• WATROD™ ENCLOSURE HEATERS

    PREVENT FREEZING AND CONDENSATION IN ELECTRICAL AND MECHANICAL HOUSINGS

    WATROD enclosure heaters are designed to prevent freezing and condensation in electrical and mechanical housings. The WATROD heater element is enclosed in a perforated, aluminized-steel bracket to prevent direct contact with the heating element.

    The enclosure heater’s stainless steel sheath wall resists corrosion and protects the heating coil from exposure while the silicone resin seal provides protection against humid storage conditions and is effective up to 390°F (200°C).

    • Stainless steel sheath wall resists corrosion and protects the heating coil from exposure
    • Silicone resin seal protects against humid storage conditions and is effective to 390°F (200°C)
    • Perforated aluminized-steel mounting bracket eases installation and helps prevent direct contact with the heating element
    • Stock straight projection Type B #10-32 screw lug terminals for easy electrical connection
    • Made-to-order threaded stud provides quick connect and flexible lead wire termination options

  • SILICONE RUBBER ENCLOSURE HEATERS

    RUGGED, RELIABLE AND SAFE TO OPERATE

    Designed for freeze and condensation protection, Watlow’s enclosure heaters are rugged, reliable and safe to operate. These rectangular-shaped, wire-wound silicone rubber enclosure heaters can be ordered by themselves with adhesive or vulcanized to an aluminum mounting plate. A thermostat can be attached to the heater or mounted separately. Pictured are enclosure heater units with thermostat on heater in foreground and heater with remote thermostat in background.

    • Pressure sensitive adhesive mounting for quick and easy installation
    • Several standard thermostat set points ensures protection against freezing with minimal energy consumption
    • Remote thermostat option provides optimal choice of heater location versus temperature control location
    • No exposed electrical connections creates a safe and reliable operation
    • Multiple lead options accommodate a variety of wiring requirements

  • RAYMAX® PANEL HEATERS

    IDEAL FOR PROCESS HEATING REQUIRING “HOT-FACE” TEMPERATURES ABOVE 1000 DEGREES F.

    Applying radiant panel heaters can be complicated. However, Watlow’s engineering staff has the level of training and expertise required to meet most application requirements. Watlow provides a high degree of technical support such as calculating the watt density and temperature requirements and recommending system components such as sensors and controllers.

    • Watlow engineering and application support helps projects run smoothly
    • Watlow sensors and controllers are completely compatible with RAYMAX heaters for a single-source, customized thermal system
    • Light weight, Low mass design

  • LDH SERIES AND D SERIES DUCT HEATERS

    EASILY ADAPTED TO MANY NON-PRESSURIZED AIR HEATING SYSTEMS

    Watlow duct heaters are constructed of sturdy 0.430 in. (11 mm) diameter WATROD heating elements mounted to a 1⁄4 in. (6 mm) thick steel flange. These air duct heaters are easily adapted to many non-pressurized air-heating systems.

    Duct heaters are easily installed in applications requiring a wide range of temperature versus air flow combinations.

    The modular duct heater offers increased reliability. The individual modules are removable through the housing of the assembly, which eliminates the need to pull the complete heater from the ductwork. This reduces downtime costs because the heating elements can be replaced individually. Performance improvements include quicker response time and reduced infiltration from the air stream being heated into the electrical enclosure.

    Watlow air duct heaters offer advantages over gas or oil fired and open coil electric units with:

    -Installation flexibility—no flues or fuel lines
    -100 percent energy efficient—no energy loss up the flue
    -Universal availability of electricity
    -Resistance coil in sheath is protected from corrosive environments
    -Duct heaters with general purpose enclosures meet UL® and CSA component recognition to 480 and 600VAC maximum respectively—UL® and CSA file numbers are E52951 and 31388.

    • Long life alloy 800 sheath resists corrosion/oxidation while protecting resistance coils against contamination
    • MgO insulation filled elements compacted to rock hard density maximizes dielectric strength, heat transfer and life
    • Field replaceable heating elements permits easy service and reduces downtime
    • General purpose terminal enclosure offers easy access to wiring
    • WATROD hairpins are recompacted after bending to eliminate hot spots and electrical insulation voids

  • ECO-HEAT® SYSTEM

    WATLOW’S ECO-HEAT SYSTEM FOR DIESEL GENERATORS UP TO 9L

    Low exhaust gas temperatures (resulting from low load or low ambient conditions) can compromise the performance of your diesel generator’s aftertreatment system and eventually lead to unplanned downtime and expensive repairs. Whether your aftertreatment configuration has a DPF, an SCR or just a DOC, Watlow’s ECO-HEAT system delivers reliable electric heat that can quickly raise the exhaust gas temperature to the correct level.

