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8 <br />75+00 0+50 <br />4832 4&32 <br />73+50 4932 4832 LEGEND 4828 4828 <br />48n 4828 EXISTING SLOPE C&L 4924 4824 <br />4832 4W PROPOSED GRADING C&L 94+00 <br />4824 <br />48 <br />48 <br />4812 4 <br />481 4812 4812 4812 4812 <br />I <br />48U 4824 BEDROCK CARMA 4 4= 86+50 89+50 4= U32 <br />"28 4928 WATER TABLE CARMA <br />4820 PROPOSED PLATFORM 90+50 <br />4820 4816 4816 4832 4632 411128 4M <br />4924 4V4 85+00 4828 4828 <br />4816 "116 48112 4812 82+00 83+50 48M 411124 4824 <br />4820 4926 4824 4e2A 4828 4828 4836 / / 92+00 <br />4812 4812 4W8 4808 24 �— 4824 4932 W2 4820 41120 <br />4816 4816 on 4M 4M 4M 4828 4828 48 <br />4M M20 "32 4= <br />1 88+19.74 <br />"N 4M 4W 48" 4M 4M U20 4820 Un <br />ca 028 /- - "16 4816 <br />4812 4812 -40-20020 10 4824 48U 4U4 z" 482A 4816 "16 4M 4828 <br />4804 <br />4884 48n 4820 4824 4824 4816 i <br />i 4816 4924 4824 4812 4812 R of <br />40-200 2040 <br />4808 4808 4820 48n 4820 1 4820 4812 4812 4824 4824 <br />78+00 i f I 4a2O <br />-40-20 0 20 40 i 4816 4816 I 4820 41320 "112 4812 48n 48 _J 4= <br />4416 48116 "16 1 <br />79+00 4816 4808 4820 <br />1 4820 <br />X <br />4832 4832 1 48 12 4812 4816 4816 4M 48M 4816 "16 -40-M 020 40 <br />77+27.37 4832 4&32 4812 4812 t 4812 48" AIW4 4804 4812 4812 <br />"16 "16 <br />6 , 1 4812 <br />4832 4832 4824 4824 / 1 40 Q* 480 481" -4 <br />76+20.07 4928 4828 80+00 1 wt 4 - S, 4808 -40-200 2040 2 4812 48 1 <br />/' 4828 4M 4832 4832 4= L V --- " --- I 4M 48" 49" 4M V ? M 40-200 2040 4812 4812 <br />74+77.17 4932 / 402 4828 4828 4824 48 1 4820 4820 4824 40-200 2040 -40M 0 n 40 40-200 2040 4M 48M 4808 4808 <br />n 4828 48" 48" 4804 <br />73+15.67 402 4832 4M 48n 4a24 4824 4820 4820 48" -40-n 0 2040 48" 48" <br />"16 4816 4M "24 93+50 <br />4M 4W <br />4932 4832 4828 48n 4824 4824 4820 4= "16 4816 48M 48M <br />4812 4812 48n 4920 86+00 4796 4796 <br />48n 48n 4824 4824 4820 4820 4816 4816 4812 4812 89+33.92 -40-n 0 20 40 4796 47% <br />4824 4824 4820 4820 4816 4816 4812 4812 4M 4M 4608 4W8 4816 4316 81+50 83+00 84+50 4R8 4V8 40-200 2040 4824 4824 <br />4W4 U12 012 4820 <br />4W4 1�__ 4M 4M 88+00 4M 028 4M <br />4820 4M 4816 4816 4812 4812 48" 48M 488 4804 4828 4M 4828 411128 4828 4M <br />48M 48M 48M 48M 4820 48n 4e24 4a24 4816 4816 <br />4816 4816 4812 4812 4808 48N 48" 48" 40-200 2040 4800 48M 1 % 9 4 4824 4824 4824 4024 4"A 404 482A 487A <br />co go M <br />-20 0 2040 <br />40 4804 4 4816 4816 4824 4M 4812 <br />4812 90+47.24 