Brad P. Wham scite author profile

This paper focuses on the effect of tunneling-induced ground deformation on the response of jointed cast iron and ductile iron pipelines that (i) cross the settlement profile perpendicular to the tunnel centerline and (ii) connect through 90° tees with a pipeline parallel to the tunnel centerline. The modeling involves two-dimensional finite element analyses that account for coupled forces both parallel and perpendicular to the pipeline, and incorporates the results of large-scale laboratory tests to characterize the joints. Pipeline response is quantified with respect to joint rotation and pullout at various leakage levels as well as the allowable tensile strain. The paper describes soil displacements induced by a 6.1 m (20 ft.) diameter tunnel in clay and sand. Joint rotations and maximum tensile strains for pipelines in sand exceed those in clay by up to three for the same geometric conditions. Cast iron pipelines crossing the tunnel centerline are most vulnerable to leakage from joint rotation; ductile iron pipelines have sufficient capacity against joint leakage in all cases studied. Cast iron pipelines that connect with 90° tees are highly vulnerable to leakage from pullout due to lateral soil movement. Guidance is provided for risk assessment, design, and utility operations.

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Large-Scale Fault Rupture Tests on Pipelines Reinforced with Cured-in-Place Linings

Argyrou

O’Rourke

Stewart

et al. 2019

J. Geotech. Geoenviron. Eng.

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The Marshall Fire: Scientific and policy needs for water system disaster response

Whelton

Seidel²,

Wham

et al. 2023

AWWA Water Science

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The 2021 Marshall Fire was the costliest fire in Colorado's history and destroyed more than 1,000 homes and businesses. The disaster displaced over 40,000 people and damaged six public drinking water systems. A case study was developed to better understand decisions, resources, expertise, and response limitations during and after the wildfire. The fire caused all water systems to lose power. Power loss was sometimes coupled with structure destruction, distribution depressurization, and the failure of backup power systems. These consequences jeopardized fire‐fighting support and allowed for volatile organic compound and semi‐volatile organic compound contamination of water distribution systems. Water system staff, with help from neighboring systems and external technical experts, stabilized the infrastructure, found and removed the contamination, and restored services. Actions were identified for utilities, governments, and researchers that could help communities minimize wildfire impacts, better protect workers and the population, and enable water systems to more rapidly respond and recover.

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Jointed Pipeline Response to Large Ground Deformation

Wham

O’Rourke

2016

J. Pipeline Syst. Eng. Pract.

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Seismic Testing of Critical Lifelines Rehabilitated with Cured in Place Pipeline Lining Technology

Zhong

Bouziou

Wham

et al. 2014

Journal of Earthquake Engineering

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Performance of Embankments on Liquefiable Soils Improved with Dense Granular Columns: Observations from Case Histories and Centrifuge Experiments

Tiznado

Dashti

Ledezma

et al. 2020

J. Geotech. Geoenviron. Eng.

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Contaminant Migration from Polymer Pipes to Drinking Water under High Temperature Wildfire Exposure

Fischer

Wham

Metz

2022

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Buried Wireless Sensor Network for Monitoring Pipeline Joint Leakage Caused by Large Ground Movements

Lin

Soga

et al. 2019

J. Pipeline Syst. Eng. Pract.

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Brad P. Wham

Jointed pipeline response to tunneling-induced ground deformation

Large-Scale Fault Rupture Tests on Pipelines Reinforced with Cured-in-Place Linings

The Marshall Fire: Scientific and policy needs for water system disaster response

Jointed Pipeline Response to Large Ground Deformation

Seismic Testing of Critical Lifelines Rehabilitated with Cured in Place Pipeline Lining Technology

Performance of Embankments on Liquefiable Soils Improved with Dense Granular Columns: Observations from Case Histories and Centrifuge Experiments

Contaminant Migration from Polymer Pipes to Drinking Water under High Temperature Wildfire Exposure

Buried Wireless Sensor Network for Monitoring Pipeline Joint Leakage Caused by Large Ground Movements

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