Foams at elevated pressures – Interfacial rheology Management Prof. Philip Jaeger Description Currently, the use of aqueous foams in enhanced oil recovery (EOR/EGR) is attracting increasing attention.

3146 E-Mail: philip.jaeger @ tu-clausthal . de Consultation hours: Tuesday 9 - 11 o'clock ADDRESS Institute of Subsurface Energy Systems Agricolastraße 10 Building C 21, Room 323 38678 Clausthal-Zellerfeld

Material compatibility Management Prof. Philip Jaeger Description During the transport of fluids in pipelines, interactions with the pipe materials must be taken into account. In the case of polymer p

Completed projects Experimental Analysis of Conformance Control Methods - DGMK 844 Reducing compliance issues related to the production of non-mobilized oil in mature oilfields using core flooding and

GeoTES Opportunities and Limitations of Thermal Energy Storage in Deep Aquifers (Georeservoirs) within the Framework of the "Heat Transition 2030" Duration July 1, 2022 – June 30, 2025 Description The

GeoTWIN: Deep geothermal energy for heating in northern Germany Study on New Approaches to Minimizing Risks in the Development of Geothermal Reservoirs Duration January 1, 2021 – June 30, 2022 Managem

+49 5323 72 2560 Telefax: +49 5323 72 3146 E-Mail: rafael.villablanca @ tu-clausthal . de ADDRESS Institute of Subsurface Energy Systems Agricolastraße 10 Building C 21, Room 303 38678 Clausthal-Zellerfeld

Duration October 1, 2017 – September 30, 2020 Management Prof. Dr. Joachim Oppelt Description The Institute of Subsurface Energy Systems at Clausthal University of Technology is working on the project “Optimized […] fluids, conventional filtration methods, and standard drill string components. To address this, the Institute of Subsurface Energy Systems is developing a 6 ¾-inch diameter fluid-driven rotary hammer designed

Current Projects Mass transport properties in quaternary Systems at elevated pressures … In the context of the energy transition, processes related to storage and utilization of CO 2 and H 2 as well a

already been abandoned. Microfluidics, which was primarily co-developed and established at the Institute of Subsurface Energy Systems for enhanced oil recovery, supports conventional core flooding in this