Mineral Insulated High Temperature A C Constant Wattage Series Resistance Heating Cable Sets Process Temperature Maintenance to F (593 C) Maximum Exposure Temperature 4 F (76 C) (Power Off) Corrosion Resistant Alloy 825 or Stainless Steel Sheath Factory Assembled Cable Sets Ready for Installation Fully Annealed Sheath allows Field ending Min. end Radius 6X Diameter of Cable For Use on Metallic Pipes Only Construction A Metal Sheath: High nickel content Alloy 825 is recognized for its use in high temperature applications, and use in many corrosive environments. This alloy has excellent resistance to pitting, chloridestress, acid and alkali corrosion. Stainless steel is also available. MgO: Highly compacted Magnesium Oxide provides insulation of the resistance wire for voltages up to 6V. Completely sealed sheath protects the MgO from moisture & contamination. C Resistance Wire: A large number of available resistances enables the design of a large range of lengths and wattages. Double and single conductor available D Cold-Lead (Shown elow): Non-heating cable extends the leads away from the high temperature equipment. 4 ft. long is standard. E Gland Fitting (Shown elow): Every set includes one or two /2 NPT fittings for connection to a junction box. The number of fittings depends on the configuration of the cable set. WARNING A ground fault protection device is required by NEC to minimize the danger of fire if the heating cable is damaged or improperly installed. A minimum trip level of 3mA is recommended to minimize nuisance tripping. Approvals FM Approved* Class I, Division 2, Groups A,, C, D Class I, Zone 2, Group IIC CSA Approved Class I, Division 2, Groups A,, C, D Class II, Division 2, Groups F, G Class III, Division Class I, Zone and Zone 2, Group IIC Description Chromalox mineral insulated heating cables provide rugged and reliable heat tracing for a variety of demanding applications. The high nickel alloy sheath, magnesium oxide dielectric insulation and resistance wire construction allow the tracing of equipment up to F maintenance temperatures and excellent resistance to many corrosive environments. At lower temperatures, watt densities of up to 5 W/Ft can be designed. Please contact factory for cable maintenance temperature above 4 F. Available Designs * Stainless steel not FM approved. Form A (one cold section w/ 4 AWG - 2 in. pigtails and termination w/ end cap,.5 brass pressure fittings) Available in two conductor only Form E (two cold sections w/ 4 AWG - 2 in. pigtails,.5 brass pressure fittings) Available in one conductor or two conductor One Conductor Heated Length Heated Length NERAL INSULATED Two Conductor Heated Length G-25
Mineral Insulated High Temperature (cont d.) Heating Cable System Design. Heater Design Determine heater design to use. 2. Calculate Heat Loss Using the Technical Section of this catalog (Determining Heat Energy Requirements), calculate the heat energy requirements of the pipe or tank to be heated. In addition, Chromalox offers ChromaTrace, a heat trace design program to facilitate heat tracing system design. 3. Determine Total Cable Length In addition to the system piping, in-line equipment such as valves, flanges and pipe supports require additional heat tracing to maintain the system operating temperature. Refer to Technical Section of this catalog (Pipe Component Allowance Table) to determine the proper component cable allowances for your system. Add the heated pipe length and the component cable allowance lengths to calculate the total cable length. Guidelines for tracing tanks and vessels are also given in the Technical Section of this catalog 4. Determine Available Voltage (V) Determine what Voltage is available. At a given voltage, not every cable length and power output is available. For example, shorter lengths may require 2V supply. Trying several voltages may result in a more efficient design. 