Environmental Integrated Solutions (EIS)

- Regenerative Thermal Oxidisers System



Regenerative Thermal Oxidisers are the show piece of any thermal oxidiser portfolio and they can be used in very many applications. Their integral dynamic heat exchange system can be used to produce thermal efficiencies of up to 98%. This high level of thermal efficiency minimises the requirement for additional support fuel and in many applications allows the RTO to operate autothermally, without the addition of any fuel, in a flameless mode.

The principle of the RTO is simple. The contaminated stream is introduced into the oxidiser via a hot ceramic bed where it picks up heat prior to combustion. The hot volatile gases then enter the combustion chamber where they are oxidised (typically at 8000C) in an exothermic reaction which releases additional energy into the system. If there is sufficient heat generated from the internal heat recovery and from the exothermic reaction, then the burner will switch off.   In this autothermal, flameless condition, the combustion chamber temperature will be maintained without support fuel.

The gas is held at the designed temperature in the combustion chamber for the required residence time. The cleaned gas then exits through a second bed of ceramic media where it gives up its heat, leaving the oxidiser only slightly hotter than it entered. At the end of this cycle the oxidiser outlet bed is hot and the inlet bed is now cooler. The cycle is therefore reversed periodically, in order to maintain equilibrium and to keep the regained heat within the oxidiser system.

In two canister RTOs this switching of direction gives a very brief emission of partially treated air to atmosphere, but this is not problematical in many applications because emission limits are calculated on a thirty minute average figure.

With high solvent levels and in particular, on odour control applications, this occasional output may not be acceptable and the exhaust pulsing. Here we utilise a purge system and an additional canister, making the canisters 'odd' in number. The “odd” canister is purged prior to change from inlet to outlet mode. The purge system effectively sweeps out any untreated air and puts it back into the system to prevent it from being released to atmosphere. This allows us to achieve an elevated destruction efficiency.

EIS has specialist knowledge in the design of RTOs for difficult applications including RTOs to treat gases that are:

  • Corrosive
  • Oxygen deficient
  • Containing vapour phase silicon
  • Wet
  • Containing particulate

The capital cost of a two canister RTO is obviously lower than that of a three canister RTO and it can meet the destruction efficiency required by many industrial processes. For higher destruction efficiencies, however, in the order of 99% removal or greater, three or 'odd' canister units are normally selected.

The RTO performance can be further enhanced by careful design and the use of alternative features such as twin seal dampers to minimise cross-canister contamination. Both thermal and destruction efficiencies can also be maintained over the full range of oxidiser operating volumes, no matter how great the turndown.

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