Seismic Retrofit of Tuttle Creek Dam
AbstractThis paper discusses the seismic retrofit of Tuttle Creek Dam near Manhattan, Kansas, including investigations, seismic analyses, design, construction, and stabilization techniques used. Original plans called for stabilization of the upstream and downstream slopes and installation of an upst...
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| Published in | Journal of geotechnical and geoenvironmental engineering Vol. 139; no. 6; pp. 975 - 986 |
|---|---|
| Main Authors | , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Reston, VA
American Society of Civil Engineers
01.06.2013
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| Subjects | |
| Online Access | Get full text |
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| Abstract | AbstractThis paper discusses the seismic retrofit of Tuttle Creek Dam near Manhattan, Kansas, including investigations, seismic analyses, design, construction, and stabilization techniques used. Original plans called for stabilization of the upstream and downstream slopes and installation of an upstream cutoff wall to reduce underseepage. However, constructability and dam safety issues, along with the results of refined seismic deformation analyses, led to cancellation of the jet grouted upstream slope stabilization and cutoff wall. Downstream slope stabilization was to be accomplished by jet grouting or soil mixing, but ultimately was accomplished using a self-hardening cement-bentonite (C-B) slurry to construct transverse shear walls. A total of 351 transverse shear walls were constructed along the downstream toe by primarily clamshell equipment. Typical shear walls are 13.7 m long, 1.2 m wide, and extend 18.9 m deep or about 6.1 m into the coarse foundation sands. The walls are spaced at 4.3 m on center along the downstream toe for a replacement ratio of about 29%. In addition to the transverse shear walls, the relief well collection ditch along the downstream toe was replaced with a buried collector system to further improve downstream stability and underseepage control. |
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| AbstractList | This paper discusses the seismic retrofit of Tuttle Creek Dam near Manhattan, Kansas, including investigations, seismic analyses, design, construction, and stabilization techniques used. Original plans called for stabilization of the upstream and downstream slopes and installation of an upstream cutoff wall to reduce underseepage. However, constructability and dam safety issues, along with the results of refined seismic deformation analyses, led to cancellation of the jet grouted upstream slope stabilization and cutoff wall. Downstream slope stabilization was to be accomplished by jet grouting or soil mixing, but ultimately was accomplished using a self-hardening cement-bentonite (C-B) slurry to construct transverse shear walls. A total of 351 transverse shear walls were constructed along the downstream toe by primarily clamshell equipment. Typical shear walls are 13.7 m long, 1.2 m wide, and extend 18.9 m deep or about 6.1 m into the coarse foundation sands. The walls are spaced at 4.3 m on center along the downstream toe for a replacement ratio of about 29%. In addition to the transverse shear walls, the relief well collection ditch along the downstream toe was replaced with a buried collector system to further improve downstream stability and underseepage control. AbstractThis paper discusses the seismic retrofit of Tuttle Creek Dam near Manhattan, Kansas, including investigations, seismic analyses, design, construction, and stabilization techniques used. Original plans called for stabilization of the upstream and downstream slopes and installation of an upstream cutoff wall to reduce underseepage. However, constructability and dam safety issues, along