TCAEY-THAEY 115÷238 - Rhoss
TCAEY-THAEY 115÷238 - Rhoss
TCAEY-THAEY 115÷238 - Rhoss
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TXAEY 133<br />
technical data<br />
Electri cal data 133<br />
Absorbed power (P1/P2) AUTOMATIC 1 mode (*) (●) kW 13, 30<br />
Absorbed power (P1/P2) AUTOMATIC 2 mode (**) (●) kW 11, 50<br />
Absorbed power in AUTOMATIC 3 / SELECT 2/ SELECT 1 mode (***) (●) kW 13, 30<br />
Pump absor bed power P1 / P2 kW 0,70 / 1,50<br />
Electrical power suppl y V-ph-Hz 400-3+N-50<br />
Auxiliary power supply V-ph-Hz 230-1- 50<br />
Nominal current (▲) (●) A 22, 0<br />
Maximum current (●) A 25, 0<br />
Starting current A 200<br />
Pump absor bed power P1 / P2 A 5,1 / 8, 6<br />
Dimensions<br />
Width (L) mm 1660<br />
Height (H) mm 1570<br />
Depth (P) mm 1000<br />
Wat er connec tions Ø 2”<br />
Recover y system water filling connection Ø 1 ½”<br />
(*) In the f ollowi ng conditions : condenser i nput<br />
air temperature 35°C; chilled water temperatur e<br />
7°C; main heat exchanger (evaporator)<br />
temperature differ ential 5°C.<br />
(**) In the following conditions: chilled water<br />
temperature 7°C; t emper ature diff erenti al at<br />
main exchanger (evaporator) 5°C, sec ondar y<br />
exchanger (recovery) hot water outlet<br />
temperature 40/ 45°C at nominal flow.<br />
N.B.:<br />
The val ues for available static press ure of t he<br />
pumps and the pressure drops of the<br />
exc hangers can be found on page 39.<br />
The calc ulation of t he E.E.R. and C.O .P. does<br />
not take the pump abs orption int o acc ount.<br />
H<br />
(***) In the following conditions: coil inlet air<br />
temperature 7°C D.B., 85% R.H.; main<br />
exc hanger (condens er/evaporator) or<br />
secondary exchanger (recovery) hot water<br />
outlet temperat ure 40/ 45°C at nominal flow.<br />
(▲) The current value shown is the maximum<br />
from among t he values meas ured i n<br />
AUTOMATIC and SELECT mode in the<br />
respecti ve nominal conditions.<br />
(●) Add t he power and current val ues of t he<br />
pumps (P1/P2) to obtain the t otal value of the<br />
power and current absorbed by t he unit.<br />
P<br />
L<br />
20