5. Calculate Resistance per Foot (R/ft) using the desired Watts per Foot (W/ft) and cable length (L) R/ft desired = V 2 /(W/ft desired x L 2 ) 6. Select the Proper Resistance per Foot (R/ft) Rating Choose a cable having equal or the next lower resistance per foot value from the Ordering Information Table 7. Calculate Actual W/Ft. and Total Wattage (W TOTAL ) W/ft actual = V 2 /(R/ft actual x L 2 ) W TOTAL = W/ft actual x L 8. Determine Current Draw (I) I= V/(R/ft actual x L) 9. Select Heater Single or Double Conductor Length The cold lead is determined by the customer or by using a standard 7 ft. Standard cold lead is #4 awg.. Convert Design to a Model Number. Note: Some cable resistances must be modified according to the resistance curves in the Order Information Table. Modify your resistance according to the following procedure: a. ased on the desired power output in Watts/ft, use Graph- to determine the Sheath Temperature Rise for the particular cable diameter you select. c. From Graph-2, determine the cable resistance multiplier for your application. Multiply the resistance value given in the resistance tables by this multiplier to determine the cable resistance at operating conditions. d. Determine the electrical and thermal conditions. Once the cable resistance has been selected, verify the performance of the cable you have selected from Graph-3 and 4. b. Add the sheath temperature rise to the desired maintenance temperature to determine the cable resistance at operating conditions. Optional Construction Adders Prefix Suffix Description P Pulling Eye for A form only X Oversized cold section current >25 Amps and <4 Amps EM Mounting of hot-cold junction outside thermal insulation (freeze protection of lines over 6ºF) QT QHT-3 High temperature adapter UG UL listing tag** UH UL hazardous area listing tag** **Required volts, amps and watts with each cable order G-26
Mineral Insulated High Temperature (cont d.) Heating Cable Available Resistances Two Conductor, 3/6 Nominal O.D., Alloy 825, 3 Volts,.2 lbs/ft 556K.43 658K.58 674K.742 693K.926 6 (35) 72K.7 75K.47 72K.23 3 732K.39 742K.46 752K.52 766K.66 774K.74 783K.83 8K. 83K.3 88K.8 824K 2.34 83K 2.96 838K 3.7 846K 4.72 86K 5.6 866K 6.6 894K 9. 99K 8. Two Conductor, 5/6 Nominal O.D., Alloy 825, 6 Volts,.27 lbs/ft 588.7 64.49 6 (35) 627.27 2 64.4 3 67.65 7.4 75.62 72.25 732.325 75.5 774.735 8.62 89.87 83 2.97 84 4.3 859 5.98 One Conductor, 3/6 Nominal O.D., Alloy 825, 6 Volts,.8 lbs/ft NERAL INSULATED 45K.46 89K.9 6 (35) 2 26K.65 3 239K.39 25K.5 279K.79 3K.95 36K.57 326K.26 333K.33 346K.457 372K.73 42K.7 45K.48 423K 2.36 43K 2.8 447K 4.5 G-27
Mineral Insulated High Temperature (cont d.) Two Conductor, Stainless Steel, 3 Volts S. 9S 9. 75S 7.5 6S 6. 4S 4. 275S 2.75 2S 2. 7S.7 4S.4 7S.7 472S.472 374S.374 293S.293 2S.2 5S.5 S. 734S.734 583S.583 458S.458 324S.324 Two Conductor, Stainless Steel, 6 Volts 6S. 69S 9. 66S 6. 644S 4.4 62S 2. 65S.5 67S.7 655S.55 6286S.286 62S.2 65S.5 6S. 6775S.775 656S.56 642S.42 628S.28 622S.2 63S.3 688S.88 656S.56 6324S.324 624S.24 628S.28 G-28
Heating Cable Mineral Insulated High Temperature (cont d.) Specification / Application Information Graph- Cable Sheath Temperature Rise 6 Sheath Temperature Rise ( F) Graph-2 Cable Resistance Temperature Multiplier 2.5 Resistance Multiplier 55 5 45 2.25 2. 4 35 K.75 3 25 2.5.25 2 3 5. 5.75.5 2 3 4 5 6 7 8 9 2 3 4 5 6 7 8 9 Cable Watts/Foot Sheath Temperature Graph-3 Maximum Wattages - All Cables With Hot/Cold Junction Under Insulation Graph-4 Maximum Wattages - All F Maximum Temperature Cables With Hot/Cold Junction Under Insulation Maximum Watts/Foot Maximum Watts/Foot 7 65 6 9 55 8 5 45 4 35 7 6 5 NERAL INSULATED 3 4 25 2 5 K 3 2 K 5 2 3 4 5 Maintain Temperature ( F) 6 7 2 4 6 8 Maintain Temperature ( F) 2 G-29
Mineral Insulated High Temperature (cont d.) Accessories HTC-3- (392286) HTC-3-5 (392294) Heat Transfer Cement, Gallon Pail Heat Transfer Cement, 5 Gallon Pail SSW- (39235) Stainless Steel Tie Wire, ft Roll J-7-4 (39237) Four Hub, NEMA 7 Cast Aluminum Junction ox SSPS-82 (392323) Stainless Steel Spacer Strip with " spaced tabs, 5ft roll CL- (382424) Caution Labels (5) electric heat tracing caution labels, weather resistant Ordering Information To Order Complete the Model Number using the Matrix provided. Model Heater Set Design A or E Cable Number (determined by resistance value required for needed wattage output) Cable Heated Section Length in Feet Cable Cold Section Length in Feet Heater Set Total Wattage (W TOTAL ) Operating Voltage (V) CI A 67 5 7 477W 2V Typical Model Number (2V, 9.9 w/ft cable, 5 ft heated section, 7ft cold lead section) G-3