Publish your products
Negative Pressure Infrared Heater - Series TVX

Negative Pressure Infrared Heater - Series TVX

The Series TVX negative pressure multi-burner system was designed to use two or more radiant tube heaters in a variety of applications, these systems offer significant operating benefits that are not easily obtainable with traditional infrared tube heaters.

Flexible layouts (Herringbone, Fork, "T", Flag, etc.) can be adapted to fit a wide range of applications heating and space requirements. Available input rates 60 / 80 / 100 / 125 / 150 / 175 / 205 / 220 MBH all featuring a two-stage configuration.

Features

  •   Input rates 60 to 220 MBH
  •   Lengths –  from 20’ to 60’
  •   Two-stage for comfort control 
  •   100% efficient reflector 
  •   Sealed burner box 
  •   3 try ignition 
  •   Integral safety switch  
  •   Simple controls 
  •   Multi-zone capability
  •   State-of-the-art pump with ECM motor
  •   Up to 525 MBH on single vent penetration
  •   Easy setup and commissioning 
  •   Standard gas flex and shut off valve are used
  •   Installation benefits – fewer vents needed
  •   Optional Equipment:
    • Elbows, Utube, outside air kit
    • Side shields, deco grille, bottom shield
Specification
  • Low Intensity, Two-Stage, Negative pressure Infrared Tube Heating System - Heavy duty industrial/commercial infrared heating system, featuring the best overall radiant performance in the industry. Firing rates as called for in the Contract documents within the range of 60/45 MBH to 220/165 MBH. 100% efficient reflector design with minimum 65% radiant factor as determined by independent lab testing to EN416 Standard. Baffles required as per manufacturer’s instructions. Product shall be Custom-designed, Negative Pressure, Low-Intensity Infrared Heating System: Model TVX as manufactured by Superior Radiant Products. The burner shall operate at a minimum gas inlet pressure of 5.0 inches W.C. (natural gas) or 11.5 inches W.C. (propane) and draw no more than 1 Amp at 120VAC, 60Hz. Burner head shall be chrome-plated steel and burner controls shall be located outside of the air supply stream to allow service and diagnostic control checks to be conducted with the burner operating. Reflector shall be a 10-sided reflector design reflecting virtually 100% of the infrared energy out and away from the emitter tubes. Reflector shall be “Deep Dish design with emitter tubes fully recessed within reflector. Reflectors shall have a minimum of 10 reflective surfaces. Reflectors with fewer surfaces allow energy to bounce back to the main heat exchanger tubing and shall not be allowed. Reflector shall be mill-finished aluminum, ASTM 1100, .024-inch thickness aluminum sheet metal with two reflector support brackets for every 10 feet (3048 mm) reflector section. Reflectors shall always extend below the lowest position of the tubing and include standard end caps. Reflector end caps: Shall be fitted to the end of each reflector run to reduce convective heat loss and shall be standard equipment. Emitter Tube shall be 4-inch (102 mm) diameter, minimum 16-gauge thickness, hot rolled steel, heat-treated type 1 aluminized steel or type 409 stainless steel materials. Heat Uniformity: Burner shall distribute hot gases along the length of the emitter tubes. Combustion Tube shall be 4 inches (102 mm) diameter, 16-gauge, heat-treated type 1 aluminized steel tubing for all firing rates. Hot rolled steel shall not be allowed. The combustion tube shall incorporate a continuously welded, 11-gauge steel, 4 bolt flange to orient the burner to the tube as designed. Couplings shall be 16-gauge aluminized steel, minimum 12 inches in length, and be of heavy-duty design incorporating two 1-inch wide draw bands. Exhaust pump motor shall be totally enclosed requiring no oiling and shall be equipped with overcurrent protection. It shall be one of A. For systems up to 250,000 BTU/Hr - Permanent Split Capacitor (PSC) type, Electrical supply: 120V, 60Hz, 1 PH, 1 A.B. For systems up to 525,000 BTU/Hr - Electrically Commutated Motor (ECM) Electrical supply 120V, 60Hz, 1 PH, 5 A. This product was specified based on best practice design to meet the specific engineering design criteria for this project. No Substitution Permitted. Any submission for substitution must include the following material for consideration or bid will be deemed unqualified and rejected:- Independent lab testing to EN416 standard dated no later than 6 months from date of submission showing minimum 65% radiant factor.- Professional Engineer Stamped Design, calculations, and complete set of stamped drawings with the new system.- Stamped fuel usage data showing a minimum 20% fuel savings over specified Superior Radiant Model - Verification that Manufacturer successfully completed and passed the auditing requirements for ISO 9001 Quality Management System (QMS).

