GASH Publikationen

Hier finden Sie eine Auswahl an wissenschaftliche Veröffentlichungen und Abschlussarbeiten, die im Rahmen des GASH Projektes durchgeführt wurden.

 

Scientific journals

Ziegs, V., Mahlstedt, N., Bruns, B., Horsfield, B., (2015) Predicted bulk composition of petroleum generated by Lower Cretaceous Wealden black shales, Lower Saxony Basin, Germany. International Journal of Earth Sciences 104, 1605-1621. doi:10.1007/s00531-014-1081-y Open Access Version

 

Gross, D., Sachsenhofer, R.F., Bechtel, A., Pytlak, L., Rupprecht, B., Wegerer, E. (2015) Organic geochemistry of Mississippian shales (Bowland Shale Fm.) in Central Britain: implications for depositional environment, source rock and gas shale potential. Marine and Petroleum Geology 59, 1-21. 10.1016/j.marpetgeo.2014.07.022

 

Gasparik, M., Bertier, P., Gensterblum, Y., Ghanizadeh, A., Krooss, B.M., Littke, R., (2014) Geological controls on the methane storage capacity in organic-rich shales. International Journal of Coal Geology 123, 34-51. doi.org/10.1016/j.coal.2013.06.010

 

Ghanizadeh, A., Amann-Hildenbrand, A., Gasparik, M., Gensterblum, Y., Krooss, B.M., Littke, R., (2014) Experimental study of fluid transport processes in the matrix system of the European organic-rich shales: II. Posidonia Shale (Lower Toarcian, northern Germany). International Journal of Coal Geology.
doi.org/10.1016/j.coal.2013.06.009

 

Ghanizadeh, A., Gasparik, M., Amann-Hildenbrand, A., Gensterblum, Y., Krooss, B.M., (2014) Experimental study of fluid transport processes in the matrix system of the European organic-rich shales: I. Scandinavian Alum Shale. Marine and Petroleum Geology 51, 79-99.

 

Bruns, B., Di Primio, R., Berner, U., Littke, R., 2013. Petroleum system evolution in the inverted Lower Saxony Basin, northwest Germany: a 3D basin modeling study. Geofluids 13, 246-271, dx.doi.org/10.1111/gfl.12016.

 

Gasparik, M., Ghanizadeh, A., Gensterblum, Y., Krooss, B.M., (2013) “Multi-temperature” method for high-pressure sorption measurements on moist shales. Review of scientific instruments 84, 085116-085111-085119, dx.doi.org/10.1063/1.4817643.

 

Ghanizadeh, A., Gasparik, M., Amann-Hildenbrand, A., Gensterblum, Y., Krooss, B.M. (2013) Lithological Controls on Matrix Permeability of Organic-rich Shales: An Experimental Study. Energy Procedia 40, 127-136. dx.doi.org/10.1016/j.egypro.2013.08.016

 

Rexer, T.F.T., Benham, M.J., Aplin, A.C., Thomas, K.M., (2013) Methane Adsorption on Shale under Simulated Geological Temperature and Pressure Conditions. Energy Fuels 27, 3099-3109, dx.doi.org/10.1021/ef400381v

 

Bernard, S., Wirth, R., Schreiber, A., Bowen, L., Aplin, A.C., Mathia, E.J., Schulz, H.-M., Horsfield, B., (2013) FIB-SEM and TEM Investigations of an Organic-rich Shale Maturation Series from the Lower Toarcian Posidonia Shale, Germany: Nanoscale Pore System and Fluid-rock Interactions, in: Diaz, C.E., Wawak, B. (Eds.), Electron microscopy of shale hydrocarbon reservoirs. AAPG, Tulsa, OK, pp. 53-66.

 

Rippen, D., Littke, R., Bruns, B., Mahlstedt, N., (2013) Organic geochemistry and petrography of Lower Cretaceous Wealden black shales of the Lower Saxony Basin: The transition from lacustrine oil shales to gas shales. Organic Geochemistry 63, 18-36, dx.doi.org/10.1016/j.orggeochem.2013.07.013

 

Amann-Hildenbrand, A., Ghanizadeh, A., Krooss, B.M., (2012) Transport properties of unconventional gas systems. Marine and Petroleum Geology 31, 90-99.

 

Baumann-Wilke, M., Bauer, K., Schovsbo, N.H., Stiller, M., (2012) P-wave traveltime tomography for a seismic characterization of black shales at shallow depth on Bornholm, Denmark. Geophysics 77, EN53-EN60, library.seg.org/doi/abs/10.1190/geo2011-0326.1

 

Bernard, S., Horsfield, B., Schulz, H.-M., Wirth, R., Schreiber, A., Sherwood, N., (2012) Geochemical evolution of organic-rich shales with increasing maturity: A STXM and TEM study of the Posidonia Shale (Lower Toarcian, northern Germany). Marine and Petroleum Geology 31, 70-89.

 

Bernard, S., Wirth, R., Schreiber, A., Schulz, H.-M., Horsfield, B., (2012) Formation of nanoporous pyrobitumen residues during maturation of the Barnett Shale (Fort Worth Basin). International Journal of Coal Geology, 103, 3-11, dx.doi.org/10.1016/j.coal.2012.04.010.

 

Littke, R., Krooss, B., Uffmann, A.K., Schulz, H.-M., Horsfield, B., (2011) Unconventional Gas Resources in the Paleozoic of Central Europe, Oil & Gas Science and Technology 66, 953-977.

 

Theses

Rupprecht, B., 2013. Kerogen classification of different source rocks from Derbyshire and North Yorkshire, England, UK. Montan Universität Leoben, Bachelor thesis. 52p.

 

Ziegs, V.,2013, Development of a compositional kinetic model for primary and secondary petroleum generation from Lower Cretaceous Wealden Shales, Lower Saxony Basin, Northern Germany, Master thesis Bergakademie Freiberg, Master thesis 119 p. http://gfzpublic.gfz-potsdam.de/pubman/item/escidoc:301644:3/component/escidoc:301643/Volker%20Ziegs_Master%20Thesis_Primary%20&%20secondary%20formation%20of%20hydrocarbons%20from%20Wealden%20Shale_with%20cover.pdf

 

Hartwig, A., (2009) Upper Carboniferous and Upper Permian black shales in NE Germany: Investigations of sedimentology and organic material regarding their shale gas characteristics. Master thesis. TU Berlin.

 

Könitzer, S., (2009): Paleozoic and Mesozoic black shales in Mecklenburg-Vorpommerania (NE German Basin): Investigations of sedimentology and organic material regarding their shale gas characteristics. Master thesis. TU Berlin.