4812 <br />4812 48M AIM 4NW 48" 4800 48M 4820 4M 4820 4820 4820 411120 4620 4M <br />-40-200 2040 -40-20 0 20 40 91+50 <br />U12 4812 4816 4816 i <br />4M 4W8 <br />40-200 2040 M� <br />4M 4808 4804 -40-20 0 20 40 48" 4816 4816 4816 "16 "16 "16 "16 4816 4&36 4836 4&32 4832 <br />4808 4W8 4812 4812 -40-20 0 20 40 <br />4812 4812 4812 4812 4812 4812 4812 <br />40-200 2040 co U12 4832 4832 4828 "n <br />i <br />Iq At 111 48" 48" <br />go Iq V <br />77+62.97 4M 4M 48M 4M WIM zi 4 4M 4M <br />78+93.26 4M -40-n 0 40 4M 4M "211 4M 4924 4M <br />4M 48" <br />77+00 4M tHH 4= 402 - "32 -40-20 0 n 40 -40-20 0 20 40 40-20 0 U 40 -40-20 0 n 40 -0-" 0 20 40 an U24 4526 4820 <br />76+00 <br />79+50 <br />4M 032 U28 4828 4US U28 4M 4= <br />74+50 4M 016 4816 93+00 <br />73+00 <br />4&12 4&U 49n 4= 4824 4824 4824 4824 48n 48n <br />4& 4812 4812 <br />4832 32 4928 4824 41124 4820 4820 4820 4820 492A 41124 ♦ 85+54.82 4816 4816 4828 4828 <br />4832 4832 4828 4812 012 4= 4M <br />48n 49n 4W8 4= 497A 4111124 4M 4820 4816 4816 4816 4816 48n 4M 81+47.21 82+50 84+20.07 4828 48n 87+50 89+00 48M 48M 4804 48" 4824 4824 <br />4 A <br />82 4824 48n AIM 48n 4828 4820 4820 <br />4824 4924 411120 /,1 4820 4816 4816 4812 4812 4812 4812 4816 4816 4829 4828 4828 4111128 48n 48n 4924 4824 48" 48" 48W 4800 <br />j <br />4M 4820 4824 4824 4824 4324 4816 4816 <br />4820 4820 481: 4816 4812 4812 4W8 4808 4808 4808 48112 4812 4824 M 4800 A I <br />4816 4816 / / - 432A 4924 4824 4824 4824 4820 4820 48 <br />48n 47" 4796 : I <br />to 04 1 1 // 48M AIM 4920 4812 4812 <br />4816 ... 481 4812 4W8 4808 48" 1 at 4804 4884 R r 4MM 48M 48M 48" 1 1 4796 40-200 2040 <br />4816 48" 4M 48M 4820 48" 481 4816 4796 <br />4816 40-200 2040 <br />4812 4812 4816 4816 4816 4808 q 4W8 <br />4812 4812 48M 4W8 48" 48" 48W 48M 48W 48M 48" 49" 4816 481 4816 4816 4816 4816 4812 4812 <br />4M ot 4W8 -40-20 0 20 40 -40-20 0 20 40 <br />o 4604 -40-20 0 20 40 1 4812 41312 4812 4812 48" 48" <br />4508 4W8 4804 40-20 0 2040 : 4W8 48M <br />4 1 V -200 2040 j q 4�D 48 40-20020 40 <br />4804 4804 40 _ 4 q 3 1 r i <br />M 1 4 4W8 4808 <br />48M <br />40-200 2040 -40-20 0 20 40 0 <br />48M 4808 4808 --- 48N 48M 48M 48" 4804 <br />I V 40-20020 40 48" 48" 48" 4804 <br />40-200 2040 40-n 0 20 40 -40-20 0 20 40 40-200 2040 -40-20 0 20 40 90+00 91+00 NOV P 0 2007 <br />Divisin ,, nialion. <br />76+50 77+50 78+50 79+32.rIR 4&16 4= 4832 and safety safety 75+50 4832 4&32 4832 48n %F%r / 48w 48n 4828 92+50 <br />72+50 74+00 4M 4W 028 r U28 4832 