The Effect of Fuel Mass Fraction on the Combustion and Fluid Flow in a Sulfur Recovery Unit Thermal Reactor

Yeh, Chun-Lang

doi:10.3390/app6110331

Cited by 10 publications

(2 citation statements)

References 12 publications

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“…The governing equations include the continuity equation, momentum equation, turbulence model equation (k-ε model), energy equation, radiation model equation (DO radiation model), and chemical reaction model equation (FRED model). Among these models, only the FRED chemical reaction model is described below while the others and the convergence criterion have been stated in detail in one of the author's previous studies [29].…”

Section: Numerical Methods and Physical Modelsmentioning

confidence: 99%

Effect of Burner Operation on the Catalyst Tube Lifetime of a Steam Methane Reformer: A Numerical Study

Yeh

2020

Applied Sciences

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In this paper, the catalyst tube lifetime of a practical steam methane reformer is analyzed numerically. The effect of burner operating mode on the flow development, hydrogen yield, and catalyst tube lifetime is discussed, with the aim of improving the reformer performance. The results of this study reveal that using the periodic boundary conditions, the temperatures and hydrogen yields obtained are much lower than the experimental values and the pressures are much lower than those using the real model. This results in overestimating the catalyst tube lifetime and underestimating the reformer operation risk. The catalyst tubes in the downstream area have longer lifetimes, while those in the upstream area have shorter lifetimes. Turning the upstream burners off is more efficient to the catalyst tube lifetime, while turning off the central groups of burners is less efficient. The main drawback of turning off burners is the decrease of hydrogen yield.

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Section: Numerical Methods and Physical Modelsmentioning

confidence: 99%

Effect of Burner Operation on the Catalyst Tube Lifetime of a Steam Methane Reformer: A Numerical Study

Yeh

2020

Applied Sciences

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“…However, these methods are either expensive or require an overhaul of the SRU thermal reactor. In the author's previous studies, two easier and more economical methods, including (1) changing the zone 1 fuel mass fraction [12] and (2) changing the inlet air quantity or the inlet O 2 mole fraction [13], were investigated numerically.…”

Section: Matec Web Of Conferencesmentioning

confidence: 99%

Numerical study of the burner parameters on the thermal field in a sulfur recovery unit thermal reactor

Yeh

2018

MATEC Web Conf.

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A sulfur recovery unit (SRU) thermal reactor is the most important equipment in a sulfur plant and is negatively affected by high temperature operations. In this paper, the effect of burner parameters, including the clearance of the acid gas tip and the inlet air swirler angle, on the thermal field in a SRU thermal reactor are investigated numerically, with the aim to reduce the high temperature inside the thermal reactor and to ensure an acceptable sulfur recovery. The simulation results show that the burner with a smaller clearance of the acid gas tip produces a lower temperature, a lower exit SO2 mole fraction and higher exit S2 and H2S mole fractions. Among the clearancs of the acid gas tip investigated, the horizontal clearance of 152.4mm and vertical clearance of 240mm yield the lowest temperature, exit SO2 mole fraction and highest exit S2, H2S mole fractions. The burner with a smaller inlet air swirler angle produces a higher temperature, a higher exit SO2 mole fraction and lower exit S2 and H2S mole fractions. Among the swirler angles investigated, 60° yields the lowest temperature, exit SO2 mole fraction and highest exit S2 , H2S mole fractions.

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Influence of O2 enrichment in dry air on combustion temperature, contaminant production and sulfur recovery, in SRU reaction furnace

Abdoli

Hosseini

Mujeebu

2018

Forsch Ingenieurwes

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The Effect of Fuel Mass Fraction on the Combustion and Fluid Flow in a Sulfur Recovery Unit Thermal Reactor

Cited by 10 publications

References 12 publications

Effect of Burner Operation on the Catalyst Tube Lifetime of a Steam Methane Reformer: A Numerical Study

Effect of Burner Operation on the Catalyst Tube Lifetime of a Steam Methane Reformer: A Numerical Study

Numerical study of the burner parameters on the thermal field in a sulfur recovery unit thermal reactor

Influence of O2 enrichment in dry air on combustion temperature, contaminant production and sulfur recovery, in SRU reaction furnace

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