Christian Deuerling scite author profile

Christian Deuerling

2Publications

17Citation Statements Received

21Citation Statements Given

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Affiliations

Helmholtz Zentrum München

Publications

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Measurement System for Characterization of Gas and Particle Phase of High Temperature Combustion Aerosols

Deuerling

Maguhn

Nordsieck

et al. 2010

Aerosol Science and Technology

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A measurement system was developed to sample and analyze the particle and gas phase of high temperature combustion aerosols up to a particle aerodynamic diameter of approximately 3 mm. The rapid changes of aerosol composition and concentration caused by the inhomogeneous fuel and changing burning conditions were accommodated by a combined measurement of both gas and particle phase and a synchronous measurement of two identical systems at two different positions at the boiler. Based on works reported earlier, an air-cooled dilution probe was designed and adapted to the corrosive composition of the combustion aerosol by use of a silica glass inlet and a ceramic porous tube diluter (PTD). Directly behind the probe, the raw gas is passing a cyclone which precipitates the coarse particles >25 µm, and is then split into a gas analysis and a particle analysis branch. The particle branch, after further dilution and cooling to ambient temperature, is split for a simultaneous analysis by an APS and a low pressure impactor (ELPI or BLPI). The whole sampling line is conditioned to 300• C until final dilution and cooling to ambient temperature.The measurement system was employed at different incineration plants between 220• C and 950• C for various experiments, e.g., time resolved concentration analysis during soot blowing cleaning routine. The mass concentration balance, including the content of the inlet, achieved a 92% match of the total slag mass balance of the investigated plant.

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Investigation of the Mechanisms of Heat Exchanger Corrosion in a Municipal Waste Incineration Plant by Analysis of the Raw Gas and Variation of Operating Parameters

Deuerling

Maguhn

Nordsieck

et al. 2009

Heat Transfer Engineering

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