Think about soot particle generation in a new way

Amongst other things, the diesel exhaust affair has focused public attention on the topic of particle filters for combustion engines. The key question involved is: how effective are particle filters for combustion engines and how can their efficacy be measured and checked in the most efficient possible way?

In order to find appropriate answers to this, the following basic standards have to be ensured through targeted use of suitable measuring technology:

  • Generation of nano-sized soot particles
  • Easy adjustability of particle size and concentration
  • Stable, reproducible operation and minimal downtimes

The challenge

Engine development and calibration of engine test beds

In practice, an actual diesel engine is often used as a soot generator. However, the results this generates are expensive, unstable and prone to downtimes.

If the measurement results are generated using the conventional method with a combustion engine, the following may also be the case:

  • Size and concentration of the soot particles only controllable to a limited extent
  • Higher maintenance and repair costs
  • Consumption of fossil fuel
  • Awkward operation
  • Greater fluctuation range of the measurement results

The solution: testo REXS (Reproducible Exhaust Simulator)

testo REXS soot generator
testo REXS soot generator

The testo REXS soot generator avoids all these problems. It is durable, robust and easy to operate with little effort needed. This innovative development from Testo generates soot particles which are very similar to diesel soot in terms of their size and composition. Unlike a combustion engine, the exhaust gas flow generated by testo REXS is constant, stable and reproducible at any time.

The advantages:

  • More cost-efficient way of working with up to 80% reduction in operating costs
  • Efficient measurement through diffusion flame technology
  • Stable exhaust flow which is reproducible at any time
  • Standard particle sizes of 65, 80 and 110 nm; option to generate any desired particle sizes from 30 to 120 nm  
  • Ideal for calibration of engine test beds and for testing of particle filters (DPF, GPF)
  • No fossil fuel consumption

Application example

Testo application example

How can efficiency be significantly increased in engine development and the calibration of engine test beds?

Find out more through the application example.

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