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HomeMy WebLinkAboutNC0004961_RBSS_SARP_Rev0_Appx C_20161219Amec Foster Wheeler Environment & Infrastructure, Inc. December 2016 Duke Energy Coal Combustion Residuals Management Program Riverbend Steam Station Site Analysis and Removal Plan Revision 0 APPENDIX C: TABLES AND SELECT FIGURES FROM PHASE 2 RECONSTITUTION OF ASH POND DESIGNS REPORT (AECOM, 2015) AECOM 919-461-1100 tel C0M 76uu Nerimeter Park Drive 919-461-141b fax Suite 400 Raluiyh, NC 27560 wW W.aecom.com June 24, 2015 Dale Smith Project Manager Duke Energy 526 South Church Street Charlotte, NC 282U2 RE: H NAL Phase Z Reconstitution of Ash Pond Designs Report Coal Combustion Residuals Management Program Riverbend Steam Station Gaston County, North Carolina North Carolina State ID: GASTO-097, GASTO-098, GASTO-099 Dear Mr. Smith: ALCOM (formerly URS Corporation) is pleased to provide Duke Energy with the attached FINAL Report for the Phase 2 Reconstitution of the engineering design for the ash basin impoundments at the Duke Energy Riverbend Station located in Gaston County, North Carolina. The purpose of the Report is to summarize the activities employed to complete the reconstitution of design (including all investigations), present the calculations performed, summarize the results, and document the findings relative to the compliance of the existing ash basins with current regulatory requirements and current engineering standards of practice. Please do not hesitate to call the undeisigned at 919-461-1335 (office)/919-478-7765 (mobile) for John, or 919-461-1344 (office)/919-868-2363 (mobile) foi Gabe, if you have any questions or comments on this submittal_ Sincerely, AECOM Technical Services of North Carolina John A. Project Attachments cc: Gunseli Shareef Gabriel W. Lang, P.P;_ Program Manager TABLES Identification Installation Date Ground Surface Elevation (ft) NAVD88 Depth Boring Drilled (ft bgs) Boring Bottom Elevation (ft) NAVD88 Top of Casing Elevation (ft) NAVD88 Screen Slot Size SRL101 NA 494.27 81.9 unknown 497.63 unk -unk NA SRL102 NA 529.68 85.5 unknown 532.92 unk -unk NA SRL103 NA 510.57 82.3 unknown 510.79 unk -unk NA SRL104 NA 501.38 81.2 unknown 504.48 unk -unk NA SRL105 NA 521.43 81.1 unknown 524.43 unk -unk NA SRL106 NA 500.81 80 unknown 503.99 unk -unk NA P1 unk.728.92 unk.unk.730.87 unk.-unk.unk. P2 unk.694.54 unk.unk.696.49 unk.-unk.unk. P3 unk.675.66 unk.unk.678.91 unk.-unk.unk. P4 unk.718.81 unk.unk.722.03 unk.-unk.unk. P5 unk.682.98 unk.unk.685.64 unk.-unk.unk. P6 unk.660.90 unk.unk.664.49 unk.