    Designed to be installed in the exhaust pipe, the ECO-HEAT system places heat directly where it is needed. It uses electricity from your diesel generator to operate when exhaust gas temperatures are too low. Unlike an external load bank that requires additional space and wastes heat to the surrounding environment, the ECO-HEAT system is compact and efficient. You can think of it as a smart internal load bank for your diesel generator. When you place a higher load demand on your generator, the ECO-HEAT system will shut off as the engine exhaust temperature reaches an acceptable threshold.

    • Reduce fuel consumption by over 50 percent as compared to an external load bank
    • Enables passive diesel particulate filter (DPF) to regenerate more effectively
    • Avoid unplanned downtime and expensive service calls
    • Eliminate the need for an external load bank
    • Place exhaust heat exactly where it is needed

  • CERAMIC FIBER HEATERS

    THE BETTER FURNACE TECHNOLOGY HEATER

    Ceramic fiber heaters offer some of the highest temperature heating element capabilities in the Watlow family of heaters. Heating units constructed of ceramic fiber insulation isolate the heating chamber from the outside. Ceramic fiber heaters are extremely low mass, high insulation value units with self-supported heating elements. Many applications can benefit from the convenience of the heating element and insulation combined into one package. Its lightweight, low-density properties make it ideally suited for high temperature applications requiring low thermal mass.

    • High temperature ICA resistance elements bounds integrally into required position
    • Lightweight, low-density alumina-silica composition molded into shape ensures a firm, thermal shock resistant, self-supporting unit at all operating temperatures
    • Operating temperatures up to 2200°F (1204°C) provides high-temperature performance not possible with many other heater types
    • Low mass ceramic fiber insulation allows the heater to reach process temperature quickly, efficiently heating the load instead of itself
    • Works directly off common power line voltages eliminating the need for expensive transformers or complex power control systems

  • MULTICELL™ INSERTION HEATERS

    EFFICIENT HEAT DISSIPATION AND LONG LIFE TO MEET YOUR HIGHEST DEMANDS

    The advanced design of the MULTICELL heater from Watlow offers three major advantages over other insertion heaters: extreme process temperature capability, independent zone control for precise temperature uniformity and loose fit design for easy insertion and removal.

    • Multiple, independently controllable zones for process temperature uniformity
    • Radiant design of heater permits easy removal and replacement with minimal downtime
    • Oxidized sheath improves heater performance as oxidation increases
    • Quick disconnect plug and jack enables quick replacement of individual elements while maintaining operating temperature
    • Special bending capabilities solves unusual machinery needs

    INDIVIDUALLY METAL-SHEATHED COILS SWAGED INTO A LARGER, HIGH-TEMPERATURE ALLOY OUTER SHEATH
    Provides maximum protection against element burnout through the outer sheath

    FLEXIBLE LEADS UP TO 842°F (450°C)
    Protects termination from high-temperature environment

    MULTIPLE, INDEPENDENTLY CONTROLLABLE ZONES
    Allows process temperature uniformity not possible with any other single-sheathed heater

    RADIANT DESIGN OF HEATER
    Permits easy removal and replacement with minimal down time since it will not bind or seize in the hole

    QUICK DISCONNECT PLUG AND JACK
    Permits fast replacement of individual elements while the press stays at operating temperature

    SPECIAL BENDING CAPABILITIES
    Solves unusual machinery needs and keeps leads away from heated zones

  • METRIC FIREROD METRIC CARTRIDGE HEATERS

    CARTRIDGE HEATER BUILT TO MEET THE SPECIFICATIONS OF THE GLOBAL MARKET

    The Watlow FIREROD not only sets the industry standard for cartridge heaters, but continues to make improvements in construction and design. Among those improvements is the FIREROD metric cartridge heater, a variation of the FIREROD cartridge heater built to meet the exact specifications of the global market.

