Anne Lemnitzer scite author profile

Anne Lemnitzer

3Publications

74Citation Statements Received

58Citation Statements Given

How they've been cited

180

How they cite others

Affiliations

Irvine University, University of California, Irvine, University of Illinois Urbana-Champaign

Publications

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Brief communication: Critical infrastructure impacts of the 2021 mid-July western European flood event

Koks

Ginkel

Marle

et al. 2022

Nat. Hazards Earth Syst. Sci.

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Abstract. Germany, Belgium and the Netherlands were hit by extreme precipitation and flooding in July 2021. This brief communication provides an overview of the impacts to large-scale critical infrastructure systems and how recovery has progressed. The results show that Germany and Belgium were particularly affected, with many infrastructure assets severely damaged or completely destroyed. Impacts range from completely destroyed bridges and sewage systems, to severely damaged schools and hospitals. We find that (large-scale) risk assessments, often focused on larger (river) flood events, do not find these local, but severe, impacts due to critical infrastructure failures. This may be the result of limited availability of validation material. As such, this brief communication not only will help to better understand how critical infrastructure can be affected by flooding, but also can be used as validation material for future flood risk assessments.

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Dynamic pile impedances for laterally–loaded piles using improved Tajimi and Winkler formulations

Anoyatis

Lemnitzer

2017

Soil Dynamics and Earthquake Engineering

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a b s t r a c tThe analytical representation of dynamic soil reaction to a laterally-loaded pile using 3D continuum modeling is revisited. The governing elastodynamic Navier equations are simplified by setting the dynamic vertical normal stresses in the soil equal to zero, which uncouples the equilibrium in vertical and horizontal directions and allows a closed-form solution to be obtained. This physically motivated approximation, correctly conforming to the existence of a free surface, was not exploited in earlier studies by Tajimi, Nogami and Novak and leads to a weaker dependence of soil response to Poisson's ratio which is in agreement with numerical solutions found in literature. The stress and displacement fields in the soil and the associated reaction to an arbitrary harmonic pile displacement are derived analytically using pertinent displacement potentials and eigenvalue expansions over the vertical coordinate. Both infinitely long piles and piles of finite length are considered. Results are presented in terms of dimensionless parameters and graphs that highlight salient aspects of the problem. A detailed discussion on wave propagation and cutoff frequencies based on the analytical findings is provided. A new dimensionless frequency parameter is introduced to demonstrate that the popular plane-strain model yields realistic values for soil reaction only at high frequencies and low Poisson's ratios.Published by Elsevier Ltd.

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Lateral Performance of Full-Scale Bridge Abutment Wall with Granular Backfill

Lemnitzer

Ahlberg

Nigbor

et al. 2009

J. Geotech. Geoenviron. Eng.

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Anne Lemnitzer

Brief communication: Critical infrastructure impacts of the 2021 mid-July western European flood event

Dynamic pile impedances for laterally–loaded piles using improved Tajimi and Winkler formulations

Lateral Performance of Full-Scale Bridge Abutment Wall with Granular Backfill

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