M
Massimo Rolle
Researcher at Technical University of Denmark
Publications - 127
Citations - 3652
Massimo Rolle is an academic researcher from Technical University of Denmark. The author has contributed to research in topics: Porous medium & Chemistry. The author has an hindex of 33, co-authored 109 publications receiving 2808 citations. Previous affiliations of Massimo Rolle include Polytechnic University of Turin & University of Tübingen.
Papers
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Enhancement of dilution and transverse reactive mixing in porous media: experiments and model-based interpretation.
TL;DR: Flow focusing in heterogeneous porous media significantly enhances transverse mixing and mixing-controlled reactions, whereas temporally changing flow fields appear to be of minor importance.
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Influence of Natural Organic Matter on As Transport and Retention
TL;DR: Overall, the experiments reveal that NOM can enhance transport/mobilization of As, different fractions of NOM are capable of As mobilization, and freshly extracted SOM had greater impact on As transport than purified GFA/PHA.
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Evidence of compound-dependent hydrodynamic and mechanical transverse dispersion by multitracer laboratory experiments.
TL;DR: It is shown that transverse mechanical dispersion depends on the diffusion coefficient of the compound, at least at the experimental bench-scale, which has to be considered in reactive-transport models.
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Enhanced biodegradation by hydraulic heterogeneities in petroleum hydrocarbon plumes
Robert D. Bauer,Massimo Rolle,Sebastian Bauer,C. Eberhardt,Peter Grathwohl,Olaf Kolditz,Rainer U. Meckenstock,Christian Griebler +7 more
TL;DR: Whether aerobic and anaerobic biodegradation in porous sediments is controlled by transverse dispersion, to elucidate the effect of sediment heterogeneity on mixing and biodegrading, and to search for degradation-limiting factors are determined.
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Experimental Investigation and Pore-Scale Modeling Interpretation of Compound-Specific Transverse Dispersion in Porous Media
TL;DR: In this article, a non-linear compound-dependent parameterization of transverse hydrodynamic dispersion is required to capture the observed lateral displacement over a wide range of seepage velocities.