Pool dehumidification unit with heat pump HKG-WP - HANSA Klima
Pool dehumidification unit with heat pump HKG-WP - HANSA Klima
Pool dehumidification unit with heat pump HKG-WP - HANSA Klima
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ange of use (1)<br />
referred to the<br />
water surface (2)<br />
<strong>Pool</strong> <strong>dehumidification</strong> <strong>unit</strong> <strong>with</strong> <strong>heat</strong> <strong>pump</strong> <strong>HKG</strong>-<strong>WP</strong>E<br />
Technical data of <strong>HKG</strong>-<strong>WP</strong>E <strong>WP</strong>E-2 <strong>WP</strong>E-4 <strong>WP</strong>E-6 <strong>WP</strong>E-9 <strong>WP</strong>E-12 <strong>WP</strong>E-16 <strong>WP</strong>E-20 <strong>WP</strong>E-25 <strong>WP</strong>E-30 <strong>WP</strong>E-40<br />
private bath m 2 73 135 185 280 375 470 560 707 900 1070<br />
public bath m 2 56 102 140 210 275 350 425 536 670 805<br />
leisure bath m 2 40 75 100 150 200 250 300 380 480 575<br />
wave bath m 2 32 58 80 120 162 200 242 305 380 460<br />
therapy bath m 2 18 32 44 66 88 110 132 166 210 229<br />
nominal air volume flow rate (3) adjusting via varibale m 3 /h 2.500 4.600 6.300 9.500 12.600 15.800 19.000 24.000 30.000 36.000<br />
minimal air volume flow rate (4) speed drive m 3 /h 1.650 3.100 4.200 6.300 8.400 10.500 12.600 15.900 19.800 23.800<br />
<strong>dehumidification</strong> capacity (5) kg/h 5.1 9.5 12.9 19.3 25.8 32.2 38.7 48.8 60.7 73.0<br />
<strong>dehumidification</strong> capacity (6) kg/h 15.9 29.3 40.1 60.4 80.1 100.5 120.8 152.6 190.8 229.0<br />
outside air / exhaust air ratio in winter operation (ambient temps. below -5 °C) % 0 - 66 0 - 66 0 - 66 0 - 66 0 - 66 0 - 66 0 - 66 0 - 66 0 - 66 0 - 66<br />
outside air / exhaust air ratio <strong>with</strong> <strong>heat</strong> recovery % 0 - 100 0 - 100 0 - 100 0 - 100 0 - 100 0 - 100 0 - 100 0 - 100 0 - 100 0 - 100<br />
supply air fan<br />
power demand including electronic commutation kW 1.10 1.93 2.32 3.85 5.42 6.57 7.21 9.71 12.48 17.24<br />
nominal capacity kW 1.50 2.20 3.00 5.50 7.50 7.50 11.00 15.00 18.50 22.00<br />
nominal current A 3.10 4.35 6.30 11.30 15.20 15.20 21.00 27.80 35.00 42.00<br />
external pressure drop (sum of supply air and outside air duct) Pa 400 400 400 400 400 400 400 500 500 500<br />
return air fan<br />
power demand including electronic commutation kW 1.03 1.92 2.17 3.45 4.86 6.02 6.81 9.07 12.00 15.83<br />
nominal capacity kW 1.50 2.20 3.00 4.00 7.50 7.50 11.00 15.00 15.00 18.50<br />
nominal current A 3.10 4.35 6.30 8.20 15.20 15.20 21.00 27.80 27.80 36.00<br />
external pressure drop (sum of return air and exhaust air duct) Pa 400 400 400 400 400 400 400 500 500 500<br />
plate <strong>heat</strong> exchanger at nominal air volume flow rate<br />
temperature of incoming return air °C 30.0 30.0 30.0 30.0 30.0 30.0 30.0 30.0 30.0 30.0<br />
relative humidity % 54 54 54 54 54 54 54 54 54 54<br />
temperature of outgoing exhaust air °C 10.6 11.1 10.6 10.4 10.3 10.3 10.6 10.4 9.8 9.9<br />
temperature of incoming outside air °C -12.0 -12.0 -12.0 -12.0 -12.0 -12.0 -12.0 -12.0 -12.0 -12.0<br />
relative humidity % 90 90 90 90 90 90 90 90 90 90<br />
supply air temperature °C 24.4 23.2 24.6 24.9 24.6 24.6 24.4 24.8 26.2 25.9<br />
energy recovery kW 29.50 52.43 70.71 113.38 149.55 187.84 222.89 286.77 370.54 440.83<br />
efficiency<br />
(at nominal flow rate and 100 % fresh air operation) % 86 83 87 88 87 87 86 87 91 90<br />
efficiency at average ambient temperature of 9 °C / 80 %<br />
(at nominal flow rate and 100 % fresh air operation) % 90 87 90 89 89 89 88 90 93 92<br />
