Modeling the Kinetic and Thermal Interaction of UWS Droplets Impinging on a Flat Plate at Different Exhaust Gas Conditions

Nappi, Antonello; Montenegro, Gianluca; Onorati, Angelo; Torre, Augusto Della; Eggenschwiler, Panayotis Dimopoulos

doi:10.4271/2021-24-0079

Cited by 2 publications

(2 citation statements)

References 29 publications

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“…Although most of the spray and wallfilm submodels used in this work are based on the state of the art, the wallfilm boiling model is based on the Nukiyama curve for water. A recent study by Nappi et al 40 shows that although the shape of the Nukiyama curve is the same for water and UWS, there is a significant difference in the Nukiyama and critical heat flux (CHF) temperatures. Utilizing the Nukiyama curve of UWS in the wallfilm boiling model should improve the prediction accuracy of wall temperature and wallfilm formation.…”

Section: Resultsmentioning

confidence: 99%

Numerical and Experimental Investigation of Ammonia Uniformity in a Compact Selective Catalytic Reduction System

Kalyankar

Backhaus

Munnannur

et al. 2022

Ind. Eng. Chem. Res.

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Spray simulations based on a Eulerian−Lagrangian framework were conducted to predict ammonia uniformity in a urea-based compact selective catalytic reduction (SCR) system and validated against laser absorption tomography measurements at various operating points. Since ammonia distribution profile at the SCR inlet can change over time due to the transient nature of spray-induced wall cooling, changes in spray-wall interaction regime and wallfilm transport, simulations were conducted for a sufficiently long time to achieve quasi-steady temperature and wallfilm distribution profiles on the mixer walls. Simulation runtime was reduced using a database approach and frozen field approximation. Subsequently, one final spray injection cycle was simulated to obtain quasi-steady ammonia distribution at the SCR inlet. Prediction of ammonia rich and lean zones and uniformity index using this approach showed excellent correlation against measured data at various operating points and mixer designs.

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Section: Resultsmentioning

confidence: 99%

Numerical and Experimental Investigation of Ammonia Uniformity in a Compact Selective Catalytic Reduction System

Kalyankar

Backhaus

Munnannur

et al. 2022

Ind. Eng. Chem. Res.

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“…As the atomization of the lowpressure injectors used to provide UWS is low, the interaction between the spray and the walls of the SCR system is inevitable. This interaction can lead to localized cooling [3] and the formation of a permanent film, which is the main source of solid deposits. The formation of these deposits is not only detrimental to the operation of the SCR system (as they can lead to clogging) but also alters the dosing strategy of ammonia, causing a reduction of the conversion efficiency.…”

Section: Introductionmentioning

confidence: 99%

A preliminary computational analysis towards the use of Electrically Heated Mixing Catalyst for innovative SCR after-treatment systems

Nappi

Vespertini

Torre

et al. 2022

J. Phys.: Conf. Ser.

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This work aims at investigating the possible advantages of substituting the mixer in traditional SCR systems with an Electrically Heated Catalytic structure (EHC). First of all, EHC technology is being widely investigated in literature because it offers a concrete solution for catalyst thermal activation and film formation reduction in engine cold start conditions; however, its adoption as a mixer can also guarantee other important improvements in reducing pollutant emissions. In this work, a low-pressure injection of Ad-Blue impacts an electrically heated structure and a complete analysis of liquid droplets and film evaporation is carried out. A hybrid Eulerian-Lagrangian model has been adopted on a multi-region configuration, accounting for fluid-solid conjugate heat transfer (CHT), which plays a key role in the conversion strategy: it has been demonstrated that the heated structure can be exploited to significantly increase the exhaust gas enthalpy in the cold start, which represents an important improvement for pollutant conversion. Different heating strategies are analysed, with the objective of maximising the spray evaporation and the uniformity of the ammonia distribution downstream of the mixer. The objectives of this work are emphasizing the improvements that an electrically heated mixing catalyst can bring to the traditional SCR configuration, laying the foundation for other following studies.

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Modeling the Kinetic and Thermal Interaction of UWS Droplets Impinging on a Flat Plate at Different Exhaust Gas Conditions

Cited by 2 publications

References 29 publications

Numerical and Experimental Investigation of Ammonia Uniformity in a Compact Selective Catalytic Reduction System

Numerical and Experimental Investigation of Ammonia Uniformity in a Compact Selective Catalytic Reduction System

A preliminary computational analysis towards the use of Electrically Heated Mixing Catalyst for innovative SCR after-treatment systems

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