Rene Prieler | Researchain

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Publication

Featured researches published by Rene Prieler.

Fuel | 2015

Numerical investigation of the steady flamelet approach under different combustion environments

Rene Prieler; Martin Demuth; Davor Spoljaric; Christoph Hochenauer

International Journal of Heat and Mass Transfer | 2016

Prediction of the heating characteristic of billets in a walking hearth type reheating furnace using CFD

Rene Prieler; Bernhard Mayr; Martin Demuth; Burkhardt Holleis; Christoph Hochenauer

Fuel | 2014

Evaluation of a steady flamelet approach for use in oxy-fuel combustion

Rene Prieler; Martin Demuth; Davor Spoljaric; Christoph Hochenauer

Applied Thermal Engineering | 2016

Numerical analysis of the transient heating of steel billets and the combustion process under air-fired and oxygen enriched conditions

Rene Prieler; Bernhard Mayr; Martin Demuth; Burkhardt Holleis; Christoph Hochenauer

Fuel | 2015

CFD and experimental analysis of a 115 kW natural gas fired lab-scale furnace under oxy-fuel and air–fuel conditions

Bernhard Mayr; Rene Prieler; Martin Demuth; Michael Potesser; Christoph Hochenauer

Applied Thermal Engineering | 2017

CFD analysis of a pusher type reheating furnace and the billet heating characteristic

Bernhard Mayr; Rene Prieler; Martin Demuth; L. Moderer; Christoph Hochenauer

Energy | 2015

The usability and limits of the steady flamelet approach in oxy-fuel combustions

Bernhard Mayr; Rene Prieler; Martin Demuth; Christoph Hochenauer

Journal of The Energy Institute | 2017

Computational analysis of a semi-industrial furnace fired by a flat flame burner under different O2/N2 ratios using the steady laminar flamelet approach

Bernhard Mayr; Rene Prieler; Martin Demuth; M. Potesser; Christoph Hochenauer

Energy | 2015

Application of the steady flamelet model on a lab-scale and an industrial furnace for different oxygen concentrations

Rene Prieler; Bernhard Mayr; Martin Demuth; Davor Spoljaric; Christoph Hochenauer

Applied Thermal Engineering | 2017

Development of a numerically efficient CFD model to predict transient temperature distribution of mother tubes moving translative and rotative through a gas fired furnace

Martin Landfahrer; Rene Prieler; Bernhard Mayr; Hannes Gerhardter; Ronald Schöngrundner; Jürgen Klarner; Christoph Hochenauer

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Collaboration

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Christoph Hochenauer

Graz University of Technology

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Bernhard Mayr

Graz University of Technology

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Hannes Gerhardter

Graz University of Technology

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Martin Landfahrer

Graz University of Technology

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Christian Gaber

Graz University of Technology

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Christoph Schluckner

Graz University of Technology

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Markus Mayrhofer

Graz University of Technology

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Andreas Rinner

Graz University of Technology

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Johannes Wurm

Graz University of Technology

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M. Knoll

Graz University of Technology

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