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   Water Vapour Condensation 

 

The maximum possible percentage of water vapour

 

that can be absorbed becomes higher while the air is 

heated

, but the obtained percentage of water vapour

 

remains unchanged, and consequently the relative air 
humidity is reduced.  
However, when the air is 

cooled 

the maximum possi-

ble percentage of water vapour that can be absorbed 
is continuously reduced, whereas the water vapour 
quantity contained in the  air remains unchanged, and 
consequently the relative air humidity rises. 
When the air is further cooled off the absorption ca-
pacity regarding the maximum possible water vapour

 

quantity is continuously reduced until it is equal to the 
obtained percentage of water vapour. This is the dew 
point temperature. 
If the air is cooled down below the dew point, the ob-
tained percentage of water vapour will be higher than 
the maximum possible water vapour quantity. 

W a t e r   v a p o u r   i s   d e p o s i t e d . 

It condenses, is converted into water and thus is ex-
tracted from the air 

Steamed up window panes in winter or 
steamed up bottles containing cold drinks 
are typical examples of condensation. 

The higher the relative air humidity is, the 
higher is the dew point temperature, and 
consequently it is easier for the tempera-
tures to fall below the dew point. 

The generated conden-
sate is collected in the 
apparatus and carried 
away. 

   Condensation Heat 

 

The energy transferred from the condenser to the air 
consists of: 

The heat that was previously extracted in the evapo-
rator. 

The electric driving energy. 

The condensation heat released by liquefying water 
vapour. 

When the liquid condition is converted into a gaseous 
condition energy must flow back. This energy is called 
evaporation heat. It does not cause the temperature to 
raise but is used for the conversion from the liquid to 
the gaseous state. On the other hand energy is re-
leased when gas is liquefied, and this energy is called 
condensation heat. 

The energy rate of evaporation and condensation heat 
is identical. 

For water this is 2250 kJ / kg  ( 4,18 kJ = 1kcal ) 

This shows that a relatively high energy rate is released 
through water vapour condensation.  

If the humidity to be condensed is not generated by 
evaporation within the room, but fed from the outside, 
e.g. by aeration, the condensation heat released 
thereby contributes to room heating. 

When materials or rooms are to be dried the heat en-
ergy flows in a circulation, i.e. it is consumed during 
evaporation and released during condensation. 
A larger amount of heat energy is generated when fed 
air is dehumidified, and this heat energy is expressed in 
the form of a rise in temperature. 

Generally the time needed for drying does not depend 
on the apparatus capacity, but it is determined by the 
speed at which the material or the parts of the building 
emit the humidity contained in them.  

The air current is cooled off on its way through/via the 
evaporator until its temperature falls below the dew 
point. The water vapour condenses, it is collected in a 
condensate trap and carried away. 

Material Drying 

 
Building materials/buildings can absorb considerable 
quantities of water; e.g. bricks 90-190 l/m³, heavy con-
crete 140-190 l/m³, calcareous sandstone 180-270 l/m³. 
Humid materials such as brickwork dries in the following 
way: 

The contained humidity flows from the 
inside of the material to its surface 

Evaporation takes place on the sur-
face = water vapour is absorbed by the 
ambient air. 

The air enriched with water vapour is continuously cir-
culating through the REMKO air dehumidifier. It is de-
humidified and leaves the apparatus in a slightly 
heated up state to absorb again water vapour.

 

By this the humidity contained in the material is con-
tinuously reduced; the material becomes dry.

 

°C

30

25

20

15

% r.F.

100

90

80

70

60

50

40

30

20

10

+

+

-

condenser 

evaporator 

air-temperature 

air-direction 

humidity 

course 

Содержание ETF 100

Страница 1: ...REMKO powerful like a bear REMKO ETF 100 150 Mobile Dehumidifier Edition GB M02 Operation Technology Spare Parts ...

Страница 2: ......

Страница 3: ...without our prior consent Subject to alterations Operating Instructions Contents page Air Dehumidification 4 Safety Instructions 6 Unit Description 7 Installation 8 Starting 8 Discard the Unit 10 Transport Instructions 10 Cleaning the Filter 11 Contents page Maintenance and Service 11 Exploded View 12 Spare Part List 13 In Case of Troubles 14 Technical Data 14 Wiring Diagram 14 Maintenance and Ser...

