Efficient Circulation Heaters for Optimal Heat Transfer | Hasteco

1. CIRCULATION HEATER www.hasteco.com

2. ABOUT US Circulation heater are efficient electric heating systems that require minimal time and labor to install. They combine heating elements, vessel, insulation, terminal enclosure, mounting brackets, and inlet/outlet connections into a complete assembly. These heaters are designed to heat forced-circulation air, gases, or liquids, making them suitable for in-line or side-arm operations.

3. PRODUCT FEATURES • Flange-form heating core with advanced and safe structur • Easy installation and disassembly. • Guaranteed performance and safety. • Energy-efficient with low running costs. • Uniform heating with up to 95% thermal efficiency. • Customizable multi-point temperature control. • Controllable outlet temperature. • High mechanical strength.

4. CONSTRUCTION DETAILS: Terminal Enclosures: E1 General Purpose: Sheet metal, painted with red enamel； E2 Moisture Resistant/Explosion Proof； E4 Moisture Resistant. Controls: Some units come with a thermostat mounted on the heater. Mounting: Small units supported by inlet and outlet piping； Larger units equipped with mounting lugs for support. Outer Jacket: Heavy gauge painted steel sleeving. Contains high-temperature thermal insulation to reduce heat loss. Heating Chamber:Pipe chambers (150 Lbwelded construction, standard) have a flanged or threaded end to receive heater assembly and are closed at the opposite end. Larger units have drain connections to allow sludge removal. Inlet and outlet nozzles are provided for the circulation of fluid or gas through the heater chamber. Chamber material is available in Steel. Galvanized Steel or Stainless Steel depending on the application. Heating Elements:Flange or screw plug mounted tubular type heating elements. Available in Stainless Steel, Copper, Steel, or INCOLOY sheath options for corrosive resistance. Wiring Connections:Internal wiring and power connections are sized according to wiring tables in the National Electrical Code and International Electric Code.

5. Circulation Heater Typical Application • Inline Heating: • Side Arm: • Closed-Loop Fuel Oil Heating: Circulation heaters installed directly in the fluid line eliminate the need for storage tanks, reducing heat losses and meeting constant demands for heated water or oil. Several individually adjustable circulation units meet temperature and fluid flow requirements, effectively reducing electrical demand on utility bi Multiple circulation heaters can fulfill the requirements of large storage tanks, offering temperature control flexibility and reducing power demand.

6. How To Select A Circulation Heater 1. Selecting the right components for a circulation heater is crucial and requires careful engineering judgment and evaluation of the application. After determining the heat requirement, it is essential to select the appropriate flange and vessel material, heating element sheath material, and watt density to ensure the longevity of the heater. The final equipment selection relies on the process knowledge and engineering expertise of the designer or plant engineer. 2. You need to consider the following factors when the application a) The properties of the heated medium, include viscosity, specific heat, density, and corrosiveness. b) The presence of contaminants in the medium. c) The corrosion resistance of the heater sheath material. d) The watt density of the heating elements is determined by the watts per square inch and the flow rate of the heated medium. e) The vessel design and material, considering the pressure and temperature of the fluid being heated. 3. Right to Understand. The selection of the sheath material is determined by the buyer’s understanding of the corrosive solution’s chemical composition, the characteristics of materials introduced into the solution, and the implemented controls to maintain the process. This knowledge guides the ultimate choice of sheath material to mitigate corrosion.

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