From 80d701b06b83b86f2c130919159233cab4da7ac1 Mon Sep 17 00:00:00 2001 From: Pedro Arduino Date: Mon, 10 Jun 2024 16:20:06 -0700 Subject: [PATCH] small change case1-3 --- source/.case_1.rst.swp | Bin 32768 -> 40960 bytes source/.case_1.rst.un~ | Bin 199668 -> 210929 bytes source/case_1.rst | 54 ++++++++++++----------------------------- source/case_1.rst~ | 49 +++++++------------------------------ 4 files changed, 25 insertions(+), 78 deletions(-) diff --git a/source/.case_1.rst.swp b/source/.case_1.rst.swp index 9d9c934c73ca393ef3a8be9bc5dc742c1ed1ad20..112fa682c912dc6bb4cb405f72bad02fd85cebd0 100644 GIT binary patch delta 1481 zcmaLXUrbY19Ki8YC<+2CB~CLN^>ztk;<(}8z@RjdDC!JZ4TdE`3%BhR>nKGi+XIUw zQI`d>DV`Vi!2I*zpSbxaSKW(=^G`_dLE}ia2Tdf=CEKFY_^@Ou!|%D2E=!y@`EdSm z&hMPlbI#CE*3gex#o>z9P0iXWy+ZI639)qeeDPCvN3NKmoCOVzv|Q2;usmJPA@!go zU3QYHwqUwEpEM6LT~_&8d}XaII_y5EISXTSnO5Bhtx1nIn3Khz)7Gfg;%w0Pg!(aGKUE7-I>oKAURW;j?X$kZt!rf+E>rWa)DGvPO(!I zk$IV(#2=*hFp0w$#g_;nfDL#H*?7+0-^68D7{wm!hKY~xAy&YPMb<8(%ps3dIbFiu zA1!QZ{bsi*7d84e*j4|nk0i~g&Mv;bmLXo#hq2ySoavCs%*CnjW~wq7yG_NSZ`B+6 zmc5~^=Ksc3QLMbie&6F8*Os&+t3$V-gcMfkXHj`&^<+B*;Xu3H7Li7jDdhzznMink{w=ZBn`q7RyG@=X(@fQpE4HHoJ|2uq(6nDJCF*;SJ)-K26 KrB>yx*1}h!APWir delta 904 zcmajdPe>F|90%~U_2BdV%=^vzUw9fQ6ao!H z9eqc7SSr~;ND-oynfZp*a95Cip&bAXBwrQEM(Fk1GRgy>`|WC!Y2c0(DThmM*({Um z+(8U?1dOinD4VSMhX39>CDtqRr7K-d%g%SrQ@aq+39da#9^ch~jbC`!Y;4lq2 z=!c`Q6*hwem3pFOScJPDkR`%9nlZ?4r}lvM5pO-i0JkvqFeB?78Aq48ln_@ z3KD&UM{pPBU=k)^6g1d~P1V5c2BH$Q!6G(Ph8qxvEzsngwb~?pbFaK`*pi(KC-zkH zd&jd_7BN3{n>L@)6_!l0GuHSiRTVv=^6F}(sPKn+{9i$pqM29tSAF|`f^3Dyjoqzc zI(HdjCQ-p?qY6K1DBDD!=o6KUd5)Kj*s(uDME8hkvqP-U9vfzwH9ls09U_+b$@}VM z?uU$-<6n&CzxF`ZFwryISppa6KAJ`z%_{BpagH<40}*(Q-s_NqA+TT&G)Ooj*-D5% z7}&9HN9(SkovGgOGd`iGB*qu?PUNflKIE-N8u_51BEM!NB<3s|ol)6uvWntqL(%HbPkF6xx8%t}Z_nQLq$tEmj_ADv727mo98KmfbD8s4oVI zQ3C~I;=??tq!0SwgP6A25Yw3Y&=;|`XkRojsR@nP7%jGqCR+W@%v>0L(p@LHcg{WY zopZi9=gjQhkcHQOD;(&F4S)Dtyd$yb@UBZIFNJ2_eqpKS%U3^oKK0hW2X6m#E!bWC z+WYP&eOG%gI}Ur+!AsyZjfd%n?Z-?aX76#Fq3GmY`GhDLpL%nOotff%nX|ggyUYA* z<_iK^udLLI)nPiEnOWw?7@z2q$&Y!7+~9?Jy9g}SS%ZZq+ZQ!{+eE*L<2W}< z$qSxd`F)00$gk#jl@CbPXjzh%UN4d>56^NxYnE(*`($#S?~uZm#r6hwGSB9WZ96t zt8L0BBKBtbu`&QO9*4>Kt9+m42MhK%bY`%o%op>k{30@VftTE^jDTp8^As+(Adb{ z3%sg28@gTydEYG_tjPx4t=-D@E4)Sk?3nX{=3r0Iw;rnILz%WE-pQKnTHCT+>tR*v zZTd)2jR9mG^7!w(jD_S0OzmN4x$&=Y=m#eX9IepF_sF2=>`D68LlHX;*?;PKafr44 z46(?pJ&O5WBlmcE^xmx9dr2&$;j%vy{&EmG7J2`bXqFA%du`pk|r z0t1Q^!mRg5-qvbt4DFhEWDuOSLSY7L*$Rp5^E8`l5VNs4y%`%XzqKfSI2H|vU_f+_ zCc>dEksL`R-6)-mxHuY1r4!K+cQ|0OgUqm}3>!