Walter Schmitz scite author profile

Walter Schmitz

5Publications

28Citation Statements Received

33Citation Statements Given

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Affiliations

University of the Witwatersrand, Industrieanlagen Betriebsgesellschaft (Germany), Education Labour Relations Council

Publications

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Computer-Aided Design and Fabrication of a Dry Wind-Sifter Separator

2021

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In this study, the simulation of a newly designed wind-sifter separator for dry beneficiation was deployed to upgrade −6.7 + 3.36, −3.36 + 1, and −1 mm coal. The wind-sifter principle is very effective for particle separation as it is based on the separation of lighter particles from heavier ones. First, the study entails computer simulations by utilizing the Lagrangian particle tracking method to observe the effectiveness of the wind sifting principle in separating particles based on their density in an air stream. From the three particle size fractions used, the simulation test results show that at a cut-point of 1.5 RD, yields of 29.1, 54.3, and 99.4% were attained at different optimum velocities for −6.7 + 3.36, −3.36 + 1, and −1 mm, respectively. The effect of operating parameters such as the mass flowrate and air velocity on yield, ash content, and calorific value were determined using the fabricated separator. A preliminary experimental study showed that the separator was effective in upgrading the feed coal with 30.28% ash content and 21 MJ/kg calorific value to clean coal with 18.94% ash content and 26.8 MJ/kg calorific value. A laboratory-scale wind-sifter separator was fabricated based on the results from the simulation test, which served as the first applied prototype in the field of dry coal beneficiation.

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A numerical study of air preheater leakage

Maharaj

Schmitz

Naidoo

et al. 2015

Energy

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Simulation and test: Instruments for Critical Infrastructure Protection (CIP)

Schmitz

2007

Information Security Technical Report

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Simulation experiments: the emerging instruments for CIP

Schmitz

2009

IJCIS

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Investigations of operation problems at a 200 MWe PF boiler

Peta¹,

Toit²,

Naidoo³

et al. 2015

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To minimize oxides of nitrogen (NOx) emission, maximize boiler combustion efficiency, achieve safe and reliable burner combustion, it is crucial to master global boiler and at-the-burner control of fuel and air flows. Non-uniform pulverized fuel (PF) and air flows to burners reduce flame stability and pose risk to boiler safety by risk of reverse flue gas and fuel flow into burners. This paper presents integrated techniques implemented at pilot ESKOM power plants for the determination of global boiler air/flue gas distribution, wind-box air distribution and measures for making uniform the flow being delivered to burners within a wind-box system. This is achieved by Process Flow Modelling, at-the-burner static pressure measurements and CFD characterization. Global boiler mass and energy balances combined with validated site measurements are used in an integrated approach to calculate the total (stoichiometric + excess) air mass flow rate required to burn the coal quality being fired, determine the actual quantity of air that flows through the burners and the furnace ingress air. CFD analysis and use of at-the-burner static, total pressure and temperature measurements are utilized in a 2-pronged approach to determine root-causes for burner fires and to evaluate secondary air distribution between burners.

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Walter Schmitz

Computer-Aided Design and Fabrication of a Dry Wind-Sifter Separator

A numerical study of air preheater leakage

Simulation and test: Instruments for Critical Infrastructure Protection (CIP)

Simulation experiments: the emerging instruments for CIP

Investigations of operation problems at a 200 MWe PF boiler

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