Regenerative Thermal Oxidizer Design

Regenerative thermal oxidizer rto regenerative thermal oxidizers from the cmm group are designed to destroy air pollutants emitted from process exhaust streams at temperatures ranging from 815 c 1 500 f to 980 c 1 800 f.

Regenerative thermal oxidizer design. The basic rto design concept. This reaction destroys voc emissions in the air stream by converting them to gas water and heat. Heat recovery may either be recuperative or regenerative. It then uses this captured heat to preheat the incoming process gas stream and destroy air pollutants emitted from process exhaust streams at temperatures ranging from 815 c 1 500 f to 980 c 1 800 f.

A regenerative thermal oxidizer also known as an rto is a type of air pollution control equipment designed to decompose volatile organic compounds vocs hazardous air pollutants haps and other airborne solvents into innocuous co 2 and water vapor by heating the exhaust air to a very high temperature over 1400 f. A regenerative thermal oxidizer utilizes a unique regenerative style heat exchanger. The ship shore regenerative thermal oxidizer rto converts volatile organic compounds vocs into carbon dioxide and water. A regenerative thermal oxidizer rto is a piece of industrial equipment used for the treatment of exhaust air.

The design also makes the cleanswitch regenerative thermal oxidizer rto the best solution for pressure sensitive processes. Designed to reduce complexity the cleanswitch regenerative thermal oxidizer rto provides cost effective benefits with its flexible modular design. These regenerative heat exchangers can achieve considerably higher thermal efficiencies than a shell and tube or plate style. This voc abatement technology utilizes ceramic media packed into vertical canisters as a high efficiency heat exchanger.

The percentage of heat recovery in the design of thermal oxidizers generally increases with decreasing inlet voc hap concentration. The system is a type of thermal oxidizer that uses a bed of ceramic material to absorb heat from the exhaust gas. Three critical interdependent factors control the rate of reaction. Units up to 65 000 scfm are supplied.

They achieve emission destruction through high temperature thermal oxidation a process that employs a combination of temperature residence time turbulence and oxygen to convert pollutants into carbon dioxide and water vapor. Regenerative thermal oxidizers destroy voc emissions by creating a chemical reaction within the air pollutant and oxygen at elevated temperatures. Voc s commonly emitted by manufacturing operations are typically known as hydrocarbons solvent fumes halogenated hydrocarbons hazardous air pollutants hap s and odorous emissions. Regenerative thermal oxidizers are designed to destroy haps vocs and odorous emissions discharged during industrial and manufacturing operations.