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Портал Begell Электронная Бибилиотека e-Книги Журналы Справочники и Сборники статей Коллекции
Journal of Porous Media
Импакт фактор: 1.49 5-летний Импакт фактор: 1.159 SJR: 0.504 SNIP: 0.671 CiteScore™: 1.58

ISSN Печать: 1091-028X
ISSN Онлайн: 1934-0508

Выпуски:
Том 22, 2019 Том 21, 2018 Том 20, 2017 Том 19, 2016 Том 18, 2015 Том 17, 2014 Том 16, 2013 Том 15, 2012 Том 14, 2011 Том 13, 2010 Том 12, 2009 Том 11, 2008 Том 10, 2007 Том 9, 2006 Том 8, 2005 Том 7, 2004 Том 6, 2003 Том 5, 2002 Том 4, 2001 Том 3, 2000 Том 2, 1999 Том 1, 1998

Journal of Porous Media

Купить выпуск $136.00 Том 17, 2014 Выпуск 9

DOI: 10.1615/JPorMedia.v17.i9

Содержание:

FLOW OF FLUIDS THROUGH POROUS MEDIA DUE TO HIGH PRESSURE GRADIENTS: PART 2 − UNSTEADY FLOWS
Kumbakonam R. Rajagopal, Shriram Srinivasan
pages 751-762
DOI: 10.1615/JPorMedia.v17.i9.10
WELL-POSEDNESS AND NUMERICAL SOLUTION OF A NONLINEAR VOLTERRA PARTIAL INTEGRO-DIFFERENTIAL EQUATION MODELING A SWELLING POROUS MATERIAL
Keith J. Wojciechowski, Jinhai Chen, Lynn Schreyer-Bennethum, Kristian Sandberg
pages 763-784
DOI: 10.1615/JPorMedia.v17.i9.20
TIME-SPACE DOMAIN HIGH-ORDER STAGGERED-GRID FINITE DIFFERENCE METHOD FOR POROUS MEDIA
Yijie Zhang , Jinghuai Gao
pages 785-795
DOI: 10.1615/JPorMedia.v17.i9.30
STARTING SOLUTION FOR AN MHD OLDROYD-B FLUID FLOW THROUGH POROUS SPACE
Masood Khan, Aqsa Ijaz
pages 797-809
DOI: 10.1615/JPorMedia.v17.i9.40
A SIMPLE AND EFFECTIVE METHOD TO DIRECTLY MEASURE THE CAPILLARY PRESSURE OF A POROUS WICK
Dezhi Wang, Xiaoying Wang, Dandan Liang, Bohua Duan, Zhuangzhi Wu, Chao Wang
pages 811-818
DOI: 10.1615/JPorMedia.v17.i9.50
PREDICTION OF THE EFFECTIVE PERMEABILITY COEFFICIENT IN RANDOM POROUS MEDIA USING THE FINITE ELEMENT METHOD
Soufiane Belhouideg, Manuel Lagache
pages 819-830
DOI: 10.1615/JPorMedia.v17.i9.60
IMPLEMENTATION OF OPTIMIZED BACKFILL MATERIALS FOR UNDERGROUND ELECTRIC POWER CABLES
You-Seong Kim, Jaehong Kim, Dae-Seong Cho
pages 831-840
DOI: 10.1615/JPorMedia.v17.i9.70

Journal of Porous Media

Experimental device. JPM Vol.12, Issue10, Highly Porous Metal Foams: Effective Thermal Conductivity Measurement Using a Photothermal Technique Experimental device. JPM Vol.12, Issue10, Highly Porous Metal Foams: Effective Thermal Conductivity Measurement Using a Photothermal Technique Highly Porous Metal Foams: Effective Thermal Conductivity Measurement Using a Photothermal Technique
The climatic chamber allows several samples to be placed simultaneously in the same conditions. JPM Vol.12, Issue5, Shrinkage/Swelling Behavior of Knitted Fabrics during Relative... The climatic chamber allows several samples to be placed simultaneously in the same conditions. JPM Vol.12, Issue5, Shrinkage/Swelling Behavior of Knitted Fabrics during Relative... Shrinkage/Swelling Behavior of Knitted Fabrics during Relative Humidity Cycles Determined by X-ray Imaging
Schematic representation of interaction of TH and geochemical processes in the fractured rock of Yucca Mountain. JPM Vol.12, Issue8, Modeling of Coupled Heat Transfer and ... Schematic representation of interaction of TH and geochemical processes in the fractured rock of Yucca Mountain. JPM Vol.12, Issue8, Modeling of Coupled Heat Transfer and ... Modeling of Coupled Heat Transfer and Reactive Transport Processes in Porous Media: Application to Seepage Studies at Yucca Mountain, Nevada
Sketch of planar, cylindrical, and annular geometrical aspects of soil matrices used in the analysis. JPM Vol.11, Issue8, Role of Geometry of Capillary Bundles on Flow Reversal in Electro... Sketch of planar, cylindrical, and annular geometrical aspects of soil matrices used in the analysis. JPM Vol.11, Issue8, Role of Geometry of Capillary Bundles on Flow Reversal in Electro... Role of Geometry of Capillary Bundles on Flow Reversal in Electrokinetic Soil Reclamation: A Comparative Study Based on the Microscopic Scale
Schematic view of biological tissue. JPM Vol.12, Issue4, A Macroscopic Model for Countercurrent Bioheat Transfer in a Circulatory System Schematic view of biological tissue. JPM Vol.12, Issue4, A Macroscopic Model for Countercurrent Bioheat Transfer in a Circulatory System A Macroscopic Model for Countercurrent Bioheat Transfer in a Circulatory System