Stainless Steel Circulation Heaters
The series 350 (12 W/In2), 357 (20 W/In2) and 358 (50 W/In2) Indeeco circulation heaters are designed for heating mildly corrosive liquids or pure water solutions. This design may also be used for heating gases or liquids to high temperatures with optional thermostat and high temperature construction described in the Special Features section. These high quality Stainless Steel Heaters include the following standard features:
- Incoloy sheathed .475” diameter heating elements
- Insulated 304 stainless steel vessel with a galvanized jacket
- NEMA Type 1 terminal enclosure
- Built-on thermostat, 60-250° F range
- Choice of mounting brackets or mounting pads
- Flange heaters have 150 lb. stainless steel flanges which meet ANSI B16.5 standards
- Rated 160 psi at 250° F
- Optional 316 stainless steel construction
- Optional passivation
Optional Built-On Thermostats and Contactors
Alternate Temperature Ranges for Standard Type DA Thermostat
- 0-100° F
- 200-550° F
- 300-700° F
Optional Type P Indicating and Two-Stage Thermostats
- 20 - 120° F
- 50 - 250° F
- 100 - 650° F
- 100 - 1000° F
Tamperproof Thermostat Enclosure
Type DA thermostat is completely enclosed in a box with solid cover.
Type EC Thermostat for Process Overtemperature Protection
This field-adjustable thermostat acts as an automatic reset cutout to protect against process overtemperature. The sensing bulb is factory-mounted in the outlet area.
- 60-250° F
- 150-550° F
No Built-On Thermostat
A built-on thermostat is not required because process temperature is controlled by remote thermostat or control panels.
Magnetic contactors, required for use with built-on pilot duty thermostats, can be factory-mounted on the circulation heater, eliminating the need for a remote contactor enclosure and the associated field wiring costs.
A built-in Type J or K sheathed thermocouple can be provided for three specific purposes:
Process Temperature Control – The thermocouple is factory-mounted in the outlet area to sense temperature for the process controller.
Process Overtemperature Protection – The thermocouple is factory-mounted in the outlet area to sense temperature for the process overtemperature controller, which prevents process liquid or gas overheating.
Heater High Limit Protection – The thermocouple is attached to the heating element to sense sheath temperature for the heater high limit controller. This prevents element overheating and burnout due to low liquid level, inadequate flow, sludge buildup, etc.
Indeeco provides a wide range of special thermocouple, RTD and thermistor sensors to meet your temperature control requirements.
Temperature Control Panels
Control panels, designed and manufactured by Indeeco, offer a convenient, reliable means of completing the heater control package. Control panels containing all necessary components, such as contactors, fuses, transformer, disconnect switch, pilot lights and electronic controls are available.
Indeeco offers built-on, skid-mounted or remote temperature control panels with control components built into NEMA 4, NEMA 4X, NEMA 7 and NEMA 12 enclosures.
ASME Code Stamp
Indeeco has in-house ASME code welding capabilities. All Indeeco circulation heaters are designed in accordance with ASME standards. An ASME code stamp is optional.
Moisture and/or Explosion-Resistant Construction
Recommended for applications where there is danger of moisture entering the terminal and thermostat enclosures (NEMA 4 construction) or for hazardous locations classified by the National Electrical Code as Class I, Divisions 1 & 2, Groups B, C & D (NEMA 7 construction).
For all moisture and/or explosion-resistant constructions, the externally mounted, built-on Type DA thermostat is replaced by a pilot duty, 60-250° F thermostat built into the terminal enclosure. Remote temperature control is required for temperatures above 250° F.
Weatherproof Insulation Jacket
A sealed, galvanized steel construction is recommended for most outdoor installations. Stainless steel construction is also available for high temperature, very wet or corrosive applications.
High Temperature Construction Features
Extended Terminal Enclosure
This terminal enclosure allows the use of 90° C rated incoming field wiring and epoxy element seals when the outlet temperature exceeds 400° F for gases or 450° F for liquids.
Ceramic Fiber Vessel Insulation
Ceramic fiber vessel insulation should be used when the outlet temperature exceeds 800° F.
Spiral-wound, Type 304 stainless steel gaskets are recommended for extremes in joint relaxation, temperature or pressure cycling, shock or vibration. Spiral-wound gaskets are required when the outlet temperature exceeds 650° F for gases or 750° F for liquids. They are also recommended for fluids with low surface tension.
Special Mounting Brackets and Jacket Support
This option is required when the outlet temperature exceeds 400° F for gases or 450° F for liquids. One of the angle iron mounting brackets will have slotted holes and the vessel jacket will be supported in one location on a band. This allows for vessel expansion and contraction without heater damage.
Special Inlet/Outlet Locations
The following configurations are available:
- Inlet/Outlet positioned 180° apart.
- Inlet/Outlet both rotated 180° from standard position.
- Inlet/Outlet located on heater bottom.
Three types of special ratings are available:
Custom designed heaters with non-standard kilowatt (KW) ratings and watt densities are available to meet your specific heating requirements. Special watt densities are often required for certain fluids and gases.
Any voltage is available up to 600 volts including 120, 208, 277, 380, 400, 415, 440, 480 and 600 volt ratings for custom designed heaters.
Custom designs are available for pressures above the standard 160 psi rating at 250° F.
Vessel and Flanges
Special vessel and flange materials, including stainless steel, Incoloy and copper-nickel alloys can be specified for custom designs.
Copper, Incoloy, Inconel, Monel, steel, 304 and 316 stainless steel sheath materials are readily available for both catalog and custom designs. Consult factory for availability of other special sheath materials.
Hermetic Terminal End Seals
For applications where an absolute moisture seal is required. Each element is fitted with ceramic-to-metal hermetic seals which are air-tight.
Custom vessel designs are available from 1" to over 24" to accommodate larger KW requirements.
Accessories – Specify Built-In or Loose for Field Installation
A gate valve is installed in the tank bottom. A drain plug is furnished as standard when a valve is not specified.
Pressure Relief Nozzle
A threaded nozzle can be built into the heater vessel for a customer-supplied, field-installed pressure relief valve.
Pressure Relief Valve
Sized for thermal relief, this valve is used to relieve excess pressure should unsafe conditions develop.
Low Liquid Cutoff
A safety device used to disconnect the heater if the liquid drops below a safe level. The cutoff consists of two components: A 316 stainless steel probe to sense liquid level and a pilot relay which de-energizes contactor holding coils. The heater automatically comes back on when the liquid level rises.
Low liquid cutoffs are available for:
- Water and other conducting liquids
- Oil and other non-conducting liquids
This safety device prevents the heater from coming on unless the fluid is flowing. It requires field wiring to the control circuit.
The standard range is 0-200 psi. Other pressure ranges are available.
This glass tube, liquid-filled thermometer is used to sense process outlet temperature.
Pump Interlock Relay
A safety device which prevents the heater from coming on unless the pump starter is closed. This double-pole, single-throw, normally open relay is field wired in parallel with the pump starter.