UNIVERSITY OF WARMIA AND MAZURY IN OLSZTYN FACULTY OF TECHNICAL SCIENCES POLISH SOCIETY OF THEORETICAL AND APPLIED MECHANICS 2nd Workshop on Porous Media BOOK OF ABSTRACTS OLSZTYN - POLAND 28-30 JUNE 2018 2 | 2nd Workshop on Porous Media, Olsztyn, 28 - 3 0 J u n e 2 0 1 8 SCIENTIFIC COMMITEE Wojciech Sobieski (chair of committee) Janusz Badur Mariusz Kaczmarek Adam Lipiński Teodor Skiepko Mieczysław Cieszko Piotr Srokosz Adam Szymkiewicz Anna Trykozko Maciej Marek Maciej Matyka Joanna Wiącek ORGANIZING COMMITEE Wojciech Sobieski (chair of committee) Seweryn Lipiński Dariusz Grygo Tomasz Tabaka Aneta Molenda Book of abstracts published from materials provided by Authors Edited by Seweryn Lipiński 3 | 2nd Workshop on Porous Media, Olsztyn, 28 - 3 0 J u n e 2 0 1 8 CONTENTS Dariusz Asendrych, Paweł Niegodajew 5 Interfacial heat transfer modelling in packed beds Janusz Badur, Marcin Lemański, Tomasz Kowalczyk, Paweł Ziółkowski, Bartosz Kraszewski 6 Porous media as an important element of fuel cell in high efficiency energy production Włodzimierz Bielski, Ryszard Wojnar 7 Plane flow through the porous medium with chessboard-like distribution of permeability Renata Cicha-Szot, Piotr Such, Grzegorz Leśniak 8 A comparative study of nanoscale pore structures in geomaterials Mieczysław Cieszko 9 Minkowski Metric, Dirichlet Energy and Pore Tortuosity Tomasz Czerwiński, Mieczysław Cieszko, Chaplya Yevhen 10 Influence of pore structure parameters on saturation of a ball with liquid during intrusion-extrusion process Waldemar Dudda, Wojciech Sobieski 11 Experimental investigations of pressure drops in chosen granular beds Marek Gawor 12 Experimental determination of the kinetics of sorption and the kinetics of gas filtration in coal Karolina Grabowska, Jarosław Krzywański, Karol Sztekler, Wojciech Kalawa, Wojciech Nowak 13 Fuzzy logic approach in the analysis of heat transfer in a porous sorbent bed of the adsorption chiller Paweł Guzik, Krzysztof Mudryk 14 A concept of a two-stage process of non-pressure granulation of mineral materials Daniel Janecki 15 Mathematical model of the course of process of catalytic wet air oxidation of phenol (CWAO) in trickle bed reactors (TBR) Łukasz Jasiński, Marcin Dąbrowski 16 Depth-averaged model for flow in a propped fracture Dariusz Kardaś, Sylwia Polesek-Karczewska, Paweł Ziółkowski, Janusz Badur 17 A unified thermodynamic approach to description of whole phenomena during a coke production Marcin Kempiński, Mieczysław Cieszko, Marcin Burzyński, Zbigniew Szczepański 18 Determination of pore size distribution in sintered glass bead samples based on mercury porosimetry and microtomographic image analysis Wojciech Kiński, Wojciech Sobieski 19 Geometry extraction from GCODE files destined for 3D printing Wojciech Kiński, Wojciech Sobieski 20 The application of 3D printing technology in the investigations of porous media Jarosław Krzywański 21 Selected artificial intelligence methods in modeling of energy devices and systems Anna Kułakowska 22 Evaluation of plasticity criterion applicability in the porous materials research Sylwia Kwiatkowska-Marks, Justyna Miłek, Ilona Trawczyńska 23 Diffusion of Cd(II), Pb(II) and Zn(II) on calcium alginate beads Grzegorz Leśniak 24 Effect of microfracture on ultratight matrix permeability Grzegorz Leśniak, Renata Cicha-Szot, Krzysztof Labus 25 Multi-scale core to pore imaging and modelling of the heterogonous rocks Grzegorz Leśniak, Karol Spunda, Renata Cicha-Szot 26 Pore scale modelling of fluid transport using FIB-SEM images Seweryn Lipiński, Wojciech Sobieski 27 Reliability of the tortuosity value obtained on the basis of other parameters of the porous bed Seweryn Lipiński, Zenon Syroka 28 Relations between the various probability density functions describing the distribution of particles in a granular bed Wojciech Ludwig 29 Effect of friction coefficient on results of particles velocity calculation using Euler-Lagrange model in spout-fluid bed apparatus 4 | 2nd Workshop on Porous Media, Olsztyn, 28 - 3 0 J u n e 2 0 1 8 Janusz Łukowski, Mieczysław Cieszko 30 Analysis of Influence of Model Parameters on the Capillary Imbibition of Porous Materials with Liquid Marcin Majkrzak 31 Possibilities of using glass microspheres to build models and simulation of fluid flow through geological strata Ewelina Małek, Danuta Miedzińska, Wiesław Szymczyk, Arkadiusz Popławski 32 Application of 3D printing technology to random porous structures study Marcin Małek, Wojciech Życiński, Mateusz Jackowski, Marcin Wachowski, Waldemar Łasica 33 Effect of polypropylene fiber addition on mechanical properties of concrete based on portland cement Maciej Marek 34 Numerical generation of a random packed bed of saddles Kinga Michalak, Janusz A. Szpaczyński 35 Sludge dewatering