PREDICTION OF PRESSURE DROPS IN LIQUID-LIQUID TWO-PHASE FLOW ACROSS CIRCULAR CHANNELS Conference Paper

abstract

• Abstract Mechanistic models are necessary for understanding and predicting the behavior of liquid-liquid flow for multiple pipe dimensions, mixture properties, and flow patterns. In this paper, a mechanistic model is proposed to calculate pressure drop across circular channels for liquid-liquid two-phase flow. The developed model considers several key aspects of liquid-liquid flow, such as mixed and wavy liquid-liquid interfaces and dispersion within each liquids layers. Unique identifiers, such as height, turbulence, and dispersion, are calculated for each phase, using an augmented separated flow model and nonlinear optimization. Comparison of the proposed model with experimental data, comprising of multiple inclination angles and flow patterns, shows accurate predictions for a variety of liquid-liquid flow patterns, including double- and triple-layered flow.

name of conference

• Volume 4: Pipelines, Risers, and Subsea Systems

authors

• Retnanto, Albertus
• Tafreshi, Reza

published proceedings

• PROCEEDINGS OF ASME 2021 40TH INTERNATIONAL CONFERENCE ON OCEAN, OFFSHORE AND ARCTIC ENGINEERING (OMAE2021), VOL 4

author list (cited authors)

• Khan, Z., Tafreshi, R., Wahid, M. F., & Retnanto, A.

citation count

• 1

complete list of authors

• Khan, Zurwa||Tafreshi, Reza||Wahid, Md Ferdous||Retnanto, Albertus

publication date

• January 2021

publisher

• ASME International  Publisher

keywords

• Distributed Flow
• Flow Patterns
• Liquid-liquid
• Stratified Flow
• Two-fluid Model

Digital Object Identifier (DOI)

• 10.1115/omae2021-62861

URL

• http://dx.doi.org/10.1115/omae2021-62861

user-defined tag

• 12 Responsible Consumption and Production