Steffen Weise scite author profile

Steffen Weise

5Publications

49Citation Statements Received

23Citation Statements Given

How they've been cited

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139

Affiliations

TU Bergakademie Freiberg

Publications

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Flamelet-Based Time-Scale Analysis of a High-Pressure Gasifier

et al. 2011

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A computational fluid dynamics (CFD) multi-feed stream flamelet model is developed and coupled to a CFD solver to simulate single-phase gas turbulent reactive flow in a gasifier. The flow equations are solved using OpenFOAM, whereas the species mass fractions and the temperatures are taken from tabulated flamelet solutions. The look-up tables were generated for the three-feed stream system of fuel, oxidizer, and steam. The validity of the flamelet model for gasification conditions is investigated in detail using an analysis of the flow and the flamelet time scales. The flamelet time scale includes both mixing and chemical reactions. On the basis of the time scales, three zones can be identified in the gasifier, namely, the (i) flame zone, (ii) recirculation zone, and (iii) post-flame or reforming zone. Good agreement is found when comparing the CFD-flamelet simulation results to the experimental values at the outlet. The effects of different scalar dissipation rates on the species mass fractions and the outlet temperature are studied, which is shown to have a significant influence on the final results.

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Development of an inverse diffusion partial oxidation flame and model burner contributing to the development of 3rd generation coal gasifiers

Stelzner

Hunger

Laugwitz

et al. 2013

Fuel Processing Technology

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Reducing the memory footprint in Large Eddy Simulations of reactive flows

Weise

Hasse

2015

Parallel Computing

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An abstraction layer for efficient memory management of tabulated chemistry and flamelet solutions

Weise

Messig

Meyer

et al. 2013

Combustion Theory and Modelling

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A Computationally Efficient Implementation of Tabulated Combustion Chemistry based on Polynomials and Automatic Source Code Generation

Weise

Popp

Messig

et al. 2017

Flow Turbulence Combust

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Steffen Weise

Flamelet-Based Time-Scale Analysis of a High-Pressure Gasifier

Development of an inverse diffusion partial oxidation flame and model burner contributing to the development of 3rd generation coal gasifiers

Reducing the memory footprint in Large Eddy Simulations of reactive flows

An abstraction layer for efficient memory management of tabulated chemistry and flamelet solutions

A Computationally Efficient Implementation of Tabulated Combustion Chemistry based on Polynomials and Automatic Source Code Generation

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