by thin-film freezing in the north-east of Poland Danuta Miedzińska 37 Numerical modeling of porous ceramics microstructure Justyna Miłek, Sylwia Kwiatkowska-Marks, Ilona Trawczyńska 38 Application of silica gel in the process of trypsin immobilization Agnieszka Niedźwiedzka 39 Numerical modeling of cavitation phenomenon in a small-sized converging-diverging nozzle Anna Pajdak 40 The influence of comminution degree on structural properties of rocks of various porous structure Norbert Skoczylas, Mateusz Kudasik 41 A multiparameter description of the rock-gas system by the use of original methods Karolina Słomka-Polonis, Jakub Fitas, Jakub Styks, Bogusława Kordon-Łapczyńska 42 Measurement of porosity of comminuted Salix Viminalis L. in aspects of uncertainty of measurement Wojciech Sobieski 43 Numerical investigations of tortuosity in randomly generated pore structures Wojciech Sobieski 44 Path Searching Algorithm Aleksander Sulkowski 45 Application of the contour erosion function in shape analysis of a solid particle Zbigniew Szczepański, Mieczysław Cieszko 46 Influence of Microscopic Pore Geometry on the Parameter of Pore Tortuosity Janusz A. Szpaczyński 47 The use of natural soil as a porous medium for the treatment of secondary effluent in the northern climate Adriana Szydłowska, Jerzy Hapanowicz 48 The stand for testing flow of two-phase system through the metal foams Piotr Szymczak, Filip Dutka, Florian Osselin 49 Dissolution of porous media studied in a simple microfluidic setup Adam Szymkiewicz, Witold Tisler, Wioletta Gorczewska-Langner, 50 Rafał Ossowski, Danuta Leśniewska, Stanisław Maciejewski Numerical simulations of laboratory-scale dike overflowing using two phase flow model Ilona Trawczyńska, Justyna Miłek, Sylwia Kwiatkowska-Marks 51 Effect of temperature, concentration of alcohols and time on baker's yeast permeabilization process Anna Trykozko 52 Pore scale simulations of flows in weakly permeable porous media Grzegorz Wałowski, Gabriel Filipczak 53 Using of the SEM image method to evaluate the porosity of materials with varied internal structure Joanna Wiącek, Marek Molenda, Mateusz Stasiak 54 Numerical analysis of compression mechanics of granular packings with various number of particle size fractions Eliza Wolak, Elżbieta Vogt, Jakub Szczurowski 55 Determination of the heat of wetting of selected liquids on modified activated carbons 5 | 2nd Workshop on Porous Media, Olsztyn, 28 - 3 0 J u n e 2 0 1 8 Interfacial heat transfer modelling in packed beds Dariusz Asendrych, Paweł Niegodajew Institute of Thermal Machinery, Częstochowa University of Technology [email protected] Keywords: packed bed, multiphase flow, trickling flow regime, interfacial heat transfer Packed bed columns are commonly used in chemical and process industries, just to mention absorption, distillation or rectification processes as examples. The packing material ensures large contact area between phases as well as sufficient liquid holdup required to reach expected process efficiency. Modelling of 2-phase flows in packed beds is a challenging task [1] even if isothermal conditions are assumed. However, most of processes include heat transfer phenomena, thus the changes in material properties have to be taken into account. During recent years a lot of effort has been done in the field of packed beds operated in trickling flow regime, mostly dedicated to flow hydrodynamics. Prediction of pressure drop, liquid holdup, liquid spreading or wetting efficiency has become much more accurate and reliable. Much less works, however, is related to heat transfer phenomena and in principle they are devoted to overall heat transfer in packed beds. None of the papers deals with interfacial (gas-liquid) heat transfer except for the experimental work of Heidari and Hashemabadi [2]. The weak point of this work is, however, a simplified model of a packed bed as composed of large spheres filling the column of the same diameter. Practical lack of reliable data does not allow to model nonisothermal multiphase flows in packed beds. That is why it was decided to undertake experimental studies to investigate the interfacial gas- liquid heat transfer. The experiment was conducted with the use of a small laboratory test rig equipped with a 100mm column filled in with 6mm glass Raschig rings. Air and water were used as working media. Hot water was circulated in a closed loop, it was supplied to the top of the packing section and flowed down. The ambient air was sucked at the bottom of the column and it flowed countercurrently to the liquid phase. Water and air flowrates as well as water inlet temperature were controlled independently. A system of flowmeters, thermocouples and humidity meters allowed to measure heat fluxes and thus to determine