    Like its counterpart, the metric FIREROD consistently outperforms other cartridge heaters with its design solutions such as its exclusive resistance wire winding and swaging process. These processes bring the resistance wire closer to the sheath and compacts the MgO insulation to maximize heat transfer. The end result is longer service life and better efficiency.

    • Nickel chromium resistance wire ensures even, efficient distribution of heat to sheath
    • Magnesium oxide insulation of specific grain and purity results in high dielectric strength and faster heat-up
    • Alloy 800 sheath resists oxidation and corrosion from many chemicals, heat and atmospheres
    • Minimal spacing between element wire and sheath results in lower internal temperatures and accommodates design with fewer or smaller heaters
    • UL® and CSA approved flexible stranded wires with lead insulation rated to temperatures of 250°C (480°F)

    NICKEL-CHROMIUM RESISTANCE WIRE
    Assures even and efficient distribution of heat to the sheath because the wire is precisely wound and centered in the heater

    CONDUCTOR PINS
    Ensures a trouble-free electrical connection because of the metallurgical bond between the conductor pins and resistance wire

    MAGNESIUM OXIDE INSULATION OF SPECIFIC GRAIN AND PURITY
    Results in high dielectric strength and contributes to faster heat-up

    ALLOY 800 SHEATH
    Resists oxidation and corrosion from many chemicals, heat or atmospheres

    UL® AND CSA APPROVED FLEXIBLE STRANDED WIRES
    Insulates the wires to temperatures of 250°C (480°F)

    MINIMAL SPACING BETWEEN THE ELEMENT WIRE AND SHEATH
    Results in lower internal temperatures and accommodates design with fewer or smaller heaters

  • HIGH-TEMPERATURE FIREROD® CARTRIDGE HEATERS

    SWAGED CARTRIDGE HEATER IDEAL FOR HIGH-TEMPERATURE APPLICATIONS

    The Watlow HT FIREROD cartridge heater is especially designed for high-temperature platen applications up to 1600°F (871°C). The HT FIREROD high temperature cartridge heater utilizes the same industry leading design principles used on all of Watlow’s FIREROD products. Taking the cartridge heater one step further enables the HT FIREROD to withstand application temperatures up to 400°F (204°C) higher than standard cartridge heaters.

    There are certain differences in the HT FIREROD design which are important in high temperature applications:

    -HT FIREROD cartridge heaters are specially constructed with an end seal that is virtually airtight to reduce the effects of resistance wire oxidation
    -The high-temperature sheath is treated to improve its emissivity for better heat transfer

    • High-temperature seal results in longer heater life
    • Alloy 800 sheath transfers heat more efficiently
    • High emissivity sheath provides better heat transfer and longer heater life

    HIGH-TEMPERATURE SEAL
    Reduces exposure to the atmosphere which minimizes oxidation of the winding wires resulting in longer life of the element; note: first 2 in. (51 mm) must be outside the platen in free air

    ALLOY 800 SHEATH
    Transfers heat more efficiently

    HIGH EMISSIVITY SHEATH
    Provides better heat transfer and longer life

  • MINERAL INSULATED STRIP HEATERS

    THIN, RESPONSIVE HEATER SETS STANDARDS FOR PERFORMANCE AND DURABILITY

    The MI strip heater is a thin, responsive heater that uses the most advanced heater construction techniques. A nickel-chromium element wire is embedded in Watlow’s exclusive mineral insulation material, which has a much higher thermal conductivity than the mica and hard ceramic insulators used in conventional heaters. This thin layer of insulation brings the element wire closer to the heater sheath. The result is heat flows easily from the element wire to the sheath allowing the wire to run cooler than conventional heaters and increasing heater life.

  • MINERAL INSULATED NOZZLE HEATERS

    FEATURING WATLOW’S EXCLUSIVE MINERAL INSULATION (MI) TECHNOLOGY

    The MI nozzle heater from Watlow is a high-performance heater. The nozzle heater’s performance and name are derived from Watlow’s exclusive mineral insulation—a material with a much higher thermal conductivity than mica and hard ceramic insulators used in conventional heaters.

    A thin layer of the “high” thermal conductive MI material is used to electrically insulate the element wire from the inside diameter of the heater sheath. A thicker, “low” thermal conductivity layer backs up the element wire, directing the heat inward toward the heated part. The result is more efficient heat transfer—a performance solution lowering element wire temperatures and increasing heater life.

Main Menu