Everything About Regenerative Thermal Oxidizer

An RTO includes two or three towers which contain specific thermal ceramic stuff, attached at the top by a hightemperature combustion room and direct-fired burner.

RTO Operation

The Simple operation of a Regenerative Thermal Oxidizer Is Composed of four Essential measures:

Heating: Industrial method exhausts transporting VOCs & HAPs are handed through a warmed porcelain material in 1 tower, heating system the gas up to ~1300°F.

Combustion: A natural gas-fired burner heats the contaminated air stream from 1300°F to ~1450°F, hence oxidizing all complicated carbon solvents into CO2 and water vapor.

Retrieval: The post-combustion very hot gas is passed through the next tower, and which includes exactly the very same heating spout ceramic material, also recovers 95 percent of the heat out of the burner.

Show new list: Just from the 3-tower structure, the next floor purges a tiny amount of oxygen in to the combustion chamber to protect against almost any exhausts from penetrating.

Because the first tower cools and the 2nd tower heats up, the direction of the atmosphere throughout the towers dissipates periodically to recover the heat out of the RTO burner.

Applications & Sectors

Regenerative Thermal Oxidizer (RTO) systems will oxidize:

- Volatile Organic Compounds (VOCs)

- Harmful Air Pollutants (HAPs)

- Industrial Odors

- And even additional organic compounds, emissions, GHGs, and pollutants.

Industries Served

RTOs Are installed to be used from the next industries:

- Paint & Coatings Generation

- Paint Booth exhaust

- Industrial Oven exhaust

- Petroleum

- Oil & gas

- Meals

- Printing

- Compounds

- Pharmaceutical

- Ethanol

- Semi Conductor

- Automotive

Regenerative Thermal Oxidizer Airflow

Industrial method exhaust fuel passes the regenerative thermal oxidizer and - can be pushed via an in-line fan into the first room. The valve will be still open to accept incoming gas for therapy. The procedure petrol proceed through the porcelain media from room inch, consuming waste heat stored from the ceramic media, and also the incoming air is heated into about 1300°F. The air then travels into the combustion chamber, round the very top of their RTO tower, and reaches temperatures of 1500°F.

In the exact middle of the combustion chamber has been just a burner which is furnished with clean air (oxygen source) by means of combustion mill and all-natural gas to enhance the combustion a reaction to keep up the temperature set point. Process atmosphere that reaches Chamber 3 is entirely combusted, clean air. It melts chamber 3, releasing its warmth into the ceramic press cubes. The pure, clean air exits the open valve and journeys into the exhaust stack at which it is introduced into the air.