Technical specification
  • Unique ref.tvx
  • Product familyNegative Pressure Systems
  • Product groupSeries TVX
  • TypeObject (single object)
  • Date of publishing2021-02-16
  • Edition number1
Related
  • Material mainSteel
  • Material secondaryAluminium
  • Designed inCanada
  • Manufactured inCanada
Classification
  • BIMobject CategoryHVAC - Heaters
  • IFC classificationSpace Heater
  • UNSPSC nameSpace heaters
  • UNSPSC code40101819
  • Uniclass 2015 CodePr_70_60_36_72
  • Uniclass 2015 DescriptionRadiant tube heaters
  • CSI MasterFormat 2014 Code23 55 23
  • CSI MasterFormat 2014 TitleGas-Fired Radiant Heaters
  • OmniClass Number23-33 15 17 13
  • OmniClass TitleFuel Fired HVAC Radiant Heaters
  • CSI UniFormat II CodeD30
  • CSI UniFormat II TitleHVAC

Region availability

Europe North America Asia
Åland Islands
Anguilla
Armenia
Albania
Antigua and Barbuda
Azerbaijan
Andorra
Aruba
Bangladesh
Austria
Barbados
Bhutan
Belarus
Belize
British Indian Ocean Territory
Belgium
Bermuda
Brunei
Bosnia and Herzegovina
British Virgin Islands
Cambodia
Bulgaria
Canada
China
Croatia
Caribbean Netherlands
Christmas Island
Cyprus
Cayman Islands
Cocos (Keeling) Islands
Czech Republic
Collectivity of Saint Martin
Georgia
Denmark
Costa Rica
Hong Kong
Estonia
Cuba
India
Faroe Islands
Curaçao
Indonesia
Finland
Dominica
Japan
France
Dominican Republic
Kazakhstan
Germany
El Salvador
Kyrgyzstan
Gibraltar
Greenland
Laos
Greece
Grenada
Macau
Guernsey
Guadeloupe
Malaysia
Hungary
Guatemala
Maldives
Iceland
Haiti
Mongolia
Ireland
Honduras
Myanmar (Burma)
Isle of Man
Jamaica
Nepal
Italy
Martinique
North Korea
Jersey
Mexico
Pakistan
Latvia
Montserrat
Philippines
Liechtenstein
Nicaragua
Singapore
Lithuania
Panama
South Korea
Luxembourg
Puerto Rico
Sri Lanka
Malta
Saint Kitts and Nevis
Taiwan
Moldova
Saint Lucia
Tajikistan
Monaco
Saint Pierre and Miquelon
Thailand
Montenegro
Saint Vincent and the Grenadines
Turkmenistan
Netherlands
Saint-Barthélemy
Uzbekistan
North Macedonia
Sint Maarten
Vietnam
Norway
The Bahamas
Poland
Trinidad and Tobago
Portugal
Turks and Caicos Islands
Romania
U.S. Virgin Islands
Russia
United States
San Marino
Serbia
Slovakia
Slovenia
Spain
Svalbard and Jan Mayen
Sweden
Switzerland
Ukraine
United Kingdom
Vatican City