efficiency at average ambient temperature of 9 °C / 80 %<br />
(at 66% of nominal flow rate and 100 % fresh air operation)<br />
outside air filter<br />
% 81 78 81 80 80 80 79 80 84 83<br />
filter class G/F F7 F7 F7 F7 F7 F7 F7 F7 F7 F7<br />
filter surface area m2 return air filter<br />
13.2 17.8 24.9 33.2 40.1 49.8 74.7 99.6 115.1 120.3<br />
filter class G/F F7 F7 F7 F7 F7 F7 F7 F7 F7 F7<br />
filter surface area m2 <strong>heat</strong>ing coil<br />
10.0 13.2 21.3 25.0 29.8 37.5 55.0 69.9 80.9 85.8<br />
capacity (at water temperatures 70/50 °C) kW 25.3 34.8 52.2 93.0 121.3 138.3 171.5 199.2 249.6 327.6<br />
supply air temperature after <strong>heat</strong>ing coil at entering air temperature 15 °C<br />
<strong>heat</strong> <strong>pump</strong> (option)<br />
°C 40 40 40 40 40 40 40 40 40 40<br />
power demand at designed operating conditions (7) kW 1.20 1.80 2.01 3.71 5.05 6.65 7.40 8.30 11.20 13.10<br />
maximum power demand (7) kW 2.33 3.55 4.13 6.89 9.07 11.84 13.78 15.96 19.22 23.20<br />
current demand at designed operating conditions (7) A 2.40 3.75 4.20 7.00 10.59 14.10 14.00 17.60 22.70 27.00<br />
maximum current (7) A 4.20 6.30 7.00 13.00 15.90 22.00 26.00 30.00 33.60 39.20<br />
coefficient of efficiency COP 5.26 5.32 5.86 5.46 5.87 5.24 5.57 5.91 5.72 5.61<br />
cooling capacity kW 6.30 9.62 11.80 20.30 29.60 36.30 41.50 49.00 63.00 74.00<br />
condenser (<strong>heat</strong>ing) capacity kW 7.50 11.40 13.80 24.01 34.65 42.95 47.50 57.30 74.70 87.10<br />
supply air temperature behind the condenser<br />
pool water condenser (option)<br />
°C 37.3 37.0 36.2 37.8 38.5 37.8 37.0 36.6 36.6 35.6<br />
capacity<br />
water outlet temperature<br />
kW 7.50 11.40 13.80 24.00 27.84 40.15 47.50 57.30 73.70 87.10<br />
(at water inlet temperatur = 28 °C)<br />
fresh water <strong>heat</strong>er/economizer (option)<br />
°C 38 38 38 38 38 38 38 38 38 38<br />
capacity<br />
water outlet temperatur<br />
kW 1.40 2.33 2.72 4.63 5.85 7.93 9.10 10.68 14.03 16.37<br />
(at water inlet temperatur = 10 °C)<br />
mains power 400 V / 50 Hz (including <strong>heat</strong> <strong>pump</strong>)<br />
°C 25 25 25 25 25 25 25 25 25 25<br />
electric power demand at designed operating conditions (8) kW 4.2 6.9 7.8 12.7 17.4 21.7 23.6 29.7 38.9 50.7<br />
maximum electric power demand kW 6.4 9.3 11.8 18.5 27.0 29.8 39.1 50.0 57.1 69.2<br />
maximum current A 11.4 16.0 20.6 33.5 47.3 53.4 69.0 86.6 97.4 118.2<br />
(1) The given values are according to VDI 2089. We recommend to use these values as maximum values in order to enable efficient<br />
<strong>dehumidification</strong>.<br />
(2) Calculation based on pool water temperature of 28 °C and room air conditions of 30 °C / 54 % relative humidity.<br />
(3) different air volume flow rates avilable (4) minimum air volume flow rate for <strong>heat</strong> <strong>pump</strong> operation<br />
(5) <strong>dehumidification</strong> capacity in return air mode, 66% of nominal volume flow rate <strong>with</strong> <strong>heat</strong> <strong>pump</strong> (return air: 30 °C / 54 % r.H.)<br />
(6) <strong>dehumidification</strong> capacity according to VDI 2089 at nominal air flow rate<br />
(7) for <strong>unit</strong>s <strong>with</strong> more than one compressor, the given figures are related to the whole <strong>heat</strong><br />
<strong>pump</strong> system<br />
(8) fans at nominal air volume flow rate including optional <strong>heat</strong> <strong>pump</strong> (including the efficiency<br />
losses of motors and variable frequency drives)<br />
11/2010 - Alteration of construction reserved 15