-unk.unk. MW-1S 11/14/2006 651.16 15 636.2 653.90 5 -15 0.01 MW-1D 11/13/2006 650.44 62 588.4 653.36 54 -62 0.01 MW-2S 12/7/2006 712.70 25 687.7 714.84 15 -25 0.01 MW-2D 12/7/2006 712.98 88 625.0 715.54 83 -88 0.01 MW-3S 11/28/2006 652.81 14 638.8 655.36 4 -14 0.01 MW-3D 11/30/2006 652.43 37.5 614.9 654.88 29.5 -34.5 0.01 MW-4S 11/15/2006 665.24 20 645.2 667.62 10 -20 0.01 MW-4D 11/31/2006 665.79 60 605.8 668.27 55 -60 0.01 MW-5S 11/15/2006 646.93 15 631.9 649.44 5 -15 0.01 MW-5D 12/5/2006 647.26 80 567.3 649.93 74 -79 0.01 MW-6S 11/15/2006 647.63 15 632.6 650.23 5 -15 0.01 MW-6D 11/17/2006 647.92 74.5 573.4 650.74 69.5 -74.5 0.01 MW-7SR(1,2)11/10/2010 765 68 697.0 767 43 -63 0.01 MW-7D(1,2)12/4/2006 765 100 665.0 767 95 -100 0.01 MW-8S(1)11/3/2010 NM 60 unk.755.40 35 -55 0.01 MW-8I(1)10/26/2010 NM 120 unk.754.74 98 -118 0.01 MW-8D(1)10/28/2010 NM 200 unk.756.03 156 -166 0.01 MW-9(1)11/11/2010 NM 30 unk.651.84 13 -28 0.01 MW-10(1)11/10/2010 NM 25 unk.654.37 3 -18 0.01 MW-11SR(1)12/21/2010 NM 30.5 unk.693.30 15 -30 0.01 MW-11DR(1)12/20/2010 NM 45.5 unk.693.18 35 -41 0.01 MW-13(1)11/10/2010 NM 25 unk.654.11 3 -18 0.01 MW-14(1)11/4/2010 NM 40 unk.662.84 3 -18 0.01 MW-15(1)2/18/2011 NM 18 unk.657.12 3 -18 0.01 P100 7/9/2014 728.93 61 667.93 731.80 55 -60 0.01 P101 7/9/2014 694.69 35 659.69 697.61 30 -35 0.01 P102 7/9/2014 694.56 57 637.56 697.43 52 -57 0.01 P103 7/9/2014 675.39 19 656.39 678.08 14 -19 0.01 P104 7/10/2014 675.37 43 632.37 678.31 38 -43 0.01 P105 7/11/2014 718.58 34 684.58 721.30 29 -34 0.01 P106 7/11/2014 654.03 15 639.03 657.25 10 -15 0.01 P107 7/10/2014 653.71 25 628.71 656.34 20 -25 0.01 P108 7/10/2014 718.68 42 676.68 721.83 37 -42 0.01 P109 7/11/2014 683.04 30 653.04 685.88 25 -30 0.01 P110 7/11/2014 683.04 51 632.04 685.84 45 -50 0.01 P111 7/11/2014 650.18 12 638.18 652.98 7 -12 0.01 P112 7/11/2014 650.12 30 620.12 652.87 24 -29 0.01 P113 7/10/2014 719.02 31 688.02 721.89 25 -30 0.01 P114 7/14/2014 677.76 15 662.76 680.56 10 -15 0.01 P115 7/14/2014 677.76 25.5 652.26 680.54 20 -25 0.01 P-200 11/19/2014 728.95 70 658.95 664.95 64 -69 0.01 P-201 11/19/2014 694.08 60 634.08 640.08 54 -59 0.01 P-202 11/19/2014 694.15 40 654.15 660.15 34 -39 0.01 P-203 11/19/2014 676.05 35 641.05 647.05 29 -34 0.01 P-204 11/19/2014 676.15 17 659.15 665.15 11 -16 0.01 ft - feet bgs - below ground surface NAVD88 - North American Vertical Datum of 1988 unk. - Unknown well construction details (1) Well location & elevation survey not performed by URS; horizontal datum unknown TABLE 3.2 - WELL AND PIEZOMETER CONSTRUCTION SUMMARY (2) Groundwater surface elevation obtained from Arcadis, 2007. Letter report, Subject: Ash Basin Drilling Services for: Riverbend Steam Station, Mount Holly, North Carolina. January 7, 2007. Top of casing is estimated assuming a 2 foot above ground riser pipe Screen Interval (ft bgs) Boring Depth (ft)Location Material