P3484A1 Markel Electric Ceiling Heater

SKU:

MARKEL318501

Manufacturer: 

TPI (Markel/Raywall/Fostoria)

More Information
Manufacturer TPI (Markel/Raywall/Fostoria)
Manufacturer Part Number P3484A1
UPC/GTIN Code 686334318501
Air Flow 600 CFM
Listing Agency ETL
Voltage 480 Volt
Phase 1 Phase
Wattage 4000 Watt
Finish Powder Coat
Back Box Height 23.06 Inch
Back Box Width 23.06 Inch
Back Box Depth 9.13 Inch
Amperage 8.3 Amp
BtuH Output 13649 BtuH
Mount Type Recess
Type of Product Ceiling Heaters
Length of Product 23.8125 Inch
Width of Product 23.8125 Inch
Height of Product 9.125 Inch
Color White
Product Condition New
Heater Type Ceiling Heaters

Features of Markel P3484A1 Commercial Fan Forced Recessed Mounted Electric Ceiling Heater


The Markel 3480 Series Commercial Fan Forced Recessed Mounted Electric Ceiling Heaters are designed to be used in commercial and institutional facilities in areas such as vestibules, entryways, rest rooms, and offices.

  • Return grille assembly is constructed from a one piece heavy gauge steel with 1/4 Inch slots for return air and concentric rings for uniform air discharge.
  • All parts of enclosure are heavy Gauge steel, zinc coated both sides and finished in neutral off white powder coat paint.
  • Motor is permanently lubricated, unit bearing, totally enclosed, impedance protection. Motors operate at no more than 1300 RPM.
  • Performance: 425 CFM at 710 F.P.M. with a maximum temperature rise of 44F.
  • Element: Corrosion resistant steel sheathed type elements mechanically bonded to common corrosion resistant steel fins.
  • Thermal Overload: Manual Reset thermal overload which disconnects elements and motor in the event normal operating temperatures are exceeded. For safety, if opened due to abnormal temperature, thermal overload shall remain open until manually reset.

Additional Information


When determining the mounting location of the heater, it is important to keep the intake and exhaust free from any obstructions such as curtains, or doors. Proper operation of the heater requires a free flow intake and exhaust of air.