Страница 4: ...r kg of dry air absolute water content 1 m of air weighs approx 1 2 kg at 20 C Depending on the temperature each kg of air can only absorb a defined quantity of water vapour When this quantity has been absorbed the air is saturated and has a relative humidity of 100 By relative air humidity we understand the relation be tween the percentage of water vapour contained in the air at the moment concer...

Страница 5: ...On the other hand energy is re leased when gas is liquefied and this energy is called condensation heat The energy rate of evaporation and condensation heat is identical For water this is 2250 kJ kg 4 18 kJ 1kcal This shows that a relatively high energy rate is released through water vapour condensation If the humidity to be condensed is not generated by evaporation within the room but fed from th...

Страница 6: ...condensation tank before moving the unit Do not set the unit up near curtains or drapes Maintain a safety distance of at least 50 cm min 50 cm Ensure that the unit is set up at a safe distance from flammable mate rials Ensure that the dehumidifier is sol idly set up on a level surface The unit may only be operated in an upright position Do not attempt to use the unit while lying on its side or in ...

Страница 7: ...a tion of the room air through the unit will thus reduce the humidity in the room to the desired relative humidity Depending on the air temperature and relative humidity condensation either drips into the condensation trap continuously or during the periodic defrosting phases From there it passes through the integrated outlet into the condensation tank located below it Condensation can also be rel...

Страница 8: ...tall the unit directly near radiators or other heat sources Make sure to keep the room to be dried and dehumidified closed so that air from outside cannot penetrate into it Entering into and going out of the room should be avoided if possible You can obtain better air circulation if you place the unit at a height of approx 1 m Important Hints Make sure that appropriate measures for mainte nance an...

Страница 9: ...rol lamp OPERATION in dicates the correct function of the unit BETRIEB OPERATION To open the flap tap the corrugated surfaces The top side will tip downward per mitting you to adjust the air flow direc tion as required Ensure that the air outlet is unob structed and that sensitive objects such as plants are not directly in the path of the air stream Remove the small grille lid to fill the dispense...

Страница 10: ...rform these steps in reverse order Remove the plug S from the connector on the rear of the unit S Attach a sufficiently long hose to the connector The condensa tion can now be allowed to flow into a drain for example during unattended continuous opera tion To prevent spillage ensure that the plug is cor rectly positioned G Remove the condensation tank and close the drain A below the condensation t...

Страница 11: ...ook the filter holder at the rear only ETF 150 5 Remove only ETF 150 the charcoal filter and replaced as required The charcoal filter insert cannot be cleaned Charcoal filter Filter holder Filter frame with filters 6 Clean the air intake filter in the filter frame With lukewarm water Dirty side down With a vacuum cleaner Dirty side up 7 Clean heavily contaminated fil ters in lukewarm max 40 C soap...

Страница 12: ...12 Exploded View We reserve the right to make changes to the design and dimensions in the interest of technical progress ...

Страница 13: ...essor complete 1103548 38 Accumulator 1103547 39 Rear panel 1103555 40 Support brace 1103538 41 Solenoid 1103530 42 Fan cover 1103539 43 Dry filter 1103549 44 Control board 1103541 45 Display board 1103542 46 Power board 1103543 47 Transport handle 1103544 No Designation Ref No ETF 150 Ref No 1103502 1103503 1103504 1103505 1103506 1103507 1103508 1103509 1103545 1103501 1103510 1103511 1103512 11...

Страница 14: ... than the humidity in the room Unit running no condensation formation Check room temperature The working range of the unit is between 6 C and 32 C Check relative humidity Min 40 Check hygrostat setting and choose a lower setting if required Check air intake filter charcoal filter for contamination Clean or replace as required Check exchanger blades for soiling Lei it clean as required Vaporizer is...

Страница 15: ...e 7 Date 8 Date 9 Date 10 Date Signature Signature Signature Signature Signature 11 Date 12 Date 13 Date 14 Date 15 Date Signature Signature Signature Signature Signature 16 Date 17 Date 18 Date 19 Date 20 Date Signature Signature Signature Signature Signature Unit cleaned exterior Unit cleaned interior Condenser cleaned Vaporizer cleaned Fan blades cleaned Dust filter cleaned or replaced Protecti...

Страница 16: ...REMKO GmbH Co KG Klima und Wärmetechnik D 32791 Lage Im Seelenkamp 12 D 32777 Lage PO Box 1827 Phone 49 5232 606 0 Fax 49 5232 606260 ...

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