EPSILON-CF IOM.pdf - Industrial Air

More documents

Recommendations

Info

TABLE 1 - EXTERNAL PIPE DIAMETERS FOR /LE VERSION MODEL EPSILON CF /LE Distance between motocondensing unit and remote evaporator (m) 10 20 30 Diameter of connecting pipes between motocondensing unit and remote evaporator Sunction Liquid Sunction Liquid Sunction Liquid [mm] [mm] [mm] [mm] [mm] [mm] 5 16 12 16 12 18 12 7 16 12 18 12 18 12 8.5 18 12 22 12 22 12 10 22 12 22 12 22 12 12.5 22 12 28 12 28 16 15 22 12 28 16 28 16 20 28 16 28 16 28 16 25 28 16 35 16 35 16 30 35 16 35 18 42 18 35 35 16 35 18 42 18 6.13 WATER FLOW RATE TO EVAPORATOR Figure 14 The nominal water flow rate is based on a 5 °C temperature difference between inlet and outlet in relation to the supplied cooling capacity. The maximum permissible flow rate is that which results in a temperature difference of 3 °C: higher flow rates will lead to excessive pressure drops and could damage the evaporator. The minimum permissible flow rate is that which results in a temperature difference of 8 °C or a pressure drop of no less than 10 kPa: lower flow rates will lead to excessively low evaporation temperatures with consequent tripping of safety devices and shutdown of the unit. 6.14 WATER TEMPERATURE AT THE EVAPORATOR For values and limits refer to the Technical Booklet. Air Blue • 20 1%
6.15 AMBIENT AIR TEMPERATURE – The units are designed and built to operate with ambient air temperatures within the limits shown on the operating limits diagrams. Contact Bluebox if the unit is required to operate at different ambient temperatures. – It should be noted that the performance of heat pump units decreases significantly at lower ambient temperatures (below 0 °C). – The units can be optionally equipped with an electric element for heating the evaporator. The heater cuts in, when the machine is switched off, if the water temperature in the evaporator falls below the freeze protection calibration temperature. 6.16 OPERATION IN LOW AMBIENT AIR TEMPERATURE CONDITIONS (OPTION) As ambient air temperature decreases it is possible to maintain the necessary condensation pressure for correct operation of the cooling cycle within the machine operating range by adjusting the cooling air flow through the condenser. Condensation pressure control is only active when the machine is operating in cooling mode. Condensation control is disregarded during heat pump mode operation. Condensation pressure regulation is achieved by a modulating damper that varies the air volume over the condenser coil in accordance with the condensing pressure read by the pressure transducers. 6.17 OPERATION WITH LOW TEMPERATURE CHILLED WATER AT EVAPORATOR Units from the normal production range are not designed to operate with chilled water temperatures lower than those indicated in the operating limit diagrams, at the evaporator outlet. To operate outside this limit the unit may require structural modifications. If this is necessary contact Bluebox. With temperatures lower than those shown in the operating limit diagrams, the hydraulic circuit should be filled with a suitable water and antifreeze solution. In such cases the service thermostat and the freeze protection thermostat must be reset: These calibrations are normally factory set. The ethylene glycol percentage must be selected in relation to the required chilled water temperature. See table 2. In the case of ST versions with a glycol content greater than 30% pumps with special seals must be specified at the time of the order. TABLE 2 - FREEZING POINT FOR WATER-ANTIFREEZE MIXTURES LIQUID OUTLET TEMPERATURE OR MINIMUM AMBIENT TEMERATURE (°C) +0° -5° -10° -15° -20° -25° -30° -35° -40° FREEZING POINT (°C) -5° -10° -15° -20° -25° -30° -35° -40° -45° ANTIFREEZE % BY WEIGHT ETHYLENE GLYCOL 6 22 30 36 41 46 50 53 56 PROPYLENE GLYCOL 15 25 33 39 44 48 51 54 57 METHANOL 8 14 20 26 30 34 38 41 45 CALCIUM CHLORIDE 9 14 18 21 24 26 27 28 30 TEMPER. –20 T -20°C — TEMPER. –40 T -40°C — TEMPER. –60 T -60°C TIFOXITE 40 50 60 63 69 73 — FREEZIUM 10 20 25 30 34 37 40 43 45 PEKASOL 50 50 59 68 75 81 86 90 — Air Blue • 21
Page 1: EPSILON CF 4.6 ÷ 39 kW Installatio
Page 4 and 5: 7. START-UP 24 7.1 PRELIMINARY CHEC
Page 6 and 7: 1. FIELD OF APPLICATION The equipme
Page 8 and 9: 3. NON APPLICABLE APPLICATIONS The
Page 10 and 11: REFRIGERANT SAFETY DATA - R407C 1.
Page 12 and 13: 4.3 INSTALLATION IN AREAS SUBJECT T
Page 14 and 15: 5.1 INDOOR UNIT POSITIONING The ind
Page 16 and 17: RECOMMENDED HYDRAULIC CIRCUIT DIAGR
Page 18 and 19: We strongly recommend installing a
Page 20 and 21: 6.8 INDOOR UNIT DUCTING The ducting
Page 22 and 23: 6.12 CONNECTIONS FOR VERSION /LE (M
Page 26 and 27: 6.18 ELECTRICAL CONNECTIONS 6.18.1
Page 28 and 29: 7. START-UP 7.1 PRELIMINARY CHECKS
Page 30 and 31: 9. CHECKS DURING OPERATION - Check
Page 32 and 33: 11.3 ENVIRONMENTAL CONSIDERATIONS 1
Page 34 and 35: REFRIGERANT CIRCUIT EPSILON CF Air
Page 36 and 37: REFRIGERANT CIRCUIT EPSILON CF HP L
Page 39: ENCLOSURES WIRING DIAGRAM MICROPROC
Page 42 and 43: ENCLOSURES WIRING DIAGRAM MICROPROC

EPSILON-CF IOM.pdf - Industrial Air

Create successful ePaper yourself

Delete template?

Save as template?