+bVn>8(b0;)+Cqk;p{|_Uihwb$k z6&iYUotV}ja%E1D|tj(BXQei70#wA~7IIb~si9Iy_6%}|Ue@;#Y_I1lBnPw zM>xu*C^*C3UrWV+P8w~X$jMaK@pd-mYu=%H9mJ9&;%sVd{< fz+2M_!QSxwoF delta 131 zcmezPp6APS9{sS)-1(t-F8NOxn9i3c_3yUH$V(8+)$FhhiEUz5*sKtv`Q+o;53^qW zm_40=fiY?N!NpAadJGH<(LgK+#Ed{>2&6$wAPvI|3~A{d=U9NU3_^`btx1eqlbD!3 UF)=V~Py57lmT`NO0`qin0CRUHKL7v# diff --git a/source/case_1.rst b/source/case_1.rst index a29b707..a256e31 100644 --- a/source/case_1.rst +++ b/source/case_1.rst @@ -28,6 +28,9 @@ The example problems in this project will utilize the scenario, soil profile, an :align: center :figclass: align-center> + Fig. 1. Problem statement. + + .. list-table:: Soil Profile Parameters :widths: 25 25 50 :header-rows: 1 @@ -89,44 +92,13 @@ Where: - :math:`H_{ult}` = Ultimate Settlement - :math:`C_c` = Commpression Index - - :math: `e_o` = Void Ratio - - :math: `C_r` = Recompression Index - - :math: `σ_f'` = Final Vertical Effective Stress - - :math: `σ_o'` = Initial Vertical Effective Stress - - :math: `σ_p'` = Preconsolidation Pressure - - :math: `Δσ'` = Change in Vertical Effective Stress - - :math: `H_o` = Thickness of Compressible Layer - - - - .. math:: - H_{ult} = Ultimate Settlement - - .. math:: - C_c = Commpression Index - - .. math:: - e_o = Void Ratio - - .. math:: - C_r = Recompression Index - - .. math:: - σ_f' = Final Vertical Effective Stress - - .. math:: - σ_o' = Initial Vertical Effective Stress - - .. math:: - σ_p' = Preconsolidation Pressure - - .. math:: - Δσ' = Change in Vertical Effective Stress - - .. math:: - H_o = Thickness of Compressible Layer - - + - :math:`e_o` = Void Ratio + - :math:`C_r` = Recompression Index + - :math:`σ_f'` = Final Vertical Effective Stress + - :math:`σ_o'` = Initial Vertical Effective Stress + - :math:`σ_p'` = Preconsolidation Pressure + - :math:`Δσ'` = Change in Vertical Effective Stress + - :math:`H_o` = Thickness of Compressible Layer For an accurate evaluation of ultimate settlement, it is recommended to subdivide the compressible layer into sublayers. These equations should be applied to each sublayer using corresponding estimations of initial and final effective stress, as well as material properties, particularly preconsolidation pressure. @@ -143,6 +115,9 @@ Finally, Parameter Calibration, allows one to determine an unknown soil paramter :align: center :figclass: align-center> + Fig. 2. Tornado diagram. + + SimCenter Tool Used ------------------- In this project we use the SimCenter tool QuoFEM. QouFEM allows the integration of the finite element method and hazard compuatations with uncertainty quantification tools. Although the tool was originally developed for finite element applications, it can also be utilized with other solution methods. In this project, the settlement calculations are implemented in a simple Python script that propagates settlement