Modeling of Direct Contact Condensation in the Water-Saturated Zone of the Soil Exposed to Steam Injection

سال انتشار: 1401
نوع سند: مقاله ژورنالی
زبان: انگلیسی
مشاهده: 208

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شناسه ملی سند علمی:

JR_IJCCE-41-3_022

تاریخ نمایه سازی: 17 خرداد 1404

چکیده مقاله:

In this research, the phenomenon of direct-contact condensation in porous media has been investigated based on the computational fluid dynamic technique, CFD, for hydraulic and thermal phenomena assessment. This phenomenon occurs in soil remediation by steam injection. The main contribution of this research is developing a new combined model for considering steam condensation in the saturated porous media systems using the direct contact condensation model, DCC, and Navier-Stockes equations rather than solely using Darcy’s law-based model. For the first time, a two-resistance DCC model for porous media application has been included, predicting the propagation of steam front and condensation. The corresponding source and sink terms due to the calculated condensation rate is added to each phase continuity equation and enthalpy equation of the liquid phase by user-defined functions, UDFs. Pressure drop due to flowing fluids in the porous structure was considered by lumped approach model using viscous and inertial loss terms added to momentum equations of the model. Heat loss from the sandbox is considered a sink term based on the calculated overall heat transfer coefficient and local temperature differences. The model results meet acceptable predictions for steam saturation content and temperature distributions over time and the predictions are qualitatively similar to the experimental and simulation results of the previous literature. The quantitative values of the sandbox-covered thermal areas, extracted from propagated saturated temperature fronts over processing time, are compared for both DCC simulation results and available experimental measurements. After elapsing ۱۲ and ۱۸ minutes from the beginning of the process, the simulation values of covered thermal areas are ۰.۰۴۹ m۲ and ۰.۰۸۲ m۲. The corresponding experimental values are ۰.۰۵۹ m۲ and ۰.۰۹۸ m۲, respectively. Evaluated absolute values of the relative change percent of covered thermal areas are ۱۶.۳% and ۱۶.۹% over processing times of ۱۲ and ۱۸ minutes.

نویسندگان

Taraneh Sadat Janfada

Computer-Aided Process Engineering (CAPE) Laboratory, School of Chemical, Petroleum & Gas Engineering, Iran University of Science and Technology, Tehran, I.R. IRAN

Norollah Kasiri

Computer-Aided Process Engineering (CAPE) Laboratory, School of Chemical, Petroleum & Gas Engineering, Iran University of Science and Technology, Tehran, I.R. IRAN

Mohammad Reza Dehghani

Computer-Aided Process Engineering (CAPE) Laboratory, School of Chemical, Petroleum & Gas Engineering, Iran University of Science and Technology, Tehran, I.R. IRAN

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