with the results of refined seismic deformation analyses, led to cancellation of the jet grouted upstream slope stabilization and cutoff wall. Downstream slope stabilization was to be accomplished by jet grouting or soil mixing, but ultimately was accomplished using a self-hardening cement-bentonite (C-B) slurry to construct transverse shear walls. A total of 351 transverse shear walls were constructed along the downstream toe by primarily clamshell equipment. Typical shear walls are 13.7 m long, 1.2 m wide, and extend 18.9 m deep or about 6.1 m into the coarse foundation sands. The walls are spaced at 4.3 m on center along the downstream toe for a replacement ratio of about 29%. In addition to the transverse shear walls, the relief well collection ditch along the downstream toe was replaced with a buried collector system to further improve downstream stability and underseepage control. |
| Author | Empson, William B Castro, Gonzalo Dillon, John C Walberg, Francke C Nicholson, Peter J Axtell, Paul J Mathews, David L Topi, Joseph E Stark, Timothy D Byrne, Peter M Bellew, Glen M |
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| Cites_doi | 10.1179/dfi.2008.002 10.1179/dfi.2010.005 10.1139/t11-107 10.1193/1.1585586 10.1061/41023(337)38 10.1061/JSFEAQ.0000309 10.1139/t11-055 10.1061/(ASCE)GT.1943-5606.0000241 10.1061/(ASCE)GT.1943-5606.0000175 10.1061/JSFEAQ.0001662 10.1061/(ASCE)0733-9410(1992)118:11(1727) |
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| Keywords | Project evaluation Mixing Deformation cutoff walls Earthquake effect Earthquake engineering Slope stability Case studies Earthquakes Core walls Jet grouting Dams Shear walls Soil permeability Liquefaction Cut off wall Permeability Kansas Soil liquefaction Soil mechanics earthquake induced displacement Displacement Recommendation Case study Dam Soil mixing Induced earthquake Seismic effects Shear wall Rehabilitation Construction safety |
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| References | Rice, J. D.; Duncan, J. M. 2009a; 136 Stark, T. D.; Lewis, J. R.; Castro, G.; Walberg, F. C.; Mathews, D. L. 2011; 48 Stark, T. D.; Mesri, G. 1992; 118 Stark, T. D.; Axtell, P. J.; Lewis, J. R.; Dillon, J. C.; Empson, W. B.; Topi, J. E.; Walberg, F. C. 2009; 3 Axtell, P.; Stark, T. D. 2008; 2 Axtell, P.; Stark, T. D.; Dillon, J. C. 2010; 4 Lane, K. S.; Fehrman, R. G. 1960; 86 Stark, T. D.; Beaty, M. H.; Byrne, P. M.; Castro, G.; Walberg, F. C.; Perlea, V. G.; Axtell, P. J.; Dillon, J. C.; Empson, W. B.; Mathews, D. L. 2012; 49 Rice, J. D.; Duncan, J. M. 2009b; 136 Marcuson, W. F.; Hynes, M. E.; Franklin, A. G. 1990; 6 Lane K. S. (e_1_3_1_10_1) 1960; 86 Stark T. D. (e_1_3_1_19_1) 2009; 3 U.S. Army Corps of Engineers (USACE) (e_1_3_1_24_1) 1999 e_1_3_1_22_1 e_1_3_1_23_1 e_1_3_1_25_1 e_1_3_1_9_1 e_1_3_1_14_1 e_1_3_1_8_1 e_1_3_1_13_1 e_1_3_1_12_1 e_1_3_1_20_1 e_1_3_1_11_1 e_1_3_1_21_1 e_1_3_1_5_1 e_1_3_1_18_1 e_1_3_1_4_1 e_1_3_1_17_1 e_1_3_1_7_1 e_1_3_1_16_1 e_1_3_1_6_1 e_1_3_1_15_1 e_1_3_1_3_1 e_1_3_1_2_1 |
| References_xml | – volume: 2 start-page: 11 year: 2008 end-page: 22 article-title: Increase in shear modulus by soil mix and jet grout methods publication-title: Deep Found. Inst. J. contributor: fullname: Axtell, P.; Stark, T. D. – volume: 118 start-page: 1727 year: 1992 end-page: 1747 article-title: Undrained shear strength of liquefied sands for stability analyses publication-title: J. Geotech. Eng. contributor: fullname: Stark, T. D.; Mesri, G. – volume: 6 start-page: 529 year: 1990 end-page: 572 article-title: Evaluation and use of residual strength in seismic safety analysis of embankments publication-title: Earthq. Spectra contributor: fullname: Marcuson, W. F.; Hynes, M. E.; Franklin, A. G. – volume: 48 start-page: 1504 year: 2011 end-page: 1519 article-title: Liquefaction subsurface investigation for Milford