evaluations through sublayers to determine the ultimate surface settlement. This python script can be easily uploaded in QuoFEM instead of specifying a FEM application. @@ -162,6 +137,9 @@ There are five different tabs in QuoFEM; four input tabs and one results tab. Th * **EDP tab** - The EDP tab allows one to define quantities of interest to compute (i.e., ultimate settlement). .. figure:: ./images/case1_InputResultsTabs.png + + Fig. 3. QuoFEM interface. + After entering parameters in the input tabs, one may choose run the project on their machine by simply clicking **Run** or to run the project in the cloud by selecting **Run at Design Safe**. When choosing to run a project in the cloud, one must login to Design Safe and specify a maximum run time. To ensure that the project does not expire while waiting in the queue, select a run time of at least 10 hours. diff --git a/source/case_1.rst~ b/source/case_1.rst~ index 6c0dd38..1771415 100644 --- a/source/case_1.rst~ +++ b/source/case_1.rst~ @@ -87,46 +87,15 @@ The magnitude of settlement can be predicted using conventional consolidation th Where: - - :math: `H_{ult}` = Ultimate Settlement - - :math: `C_c` = Commpression Index - - :math: `e_o` = Void Ratio - - :math: `C_r` = Recompression Index - - :math: `σ_f'` = Final Vertical Effective Stress - - :math: `σ_o'` = Initial Vertical Effective Stress - - :math: `σ_p'` = Preconsolidation Pressure - - :math: `Δσ'` = Change in Vertical Effective Stress - - :math: `H_o` = Thickness of Compressible Layer - - - - .. math:: - H_{ult} = Ultimate Settlement - - .. math:: - C_c = Commpression Index - - .. math:: - e_o = Void Ratio - - .. math:: - C_r = Recompression Index - - .. math:: - σ_f' = Final Vertical Effective Stress - - .. math:: - σ_o' = Initial Vertical Effective Stress - - .. math:: - σ_p' = Preconsolidation Pressure - - .. math:: - Δσ' = Change in Vertical Effective Stress - - .. math:: - H_o = Thickness of Compressible Layer - - + - :math:`H_{ult}` = Ultimate Settlement + - :math:`C_c` = Commpression Index + - :math:`e_o` = Void Ratio + - :math:`C_r` = Recompression Index + - :math:`σ_f'` = Final Vertical Effective Stress + - :math:`σ_o'` = Initial Vertical Effective Stress + - :math:`σ_p'` = Preconsolidation Pressure + - :math:`Δσ'` = Change in Vertical Effective Stress + - :math:`H_o` = Thickness of Compressible Layer For an accurate evaluation of ultimate settlement, it is recommended to subdivide the compressible layer into sublayers. These equations should be applied to each sublayer using corresponding estimations of initial and final effective stress, as well as material properties, particularly preconsolidation pressure.