Evaluation of Pressure Based and Density Based Solver to Investigate Supersonic Jet Flow through the Confined Wall

Atharva Shingnapurkar; Avick Sinha; Nitin Gulhane; P.A. Rajiwade

doi:10.1201/9781003725022-24

Evaluation of Pressure Based and Density Based Solver to Investigate Supersonic Jet Flow through the Confined Wall

Atharva Shingnapurkar
, Avick Sinha
, Nitin Gulhane
, P.A. Rajiwade

School of Arch, Tech and Eng

Research output: Chapter in Book/Conference proceeding with ISSN or ISBN › Conference contribution with ISSN or ISBN › peer-review

Abstract

This study is primarily focused on the assessment of a pressure-based and density CFD solver for the numerical analysis of an under-expanded supersonic jet flow inside a canister tube. The simulation results of both types of solvers in terms of the pressure field and shock structure are compared to experimental measurement. A comparison study indicates that the pressure solvers produce the same key findings as the density-based, and are also closely in agreement with the data reported by Batson and Bertin. The pressure solver using coupled pressure-velocity algorithm showed nearly identical values of the pressure peaks and corresponding positions downstream of the tube wall. However, a pressure-based solver is more robust and computationally efficient. Thus, a pressure solver with coupled algorithm can be considered as an alternative for the study of complex supersonic compressible flows while maintaining accuracy.

Original language	English
Title of host publication	Advances in Thermal System, Materials and Design Engineering
Editors	P.A. Rajiwade, N.P. Gulhane
Place of Publication	London
Publisher	Routledge
Chapter	24
Number of pages	5
Edition	1
ISBN (Print)	9781041209607
DOIs	https://doi.org/10.1201/9781003725022-24
Publication status	Published - Feb 2026
Event	Second International Conference on Advances in Thermal Systems, Materials and Design Engeneeing - Veermata Jijabai Technological Institute, Mumbai, India Duration: 27 Dec 2024 → 28 Dec 2024 https://vjti.ac.in/atsmde-2024/

Conference

Conference	Second International Conference on Advances in Thermal Systems, Materials and Design Engeneeing
Abbreviated title	ATSMDE-2024
Country/Territory	India
City	Mumbai
Period	27/12/24 → 28/12/24
Internet address	https://vjti.ac.in/atsmde-2024/

Keywords

Supersonic flow
Compressible flow
Mach disc
Shock wall interaction
k-omge SST turbulence model

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10.1201/9781003725022-24

Cite this

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title = "Evaluation of Pressure Based and Density Based Solver to Investigate Supersonic Jet Flow through the Confined Wall",

abstract = "This study is primarily focused on the assessment of a pressure-based and density CFD solver for the numerical analysis of an under-expanded supersonic jet flow inside a canister tube. The simulation results of both types of solvers in terms of the pressure field and shock structure are compared to experimental measurement. A comparison study indicates that the pressure solvers produce the same key findings as the density-based, and are also closely in agreement with the data reported by Batson and Bertin. The pressure solver using coupled pressure-velocity algorithm showed nearly identical values of the pressure peaks and corresponding positions downstream of the tube wall. However, a pressure-based solver is more robust and computationally efficient. Thus, a pressure solver with coupled algorithm can be considered as an alternative for the study of complex supersonic compressible flows while maintaining accuracy.",

keywords = "Supersonic flow, Compressible flow, Mach disc, Shock wall interaction, k-omge SST turbulence model",

author = "Atharva Shingnapurkar and Avick Sinha and Nitin Gulhane and P.A. Rajiwade",

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doi = "10.1201/9781003725022-24",

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booktitle = "Advances in Thermal System, Materials and Design Engineering",

publisher = "Routledge",

edition = "1",

note = "Second International Conference on Advances in Thermal Systems, Materials and Design Engeneeing, ATSMDE-2024 ; Conference date: 27-12-2024 Through 28-12-2024",

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}

Shingnapurkar, A, Sinha, A, Gulhane, N & Rajiwade, PA 2026, Evaluation of Pressure Based and Density Based Solver to Investigate Supersonic Jet Flow through the Confined Wall. in PA Rajiwade & NP Gulhane (eds), Advances in Thermal System, Materials and Design Engineering. 1 edn, Routledge, London, Second International Conference on Advances in Thermal Systems, Materials and Design Engeneeing, Mumbai, India, 27/12/24. https://doi.org/10.1201/9781003725022-24

Evaluation of Pressure Based and Density Based Solver to Investigate Supersonic Jet Flow through the Confined Wall. / Shingnapurkar, Atharva; Sinha, Avick; Gulhane, Nitin et al.
Advances in Thermal System, Materials and Design Engineering. ed. / P.A. Rajiwade; N.P. Gulhane. 1. ed. London: Routledge, 2026.

Research output: Chapter in Book/Conference proceeding with ISSN or ISBN › Conference contribution with ISSN or ISBN › peer-review

TY - GEN

T1 - Evaluation of Pressure Based and Density Based Solver to Investigate Supersonic Jet Flow through the Confined Wall

AU - Shingnapurkar, Atharva

AU - Sinha, Avick

AU - Gulhane, Nitin

AU - Rajiwade, P.A.

PY - 2026/2

Y1 - 2026/2

N2 - This study is primarily focused on the assessment of a pressure-based and density CFD solver for the numerical analysis of an under-expanded supersonic jet flow inside a canister tube. The simulation results of both types of solvers in terms of the pressure field and shock structure are compared to experimental measurement. A comparison study indicates that the pressure solvers produce the same key findings as the density-based, and are also closely in agreement with the data reported by Batson and Bertin. The pressure solver using coupled pressure-velocity algorithm showed nearly identical values of the pressure peaks and corresponding positions downstream of the tube wall. However, a pressure-based solver is more robust and computationally efficient. Thus, a pressure solver with coupled algorithm can be considered as an alternative for the study of complex supersonic compressible flows while maintaining accuracy.

AB - This study is primarily focused on the assessment of a pressure-based and density CFD solver for the numerical analysis of an under-expanded supersonic jet flow inside a canister tube. The simulation results of both types of solvers in terms of the pressure field and shock structure are compared to experimental measurement. A comparison study indicates that the pressure solvers produce the same key findings as the density-based, and are also closely in agreement with the data reported by Batson and Bertin. The pressure solver using coupled pressure-velocity algorithm showed nearly identical values of the pressure peaks and corresponding positions downstream of the tube wall. However, a pressure-based solver is more robust and computationally efficient. Thus, a pressure solver with coupled algorithm can be considered as an alternative for the study of complex supersonic compressible flows while maintaining accuracy.

KW - Supersonic flow

KW - Compressible flow

KW - Mach disc

KW - Shock wall interaction

KW - k-omge SST turbulence model

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DO - 10.1201/9781003725022-24

M3 - Conference contribution with ISSN or ISBN

SN - 9781041209607

BT - Advances in Thermal System, Materials and Design Engineering

A2 - Rajiwade, P.A.

A2 - Gulhane, N.P.

PB - Routledge

CY - London

T2 - Second International Conference on Advances in Thermal Systems, Materials and Design Engeneeing

Y2 - 27 December 2024 through 28 December 2024

ER -

Evaluation of Pressure Based and Density Based Solver to Investigate Supersonic Jet Flow through the Confined Wall

Abstract

Conference

Keywords

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