TCAEY-THAEY 115Ã·238 - Rhoss

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TXAEY 133 technical data Electri cal data 133 Absorbed power (P1/P2) AUTOMATIC 1 mode (*) (●) kW 13, 30 Absorbed power (P1/P2) AUTOMATIC 2 mode (**) (●) kW 11, 50 Absorbed power in AUTOMATIC 3 / SELECT 2/ SELECT 1 mode (***) (●) kW 13, 30 Pump absor bed power P1 / P2 kW 0,70 / 1,50 Electrical power suppl y V-ph-Hz 400-3+N-50 Auxiliary power supply V-ph-Hz 230-1- 50 Nominal current (▲) (●) A 22, 0 Maximum current (●) A 25, 0 Starting current A 200 Pump absor bed power P1 / P2 A 5,1 / 8, 6 Dimensions Width (L) mm 1660 Height (H) mm 1570 Depth (P) mm 1000 Wat er connec tions Ø 2” Recover y system water filling connection Ø 1 ½” (*) In the f ollowi ng conditions : condenser i nput air temperature 35°C; chilled water temperatur e 7°C; main heat exchanger (evaporator) temperature differ ential 5°C. (**) In the following conditions: chilled water temperature 7°C; t emper ature diff erenti al at main exchanger (evaporator) 5°C, sec ondar y exchanger (recovery) hot water outlet temperature 40/ 45°C at nominal flow. N.B.: The val ues for available static press ure of t he pumps and the pressure drops of the exc hangers can be found on page 39. The calc ulation of t he E.E.R. and C.O .P. does not take the pump abs orption int o acc ount. H (***) In the following conditions: coil inlet air temperature 7°C D.B., 85% R.H.; main exc hanger (condens er/evaporator) or secondary exchanger (recovery) hot water outlet temperat ure 40/ 45°C at nominal flow. (▲) The current value shown is the maximum from among t he values meas ured i n AUTOMATIC and SELECT mode in the respecti ve nominal conditions. (●) Add t he power and current val ues of t he pumps (P1/P2) to obtain the t otal value of the power and current absorbed by t he unit. P L 20
<strong>TCAEY</strong>-<strong>THAEY</strong> 115÷238 / TXAEY 111÷133 technical data Energy efficiency at partial loads - ESEER index ○ The E.E.R. i ndex repres ents an es timate of t he energy efficienc y of the cooling unit in nominal design conditions. In reality, the operating time of a chiller in nominal conditions is usually less than the operating time i n partial load c onditi ons. ○ The E.S.E.E.R. (European Seas onal E. E.R.) is an index t hat estimates the average seasonal energy efficienc y of the cooling unit i n four load and wat er temperat ure c onditi ons. Generall y, t wo wat er chillers with the same E.E.R. may have different E.S.E.E.R. values. In fact, for a water cooling unit, the average energy efficiency depends on design choices and on t he t emper ature of i nlet water at t he c ondensing heat exchanger. ○ The E.S.E.E.R. energy index, introduc ed by t he European Communit y (Project E.E.C.C.A.C. - Energ y Ef ficienc y and Certificati on of Central Air Conditioners), is charact erised by t he water t emperatures (see table “B”) and by the energy weights t hat are assigned to the four load c onditions consi dered in the calcul ation: 100% , 75%, 50% and 25%. ESEER = 3xEER 100% +33xEER 75%+41xEER 50% +23xEER 25% 100 where EER100% EER75% EER50% EER25% represent t he efficienci es of the cooling unit in t he four load conditions and at the temperatures i ndicat ed in t able “B”. The dat a is calcul ated usi ng Eurovent methodology. The pump absorption (if present) is not taken into c onsideration. Table “B”: load and temperature conditions Condenser inlet air temperature Load E.S.E.E.R. 100% 35°C 75% 30°C 50% 25°C 25% 20°C ○ Table “C” shows the E.E.R. and E.S.E.E.R. values for each model. The high values of energy efficienc y at partial loads were ac hieved thanks to optimisation of the heat exc hangers. Table “C”: E.E.R. - E.S.E.E.R. for TC AEY Model E.E.R. E.S.E.E.R. 115 2,76 3,15 117 2,67 3,11 122 2,76 3,44 124 2,62 3,09 127 2,59 3,18 130 2,44 2,89 133 2,56 2,85 233 2,64 2,92 238 3,06 3,69 Table “C”: E.E.R. - E.S.E.E.R. for TH AEY Modèle E.E.R. E.S.E.E.R. 115 2,73 3,14 117 2,70 3,12 122 2,81 3,43 124 2,52 3,07 127 2,61 3,16 130 2,44 2,90 133 2,56 2,84 233 2,64 2,93 238 3,06 3,69 Table “C”: E.E.R. - E.S.E.E.R. for T XAEY Model E.E.R. E.S.E.E.R. 117 2,67 3,12 124 2,62 3,07 130 2,44 2,90 133 2,56 2,84 21
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Page 46 and 47: 0 OFF I ON TXAEY 117÷130 dimension
Page 48 and 49: TCAEY-THAEY-TXAEY 115÷238 Water co
Page 50 and 51: TCAEY-THAEY 115÷233 water circuit
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Page 56 and 57: GND GND ! ALARM Prg ON OFF MODE TCA
Page 58: notes _____________________________

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