Dam publication-title: Can. Geotech. J. contributor: fullname: Stark, T. D.; Lewis, J. R.; Castro, G.; Walberg, F. C.; Mathews, D. L. – volume: 86 start-page: 11 year: 1960 end-page: 34 article-title: Tuttle Creek Dam of rolled shale and dredged sand publication-title: J. Soil Mech. Found. Div. contributor: fullname: Lane, K. S.; Fehrman, R. G. – volume: 3 start-page: 44 year: 2009 end-page: 55 article-title: Soil inclusions in jet grout columns publication-title: Deep Found. Inst. J. contributor: fullname: Stark, T. D.; Axtell, P. J.; Lewis, J. R.; Dillon, J. C.; Empson, W. B.; Topi, J. E.; Walberg, F. C. – volume: 4 start-page: 59 year: 2010 end-page: 65 article-title: Peak and post-peak shear strength of cement-bentonite publication-title: Deep Found. Inst. J. contributor: fullname: Axtell, P.; Stark, T. D.; Dillon, J. C. – volume: 136 start-page: 2 year: 2009a end-page: 16 article-title: Findings of case histories on the long-term performance of seepage barriers in dams publication-title: J. Geotech. Eng. contributor: fullname: Rice, J. D.; Duncan, J. M. – volume: 49 start-page: 323 year: 2012 end-page: 343 article-title: Seismic deformation analysis of Tuttle Creek Dam publication-title: Can. Geotech. J. contributor: fullname: Stark, T. D.; Beaty, M. H.; Byrne, P. M.; Castro, G.; Walberg, F. C.; Perlea, V. G.; Axtell, P. J.; Dillon, J. C.; Empson, W. B.; Mathews, D. L. – volume: 136 start-page: 16 year: 2009b end-page: 25 article-title: Deformation and cracking of seepage barriers in dams due to changes in the pore pressure regime publication-title: J. Geotech. Eng. contributor: fullname: Rice, J. D.; Duncan, J. M. – ident: e_1_3_1_11_1 – ident: e_1_3_1_25_1 – ident: e_1_3_1_8_1 – ident: e_1_3_1_2_1 doi: 10.1179/dfi.2008.002 – ident: e_1_3_1_12_1 – ident: e_1_3_1_4_1 doi: 10.1179/dfi.2010.005 – ident: e_1_3_1_21_1 doi: 10.1139/t11-107 – ident: e_1_3_1_6_1 – ident: e_1_3_1_16_1 – ident: e_1_3_1_9_1 doi: 10.1193/1.1585586 – ident: e_1_3_1_3_1 doi: 10.1061/41023(337)38 – ident: e_1_3_1_13_1 – volume: 86 start-page: 11 issue: 6 year: 1960 ident: e_1_3_1_10_1 article-title: Tuttle Creek Dam of rolled shale and dredged sand publication-title: J. Soil Mech. Found. Div. doi: 10.1061/JSFEAQ.0000309 contributor: fullname: Lane K. S. – ident: e_1_3_1_23_1 – ident: e_1_3_1_20_1 doi: 10.1139/t11-055 – ident: e_1_3_1_15_1 doi: 10.1061/(ASCE)GT.1943-5606.0000241 – volume: 3 start-page: 44 issue: 1 year: 2009 ident: e_1_3_1_19_1 article-title: Soil inclusions in jet grout columns publication-title: Deep Found. Inst. J. contributor: fullname: Stark T. D. – ident: e_1_3_1_7_1 – ident: e_1_3_1_14_1 doi: 10.1061/(ASCE)GT.1943-5606.0000175 – ident: e_1_3_1_17_1 doi: 10.1061/JSFEAQ.0001662 – volume-title: Engineer Manual ER 1110-2-1150 year: 1999 ident: e_1_3_1_24_1 contributor: fullname: U.S. Army Corps of Engineers (USACE) – ident: e_1_3_1_5_1 – ident: e_1_3_1_22_1 doi: 10.1061/(ASCE)0733-9410(1992)118:11(1727) – ident: e_1_3_1_18_1 |
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| Snippet | AbstractThis paper discusses the seismic retrofit of Tuttle Creek Dam near Manhattan, Kansas, including investigations, seismic analyses, design, construction,... This paper discusses the seismic retrofit of Tuttle Creek Dam near Manhattan, Kansas, including investigations, seismic analyses, design, construction, and... |
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| SubjectTerms | Applied sciences Buildings. Public works Case Studies Dam construction Dams and subsidiary installations Earthquake construction Exact sciences and technology Geotechnics Hydraulic constructions Retrofitting Shear walls Slope stability Soil mechanics. Rocks mechanics Stabilization Structure-soil interaction Upstream Walls |
| Title | Seismic Retrofit of Tuttle Creek Dam |
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