REMKO HTS 90 ALU User Manual

Thanks to innovative inverter technology, this

heat pump will almost always operate by

adapting its heating capacity to the actual

requirements of the heating season, and will in

fact turn itself off when heat is no longer

needed. The same applies in the opposite

direction with cooling.

Defrost by circulation reversal

At temperatures below about +5°C, humidity

freezes in the evaporator (outdoor module) and an

ice layer can form which reduces heat transfer

from the air to the refrigerant and to the air stream.

This layer of ice must be removed. A four-way

valve serves to reverse the refrigerant circuit, so

that the hot gas from the compressor flows through

the original evaporator and the ice that has formed

there can melt. The defrost process is not initiated

after a predetermined time; rather it is carried out

as required in order to save energy.

Cooling mode

Because of circuit reversal, cooling is also pos-

sible. In cooling mode, the components of the

refrigeration circuit are used to produce cold water

with which heat can be extracted from a building.

This can be accomplished with dynamic cooling or

passive cooling.

With dynamic cooling refrigeration power is trans-

mitted actively to the ambient air. This is under-

taken by means of water-based fan convectors. In

doing so, it is desirable that the inlet temperatures

are under the dew point, in order to transfer a

higher refrigerating capacity and to dehumidify the

indoor air.

The Passive cooling refers to the absorption of

heat via cooled floors, walls or ceiling surfaces. In

doing so, water-carrying pipes make the structural

sections into thermally effective heat exchangers.

In order to achieve this, the refrigerant temperature

has to lie above the dew point, in order to avoid the

formation of condensation. Dew-point monitoring is

required for this purpose.

We recommend dynamic cooling with fan convec-

tors, in order to achieve increased thermal per-

formance and in order to dehumidify the air on

muggy summer days. You will find corresponding

devices in the KWD, KWK and WLT-S series on

our website: "www.remko.de". The advantage here

is that dew point monitoring is not required.

The comfort zone in the illustration below shows

which values for temperature and humidity are

considered comfortable for people. This range

should ideally be met when heating or air-condi-

tioning buildings.

10

12

14

16

18

20

22

24

26

28

30

uncomfortably

humid

comfortable

still comfortable

uncomfortably

dry

Relative humidity in %

Room air temperature in °C

Fig. 11: Comfort zone

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