Robin Jäger scite author profile

Robin Jäger

5Publications

99Citation Statements Received

122Citation Statements Given

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118

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ETH Zurich

Publications

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Channelization in porous media driven by erosion and deposition

2017

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We develop and validate a new model to study simultaneous erosion and deposition in threedimensional porous media. We study the changes of the porous structure induced by the deposition and erosion of matter on the solid surface and find that when both processes are active, channelization in the porous structure always occurs. The channels can be stable or only temporary depending mainly on the driving mechanism. Whereas a fluid driven by a constant pressure drop in general does not form steady channels, imposing a constant flux always produces stable channels within the porous structure. Furthermore we investigate how changes of the local deposition and erosion properties affect the final state of the porous structure, finding that the larger the range of wall shear stress for which there is neither erosion nor deposition, the more steady channels are formed in the structure.

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Mechanism behind Erosive Bursts In Porous Media

2017

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Erosion and deposition during flow through porous media can lead to large erosive bursts that manifest as jumps in permeability and pressure loss. Here we reveal that the cause of these bursts is the reopening of clogged pores when the pressure difference between two opposite sites of the pore surpasses a certain threshold. We perform numerical simulations of flow through porous media and compare our predictions to experimental results, recovering with excellent agreement shape and power-law distribution of pressure loss jumps, and the behavior of the permeability jumps as a function of particle concentration. Furthermore, we find that erosive bursts only occur for pressure gradient thresholds within the range of two critical values, independent of how the flow is driven. Our findings provide a better understanding of sudden sand production in oil wells and breakthrough in filtration.

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Clogging at pore scale and pressure-induced erosion

2018

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Introducing a model to study deposition and erosion of single particles at microscopic scale, we investigate the clogging and erosive processes in a pore. The particle diameter, concentration, and adhesive forces rule the way particles are deposited, and therefore, characterize the clogging process. We study the hydraulic pressure that induces erosive bursts and conclude that this pressure depends linearly on the deposited volume and inversely on the pores' diameter. While cohesion does not play an important role for erosive bursts, the adhesion is the main force initiating clogging and when overcome by the hydraulic pressure, erosive bursts are triggered. Finally, we show how the magnitude of erosive bursts depends on the pore length, particle diameter and pore size.

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Development of compressive strength and porosity of some regulated set cements (RSCS) both made from rotary kiln - and laboratory oven clinker - hydrated at 20°C and 5°C

Jäger¹,

Esser²,

Knöfel³

1993

Cement and Concrete Research

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Erosion and Deposition in Porous Media

Jäger¹

2018

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Robin Jäger

Channelization in porous media driven by erosion and deposition

Mechanism behind Erosive Bursts In Porous Media

Clogging at pore scale and pressure-induced erosion

Development of compressive strength and porosity of some regulated set cements (RSCS) both made from rotary kiln - and laboratory oven clinker - hydrated at 20°C and 5°C

Erosion and Deposition in Porous Media

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