Calculation Software User Guide.
Contents
1. water heat ee oe Exchanger exchanger Water temperature PE 20 F A A E AY Save Delete Prin lo ntl Close cr Tolerances can also be altered to show the closest suitable sized unit If your application requires more than one unit for installation reasons you can also alter the quantity amount Step 11 At this point click the Save button and all your details for this project will be stored Click the Print button for a paper copy of calculations Select the most appropriate form of cooling for your application for example in the above case if you choose air conditioning click on the Air Conditioner button Step 12 Now choose the unit most suitable and click on the Card button for a data sheet on the product Air Condiotioner a List TOF EHE 1400220 240 1 50 60 1400 TOP ERE 1400230 400 440 1 50 60 1400 TOP EHE14U0203 1007115 1 50 60 1400 har EHE14U0220 230 1 60 1400 PROTHERM EWE1 4002207000 230 1 50 60 1400 PROTHERM 1400 EVE 14002307000 400 440 1 50 60 SLIM EVE1441 220 30 17 5060 1400 SLIM EVE1441 230 400 440 1 50 60 1400 SLIM IM EVE 14432206000 230 1 50 60 1400 SLIM IM EWE148 32306000 400 440 1 50 6 1400 OPERA EVET40P 2206000 230 1 50 60 1400 OPERA EVET4OP250600 400 440 1 50 60 1400 PROTHERM EWE 140102037000 115 1 60 1400 PROTHERM EVET4U02207000 230 1 50 60 1400 CODE CODICE CODE CODIGO Voltage Phase F2. Calculation Software User Guide Step 1 Click on the cog icon to start calculation Step 2 Click on Industrial Cooling Step 3 Project code Example 1l El Enter your desired Project code name Step 4 Environment Click on INDOOR or OUTDOOR depending on your Capoor C oubor application Step 5 TEMPERATURE CONDITIONS Enclosure temperature request C E Max ambient temperature C 35 Click on the Ambient tab and enter your required internal and maximum external temperatures Step 6 Environment Ambient Enclosure Outdoor Components Result Click on the Enclosure tab and enter your Dimensions Covered side Layer enclosure dimensions Height mm width mm E Depth mm lo Step 7 Click on the Covered side tab and enter the location of your enclosure for example free standing 2 BASE BACK up against a wall as seen here Step 8 Click on the Layer tab then choose NON INSULATED Select enclosure material from the Thermal trans Coefficient drop down box Dimensions Covered side Layer NON INSULATED Thermal trans Coefficient W mK 5 5 MILO STEEL ALUMINUM STAINLESS STEEL PLASTIC MULTICOAT Step 9 Click on the Components tab and enter pre programmed devices from drop down box select the New button for each component To manu
3. OR INDOOR INDOOR INDOOR INDOOR INDOOR INDOOR Ww 1400 1170 mm 934x406x244 A 7 17 m h 575 575 lt bc E 5 20 55 20 55 Heigh Width Depth 1170 934x406x244 20 55 32 75 65 Noise level Rumorosita Exit
4. ally enter components that are not pre programmed click on Other from the drop down box and manually enter components Alternatively if the power dissipation is known enter the value directly into the Power dissipated space if using this method click on the Refresh button COMPONENTS Total heat loss w lo Component Duce Power absorbed w 3 5 Contactor 11 kw 1 Contactor 37 kw Filter 45kw Transformer 250 WA Feeder 250 VA MANUAL ENTRY Refresh New Delete Step 10 Click on the Result tab then click on the Calculate tab Your ventilation or air conditioning option boxes will turn green if this is a suitable type of cooling solution for your application 5 New project x Project code example Fa Description Company name Dake 1af11 2009 Environment Ambient Enclosure Outdoor Components Result RESULT Temperature difference PTS Total heat loss w 1013 200 Enclosure surface mz O 360 Irradiating surface m2 0 240 Power L35L35 ww 1240 572 Enclosure transmission w 200 Air mah farsa Sun radiation w o Internal device power W ooo Infiltrations ww o JY HEATING ELEMENT External min temperature 7c lo Request power w 0 000 80 Int min E ture C nternal min temperature F O Data Sheet cae Lower tolerance lo Higher tolerance o 25 Quantity fi aean Gir to ait heat Air to
5. requency Tensione Fase Frequenza Spannung Phase Frequenz Voltaje Fase Frecuencia Cooling capacity L35135 Potenza raffreddamento 135135 DIN 3168 Kalteleistung L35L35 Potencia refrigeraci n L35L35 DIN 3168 Cooling capacity L35L50 Potenza raffreddamento L35L50 DIN 3168 Kalteleistung L35L50 Potencia refrigeraci n L35L50 DIN 3168 Height Width Depth Altezza Larghezza Profondit Hohe Breite Tiefe Altura Ancho Profundidad Max running current Corrente max in marcia Betriebsstrom max Corriente m xima en marcha Starting current Corrente assorbita alla partenza Anlaufstrom Corriente absorbida al arranque Power absorbed L35L50 Potenza assorbita L35L50 DIN 3168 Leistungsaufnahme L35L50 Potencia absorbida L35L50 DIN 3168 Side cabinet fan flow free air Portata aria ventil lato armadio bocca libera Luftmenge Schrankseite freie Offnung Caudal aire ventil lado armario Side cabinet temperature limits Limiti temperatura lato armadio Temperaturbereich Schrankseite L mites temperatura lado armario Side ambient temperature limits Limiti temperatura lato ambiente Temperaturbereich Raumseite L mites temperatura lado ambiente Side cabinet protection degree Protezione lato armadio Schutzgrad Schrankseite Protecci n lado armario OD wichtigsten Option opci nes principales opzioni principali main options INDOOR INDOOR INDOOR INDOOR INDOOR DOOR INDOOR INDO
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