AIM U32 4N2 4= 4M <br />= Qw an 4V8 4M + 028 85+50 4M 4824 <br />4 <br />1 1 81+00 82+42.92 84+00 87+00 88+50 48n 4828 4M 4828 <br />4&32 4832 4632 4832 4828 4828 4824, 4824 :t <br />j 4920 48M <br />4928 48n 48U 4824 4824 4824 4828 4828 4828 4828 4828 4828 41117A 24 24 <br />41128 4828 4828 4828 4824 4824 4820 4920 48n /1� 4828 4828 4828 4828 4U8 1 4816 4816 <br />4824 4824 4820 48n <br />48n 48n 4824 4874 4824 4874 4B24 4824 4M 4820 4820 4820 <br />4824 4824 4824 4820 4820 4816 4816 4824 4824 4824 <br />rT --- - / i 4B12 <br />4824 41120 4M 4816 4816 4816 4815 W4 4824 4824 4820 4816 4812 ' / 4M 4M 4820 4820 <br />4M 481 44816 4816 <br />4820 4820 4820 4820 48`16 4816 4812 4812 48n 4820 4820 4M 4M 48" <br />4816 481: 4812 4812 4812 4812 4806 48W <br />4816 4816 4816 4816 4816 4816 4812 481 4812 4" <br />4816 4816 4816 4816 4812 U12 4M "08 4816 4816 4816 4816 4816 4816 tttii <br />4804 48" E <br />4812 481 11� 1 4M 48N 48M 4808 4812 1; 4812 4812 <br />48112 4812 4812 4 4808 M 4808 <br />4812 4812 4812 4812 4808 1 1 ' 4808 4804 4804 4812 4512 4812 4812 4812 4812 1 i <br />0 A 1- 4800 <br />C3 49" fti cli 48U 4804 4808 4808 4 R AINS 4804 4804 8" <br />rt 4808 `1 4= 48" 4W8 A 4M 4808 at 4 <br />t2 4 <br />f$ in Vq V 1 0 <br />,mpg 4804 C-4 48W 4808 48M __W-V M C4 47M 4796 Dt <br />48M 4808 48M 4804 V 4800 48M 48M 4808 <br />4��7 U 4884 4804 48" 4804 <br />-40-200 2040 -40-20 0 20 40 48" -40-20 0 20 40 48" 40-200 2040 4800 -40-20 0 2010 48M -40-200 2040 48M -40-20 0 2010 4800 -40-20 0 20 40 40-200 2040 -4 48 0-20 0 20 40 40-200 2040 40-200 2040 40-200 2040 48" 48M -40-200 2040 48M 48M 40-200 2040 40-20 *4 <br />DRA NQ NO, REFEREN( FLE REVISION DESCRIPTION OF EVISION BY DATE NOTES: <br />PREPARED FOR BAYSHORE POND SOIL-BENTONITE CUTOFF WALL DESIGN <br />BAYSHORE PO <br />c � <br />ND 7BENT <br />6SSS <br />SOIL <br />Perrnit#M-1982-015 Confidential? N PLATFORM CROSS SECTION 72+50 94+00 <br />Class General Documents Type Seq <br />MV4 Inspection Date W A T ER L 0 0 <br />Doc Date (if no date stamp) 11-20-2007 CLIENT: PROJECT BAYSHORE PONDS <br />GEO-CON : <br />Doc Name Soil-Bentonite Cutoff Wall Desiyn: Sheet 3D of 12 0 50 100 0 5 10 <br />From DRMS/Other Carma Bayshore, LLC. MANAGEMENT DEVELOPMENT <br />L S T M <br />JOB: FILE: DRAWN: CHECKED: <br />TO DRMS/Other DRMS 27676SHEET3D.DWG PGQ DP <br />Scale in Feet Scale in Feet CONSULTANTS <br />Recipients t'hGeo-Con T JULY 00 <br />DATE- <br />Horizontal Vertical Denver, CO FJULY 2006 PLAN: SHEET 3D OF 12 <br />