[noprocess]
FILLING
THE GAPS – FROM MICROSCOPIC PORE STRUCTURES TO TRANSPORT PROPERTIES IN SHALES
Workshop
Lecture Series, vol. 21
Editors: Thorsten Schäfer, Reiner Dohrmann
and H.C. Greenwell
Open Access
Publication, funded by NEA
Preface
by THORSTEN SCHÄFER, REINER DORHMANN AND H.C. GREENWELL
Chapter 1. Investigation of microstructures in naturally and
experimentally deformed reference clay rocks using innovative methods in
scanning electron microscopy
by GUILLAUME DESBOIS, SUSANNE HEMES, BEN LAURICH, MAARTJE HOUBEN, JOP
KLAVER, NADINE HÖHNE, JANOS L. URAI, GIOACCHINO VIGGIANI, and PIERRE BÉSUELLE
by CHRISTOPHER R. CLARKSON
and NISAEL A. SOLANO
Chapter 3. Observations of pore systems of natural
siliciclastic mudstones
by ANDREW C. APLIN and
JULIAN K.S. MOORE
Chapter 4. Spatially resolved quantification by NanoSIMS of organic matter sorbed
to (clay) minerals
by CHRISTIAN SCHURIG, THOMAS SCHRANK, CARSTEN W.
MÜLLER, CARMEN, HÖSCHEN, JOHANN LUGMEIER, LYDIA POHL, and INGRID KÖGEL-KNABNER
Chapter 5. High-speed, coupled micro-beam XRD/XRF/XAFS mapping at GSECARS: APS Beamline 13-ID-E
by ANTONIO LANZIROTTI,
MATT NEWVILLE, LORI MANOUKIAN, and KARINA LANGE
Chapter 6. Microscopic X-ray imaging techniques applied to
mineral systems and catalyst particles
by J.F.W. MOSSELMANS, C.I.
PEARCE, W.R. BOWER, R.A.D. PATTRICK, S.W.T. PRICE, A.M. BEALE, A.P. SIMS, and
L. BARRIO
Chapter 7. Water mobility and structure in natural clay
systems
by MARC FLEURY, ERIC
KOHLER, and LOIC BARRÉ
by NATHAN WELCH, JOHN
CRAWSHAW, and EDO BOEK
Chapter 9. Microscopic chemical imaging: a key to understand
ion mobility in tight formations
by D. GROLIMUND, H.A.O.
WANG, L.R. VAN LOON, F. MARONE, N. DIAZ, A. KAESTNER, and A. JAKOB
by AMAËL OBLIGER, MARIE
JARDAT, DANIEL COELHO, SAMIR BÉKRI, and BENJAMIN ROTENBERG
Chapter 11. Impact of microstructure on anion exclusion in
compacted clay media
by CHRISTOPHE TOURNASSAT,
STÉPHANE GABOREAU, JEAN-CHARLES ROBINET, IAN C. BOURG, and CARL I. STEEFEL
Chapter 12. On the use and abuse of N2 physisorption for the characterization of the pore
structure of shales
by PIETER BERTIER, KEVIN
SCHWEINAR, HELGE STANJEK, AMIN GHANIZADEH, CHRISTOPHER R. CLARKSON, ANDREAS
BUSCH, NIKO KAMPMAN, DIRK PRINZ, ALEXANDRA AMANN-HILDENBRAND, BERNHARD M.
KROOSS, and VITALIY PIPICH
by S. KAUFHOLD, G. GRATHOFF, M. HALISCH, M.
PLÖTZE, J. KUS, K. UFER, R. DOHRMANN, S. LADAGE, and CH. OSTERTAG-HENNING
Chapter 14. Microstructural insights into the petrophysical characteristics of indurated clays
by P. MARSCHALL, L.
KELLER, S.B. GIGER, and J. BECKER
Chapter 15. Hydration of Febex
bentonite as observed by environmental scanning electron microscopy (ESEM)
by FRANK FRIEDRICH, DIETER
SCHILD, PETER G. WEIDLER, and THORSTEN SCHÄFER
by KATARZYNA GÓRNIAK
Chapter 17. The internal architecture and permeability
structures of faults in shale formations
by PIERRE DICK, CHARLES WITTEBROODT, CHRISTELLE
COURBET, JUUSO SAMMALJÄRVI, IMÈNE ESTÈVE, JEAN-MICHEL MATRAY, MARJA
SIITARI-KAUPPI, MIKO VOUTILAINEN, and ALEXANDRE DAUZÈRES
by NICOLA RIGONAT,
CHRISTIAN MAVRIS, SIMON HARLEY, and IAN B. BUTLER
Chapter 19. Clay-based modeling
approach to diffusion and sorption in the argillaceous rock from the Horonobe URL: Application to Ni(II),
Am(III), and Se(IV)
by YUKIO TACHI, TADAHIRO
SUYAMA, KENJI YOTSUJI, YASUO ISHII, and HIROAKI TAKAHASHI
Chapter 20. Diffusion model considering multiple pore
structures in compacted bentonite
by KENJI YOTSUJI, YUKIO
TACHI, and TAKAHIRO OHKUBO