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Qvantum VS

Heat pumps for liquid-based heat sources

Q32-65VS
Liquid/Water 15–79 kW

  • Inverter technology for flexible heat supply
  • Noise reduction design and components
  • Up to 65 °C on secondary side
  • Capacity of up to 79 kW per unit

Qvantum VS
Qvantum – All in One

HIGH PERFORMANCE

Top range COP and high capacity throughout the envelope

Qvantum QCloud

LOW NOISE

Flexible installation of outdoor unit in noise sensitive areas

Qvantum QCloud

Q COMMITMENT

We offer quality support throughout the product life cycle

Qvantum VS

Qvantum VS
Frequency controlled heat pumps



Qvantum VS is equipped with speed control, which means that the heat pump can regulate the heating effect continuously according to current needs. Depending on the power size, the power can be approximately regulated between 30% up to 100%. The unit for capacity control, the inverter, is internally mounted in the unit. Cooling is done with air.

Qvantum VS is intended for use in systems where the brine consists of a mixture of water and antifreeze (eg horizontal, and vertical ground source, sea water systems, exhaust air system).

NOTE!
The units are equipped with an inverter that delivers “leakage current” to the mains, so a 30 mA earth fault circuit breaker can not be used. Typical levels of leakage current are 50- 200mA/converter + 2mA/meter motor cable.

DOWNLOAD INFORMATION:

Qvantum-VS-Product-Sheet_eng.pdf

Qvantum-VS-Technical-data.pdf

Qvantum QLC Control System

The Qvantum VS is equipped with the Qvantum QLC control system as standard. QLC stands for Qvantum Logic Controller. The unit is controlled and operated via the principal of liquid condensation or solid/half solid condensation. All control parameters, such as outdoor temperature compensated set-point curve for supply, hot water temperature, and auxiliary heat, are set via the self-instructing control system. Required protection and safety features are built into the QLC control system.

The system is managed via a 5,7″ panel mounted in the heat pump. All parameters can be set via the panel. The panel displays a dynamic flow chart panel with all temperatures and operating modes measured and controlled. The QLC control system also logs temperatures and events, which facilitates setup and analysis. The system communicates via Modbus. Modbus TCP is standard. The system also has a webserver which allows the QLC control system to communicate with a web browser on a PC or cell phone.

As an option, the unit can be equipped with a display that allows for dynamic flow images and extended network functionality.

The temperature to the heating system is controlled according to the selected outdoor temperature compensated curve. Hot water preparation, if such a function is required, takes place via a switching valve.

In bivalent systems, the control system switches on additional heat when necessary and after a time delay. The auxiliary heat can be selected to “take over” the hot water preparation as the first step and thereby release power from the heat pump to the heating system.

The QLC control system can control up to 8 heat pumps in sequence with automatic operating time equalization between the different heat pumps. The QLC control system is configured at commissioning depending on the selected system solution and type and number of heat pumps.

The heat pump can be configured for control via an overlaying external control system if required. Set points can be changed via Modbus so that the controller’s regulators are set by the master controller. It is also possible to configure the system so that the heat pump is fully controlled by the overlaying external control system. In this case, the QLC control system is used only for alarm and protection functions.

Qvantum display

The 5.7” panel display.

E.g., Temperatures readable via Modbus *) 1: Heat pump heat carrier – in
2: Heat pump heat carrier – out
3: Heat pump hot gas temperature

4: Heat pump brine – in
5: Heat pump brine – out
6: Radiator circuit supply
7: Outdoor Temperature
*) Modbus description for complete information

All relay outputs are also readable. It is thus possible to transmit the operating status of compressors, pumps, fans etc. controlled by the heat pump.

Set points for hot water temperature and control curve for radiator circuit can be read and adjusted. From the expansion valve control unit, the current evaporating temperature, pressure, overheating, the degree of opening of the expansion valve can be monitored via Modbus.

Electronic Expansion Valve

Qvantum VS heat pumps are equipped with an electronic expansion valve. The expansion valve has its own electronic control unit with display that shows evaporating pressure, temperature, superheat, etc. Via Modbus these variables can be transferred to a higher-level control system.

Qvantum VS principal layout

Principal layout showing the refrigerant circuit.

Refrigerant

Qvantum VS heat pumps are available in two different versions with respect to refrigerants:

  • refrigerant R-407C (supply temperature max
    +55°C)
  • refrigerant R-134a (supply temperature max
    +65°C).

Brine Circuit

Qvantum VS are configured for brine with antifreeze, e.g. bioethanol.

Pipe Connections

Q32VS – Q65VS has top connections. See drawing Q-VS-32-65-001.

Construction

The unit is built on a robust stand of galvanized square tubes and covered with an effective sound- absorbing casing, consisting of powder-coated plates with sound-absorbing material on the inside. The top plate is made of patterned aluminum. The top and bottom are also covered with sound- absorbing material. The stand rests on adjustable rubber feet.

Access

The unit is constructed so that all components inside the heat pump are easily available by removing the cover plates, both for maintenance and replacement.

Options

The following options are available:

  • Connecting QLC to network.
  • Hot gas heat exchanger.
  • Reversible function.

Equipment

The units are equipped with a fully hermetic piston compressor designed for speed control and a refrigerant circuit.

The units are equipped with a built-in air-cooled inverter, 3-phase 400V.

Heat exchanger

  • The evaporator is a brazed plate heat exchanger in stainless steel, insulated with Armaflex insulation.
  • The condenser is a brazed plate heat exchanger in stainless steel.
  • Hot gas heat exchanger (option) brazed plate heat exchanger in stainless steel, insulated with Armaflex insulation.

Refrigerant circuit

  • Drying filter
  • Sight glass with moisture indication
  • Electronic expansion valve, pressure
  • transmitter, control equipment with display. (Modbus)
  • High- and low-pressure switch, manual reset
  • Service valves for pressure measurement
  • Rotalock valves
  • Pressure protection equipment, high and low pressure

Testing

The units are test run and calibrated under design conditions using ClimaCheck.