed heating circuit. Heating Cycle Hot Water Optimal with floor heating or radiator The heat pump is activated via sensor Optionally, hot water heating can be heating with variable flow to optimize B4 and exterior sensor B9 when carried out by the Multiaqua service...
  • Page 93 Hydraulic System AQUATOP TC 1-6-I Use / Description: Function Description: Heat pump uncoupled with buffer storage and adjustable heating circuit. Heating Cycle Hot Water Hot water heating with coil water The heat pump is activated via sensor Hot water heating is activated via heater.
  • Page 94 Hydraulic System AQUATOP TC 2-6-I Use / Description: Function Description: Heat pump uncoupled with buffer storage and mixed heating circuit. Heating Cycle Hot Water Hot water heating with coil hot water The heat pump is activated via sensor Hot water heating is activated via heater.
  • Page 95 Hydraulic System AQUATOP TC 2-6-H Use / Description: Function Description: Heat pump uncoupled with combination storage and mixed heating circuit. Heating Cycle Hot Water Hot water heating is integrated. The heat pump is activated via sensor Hot water heating is activated via Optimal with floor heating or radiator B4 and exterior sensor B9 when sensor B3.
  • Page 96 Hydraulic System AQUATOP TC 2-6-7-H The storage charge pump Q9 starts Application: Solar Heat pump uncoupled with combination running simultaneously. The switching If a difference exists between collector and solar integration, heating valve Q3 is at position B. The lower sensor B6 and storage sensor B42, the circuit with mixing valve control.
  • Page 97 Hydraulic System AQUATOP TC 1-6-7 The circulating pump Q9 is active during Use / Description: Solar Heat pump directly on heater without the heating season. The switching valve If a difference exists between collector buffer storage. Optimal with floor heat- Q3 is at position B.
  • Page 98 Hydraulic System AQUATOP T 1-I Use / Description: Function Description: Heat pump uncoupled with buffer storage and adjustable heating circuit. Heating Cycle Hot Water Optimal with floor heating or radiator The heat pump is activated via sensor Optionally, hot water heating can be heating with variable flow.
  • Page 99 Hydraulic System AQUATOP T 2-I Use / Description: Function Description: Heat pump uncoupled with buffer storage and mixed heating circuit. Heating Cycle Hot Water Optimal with floor heating or radiator The heat pump is activated via sensor Hot water heating can be carried out heating with variable flow to optimize B4 and exterior sensor B9 when by the Multiaqua service water heat...
  • Page 100 Hydraulic System AQUATOP T 2-5-B-I Use / Description: Function Description: Heat pump uncoupled with buffer storage and mixed heating circuit. Heating Cycle Hot Water Water heating with external exchanger The heat pump is activated via sensor Hot water heating is activated via (Magro charge).
  • Page 101 Hydraulic System AQUATOP TC Expansion Scheme BL AQUATOP T Expansion Scheme BL Use / Description: Function Description: Source is groundwater instead of geothermal probes. Can be combined Heating Cycle The groundwater pump M8 is with all standard applications. activated when a heating demand is pending.
  • Page 102 Additional Schemas AQUATOP TC 2 AQUATOP T 2 Use / Description: A second mixed circuit can be controlled with an expansion module of the heat pump controller. The second mixed circuit can be combined with the following schemas: 2-I , 2-6-I, 2-6-H, 2-5-B-I, 2-6-7-H. Second mixed heater circuit Optional:...
  • Page 103 Expansion Scheme AQUATOP TC Expansion Scheme M AQUATOP T Expansion Scheme M Use / Description: Function Description: Cooling using free cooling. The entire cooling capacity can be delivered with Cooling Cycle free cooling in most cases. The cooling cycle is activated based Can be combined with the following on exterior temperature, room tempera- schemas: Standard 1 + additional...
  • Page 104 Additional Hydraulic Suggestions AQUATOP T Cascade with PWH Isolating Circuit For example, a standard model Cascade: Function Description: Thanks to the new heat pump controller AQUATOP T can be combined with a Heating Cycle LOGON WP61, it is possible to operate The first heat pump is activated with high temperature AQUATOP THT.
  • Page 105 Additional Hydraulic Suggestions AQUATOP T Cascade with PWH Isolating Circuit Heat pump Service water- Buffer storage Heat pump hot storage Heat pump Service water- Buffer storage hot storage Heat pump Key: Optional: Flow sensor Heating circuit pump Remote control Hot water sensor PWH charge pump Storage sensor Source pump...
  • Page 106 Additional Hydraulic Suggestions AQUATOP TR with Active Cooling Use / Description: Function Description: Important: Reversible heat pump (AQUATOP TR) When used in applications with uncoupled with buffer storage and mixed active cooling, a vapor-diffusion Heating Cycle heating circuit, in combination with a The heat pump is activated via sensor cold insulation is mandatory for distribution system suitable for heating...
  • Page 107 Additional Hydraulic Suggestions AQUATOP TR with Active Cooling Heat pump Buffer storage Heat pump Buffer storage Key: Optional: Flow sensor Heating circuit pump Remote control Speed-controlled source Upper storage sensor Electrical heater element SWH pump Exterior sensor Circulating pump Lower storage sensor Pressure monitor (installed) Heat pump controller The coil area of the service water...
  • Page 108 Selectable operating modes is specifically designed for controlling Improved cooling functions (for (monovalent, monoenergetic, the AQUATOP T series of heat pumps active and passive cooling) bivalent parallel, or alternate) so that all AQUATOP T standards Cooling function across all (zones)
  • Page 109 Notes...
  • Page 110 Notes...
  • Page 111 ELCO GmbH Service: D - 64546 Mörfelden-Walldorf ELCO Austria GmbH A - 2544 Leobersdorf ELCOTHERM AG CH - 7324 Vilters ELCO-Rendamax B.V. NL - 1410 AB Naarden ELCO Belgium n.v./s.a. B - 1070 Anderlecht ELCO Italia S.p.A. I - 31023 Resana...