Influence of Burner Nozzle Parameters Analysis on the Aluminium Melting Process

Dzurňák, Róbert; Varga, Augustín; Kizek, Ján; Jablonský, Gustáv; Lukáč, Ladislav

doi:10.3390/app9081614

Cited by 14 publications

(11 citation statements)

References 9 publications

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“…Analogous measures can be applied to combined heat and power plants [11][12][13], which often serve as steam suppliers for industrial facilities. The resulting benefits can be further enhanced if oxy-combustion is applied [14][15][16]. The reduction of fire and explosion risk should also be taken into account as an additional reason for such an investment.…”

Section: Introductionmentioning

confidence: 99%

An Investigation of the Techno-Economic and Environmental Aspects of Process Heat Source Change in a Refinery

et al. 2019

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This study of process heat source change in industrial conditions has been developed to aid engineers and energy managers with working towards sustainable production. It allows for an objective assessment from energetic, environmental, and economic points of view, thereby filling the gap in the systematic approach to this problem. This novel site-wide approach substantially broadens the traditional approach, which is based mostly on “cheaper” and “cleaner” process heat sources’ application and only takes into account local changes, while neglecting the synergic effect on the whole facility’s operations. The mathematical model employed assesses the performance change of all the affected refinery parts. The four proposed aromatic splitting process layouts, serving as a case study, indicate feasible heat and condensate conservation possibilities. Although the estimated investment needed for the most viable layout is over €4.5 million, its implementation could generate benefits of €0.5–1.5 million/year, depending on the fuel and energy prices as well as on the carbon dioxide emissions cost. Its economics is most sensitive to the steam to refinery fuel gas cost ratio, as a 10% change alters the resulting benefit by more than €0.5 million. The pollutant emissions generated in the external power production process contribute significantly to the total emissions balance.

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Section: Introductionmentioning

confidence: 99%

An Investigation of the Techno-Economic and Environmental Aspects of Process Heat Source Change in a Refinery

et al. 2019

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“…Figure 8 shows computational results of how the oxygen concentration in the oxidizing agent changes as air infiltrates into the combustion chamber. The optimum oxygen concentration in the oxidizing agent for melting aluminum in a rotary tilting furnace was found to be 35% based on experimental studies [19,24]. However, in the case of the estimated calculated air infiltration of up to 4.5 m 3 •h -1 (see Figure 7), this concentration value can be reduced by up to 14%.…”

Section: Resultsmentioning

confidence: 99%

“…It also represents an interesting route for decarbonization via carbon capture and storage [16,17]. OEC technology is most often applied in rotary tilting furnaces used in the processing of nonmetallic materials [18,19]. However, examples of how the iron and steelmaking industry can benefit from this technology as well have been recently summed up in [17].…”

Section: Introductionmentioning

confidence: 99%

Influence of Air Infiltration on Combustion Process Changes in a Rotary Tilting Furnace

et al. 2020

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Air infiltration into the combustion chambers of industrial furnaces is an unwanted phenomenon causing loss of thermal efficiency, fuel consumption increase, and the subsequent increase in operating costs. In this study, a novel design for a rotary tilting furnace door with improved construction features is proposed and tested experimentally in a laboratory-scale furnace, aimed at air infiltration rate reduction by decreasing the gap width between the static furnace door and the rotating body. Temperatures in the combustion chamber and oxygen content in the dry flue gas were measured to document changes in the combustion process with the varying gap width. Volumetric flow values of infiltrating air calculated based on measured data agree well with results of numerical simulations performed in ANSYS and with the reference calculation procedure used in relevant literature. An achievable air infiltration reduction of up to 50% translates into fuel savings of around 1.79 to 12% of total natural gas consumption of the laboratory-scale furnace. The average natural gas consumption increase of around 1.6% due to air infiltration into industrial-scale furnaces can thus likewise be halved, representing fuel savings of almost 0.3 m3 per ton of charge.

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“…where the flame residence time in the furnace is calculated from the geometric volume of the combustion chamber and the furnace gas consumption per second , given by the equation = (9) and the heat transfer rate along the flame length m depends on the initial gas velocity The heat balance of the heating furnace with a U-loop gas path in the furnace chamber is represented as…”

Section: Heat Gainsmentioning

confidence: 99%

Mathematical Model of a Heating Furnace Implemented with Volumetric Fuel Combustion

et al. 2020

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Heating flame furnaces are the main type of furnaces used for heating and heat treatment of metal products in metallurgy and mechanical engineering. In the working chamber of a modern heating furnace, there should be neither high-temperature nor stagnation zones. One of the methods used to provide such combustion conditions is the application of distributed (volumetric) combustion. Owing to this method, heating quality is ensured by creating a uniform temperature field and equivalent heat exchange conditions, regardless of the placement of the charge in the working chamber of the furnace. In this work, we numerically study the volumetric combustion and influences of small- and large-scale recirculation ratios of furnace gases, the influence of temperature fluctuation on the regenerator nozzle, and the working parameters at the starting phase and reverse.

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Influence of Burner Nozzle Parameters Analysis on the Aluminium Melting Process

Cited by 14 publications

References 9 publications

An Investigation of the Techno-Economic and Environmental Aspects of Process Heat Source Change in a Refinery

An Investigation of the Techno-Economic and Environmental Aspects of Process Heat Source Change in a Refinery

Influence of Air Infiltration on Combustion Process Changes in a Rotary Tilting Furnace

Mathematical Model of a Heating Furnace Implemented with Volumetric Fuel Combustion

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