LL PL PI Moisture Content (%)% fines USCS Class Wet Unit Weight (pcf)Void Ratio Hydraulic Conductivity (cm/s) Pinhole Dispersion 4-6 Dam #2 Foundation 63 49 14 41 67 MH 109 1.23 ------ 8-10 Dam #2 Foundation 64 46 18 27 43 SM 116 0.67 ------ B-117 2-4 Dam #2 Foundation ---------24 ------117 0.77 ------ 20-22 Dam #2 Embankment Fill ---------37 ------116 0.99 ------ 38-40 Dam #2 Embankment Fill ---------34 ------118 0.92 ------ 19-21 Dam #1 Embankment Fill ------------96.1 --------------- 24-26 Dam #1 Embankment Fill 58 43 15 37 82.5 MH ------------ 39-41 Dam #1 Embankment Fill 65 47 18 34 79 MH ------------ 54-56 Dam #1 Embankment Fill 64 32 32 30 75 MH ------------ 66-68 Dam #1 Embankment Fill 48 38 10 40 68 ML 114 ---6.90E-06 --- 71-73 Dam #1 Foundation 48 39 9 42 67 ML-MH ------------ 78-80 Dam #1 Foundation 44 35 9 37 46 SM 113 1.07 ------ 99-101 Dam #1 Foundation 36 28 8 30 49 SM ------------ 4-6 Dam #1 Embankment Fill 57 42 15 28 64 MH ------------ 12-14 Dam #1 Embankment Fill 57 33 24 24 67 MH 124 0.70 ------ 19-21 Dam #1 Embankment Fill ---------24 72 ---127.9 --------- 30-32 Dam #1 Embankment Fill 56 30 26 16 50 SM ------------ 43-45 Dam #1 Embankment Fill 49 37 12 30 66 ML-MH ------------ 49-51 Dam #1 Foundation 48 36 12 43 68 ML-MH ------------ 58-60 Dam #1 Foundation 48 40 8 37 66 ML 115 1.01 ------ 79-81 Dam #1 Foundation 37 24 13 24 57 ML-CL ------------ 10-12 Dam #1 Embankment Fill 42 22 20 16 48 SC ------------ 14-16 Dam #1 Embankment Fill 73 38 35 24 73 MH 127.6 --- 19-21 Dam #1 Embankment Fill 53 28 25 23 89 CH 122 0.75 ---ND-1 30-32 Dam #1 Embankment Fill 55 29 26 36 41 SC 113 1.09 ------ 39-41 Dam #1 Foundation 55 41 14 32 81 MH 122.3 --------- 44-46 Dam #1 Foundation 31 32 28 4 71 ML 124.7 --------- Table 3.3 - URS Laboratory Testing Summary - Riverbend Station B-204 B-118 B-116 B-202 B-203 FIGURES STATION COAL PILE (NOTE 1) DRY ASH STACK PRIMARY ASH POND SECONDARY ASH POND MT. ISLAND LAKE CINDER PIT HORSESHOE BEND BEACH ROAD NC RT16 DUKE ENERGY RIVERBEND STEAM STATION PHASE 2 RECONSTITUTED DESIGN SITE PLAN 1 N 200010000 FEET DAM #2 EXISTING RISER EXISTING RISER PRIMARY ASH BASIN DUKE ENERGY RIVERBEND STEAM STATION PHASE 2 RECONSTITUTED DESIGN ASH BASIN LAYOUT PLAN 2 N 8004000 FEET P-104 P-203/204 P-201/202 P-200 B-201 DAM #2 MW-2D MW-2S MW-7D MW-7S MW-7SR EXISTING RISER EXISTING RISER PRIMARY ASH BASIN DUKE ENERGY RIVERBEND STEAM STATION PHASE 2 RECONSTITUTED DESIGN ASH BASIN BORING AND PIEZOMETER PLAN 10 N 8004000 FEET S T A . 6 + 5 0 S T A . 1 0 + 0 0 D A M # 1 D A M # 1 102030TENTHSINCHES123 D W G S I Z E R E V I S I O N F O R D R A W I N G N O . T I T L E F I L E N A M E : D W G T Y P E : J O B N O : D A T E : S C A L E : D E S : D F T R : C H K D : E N G R : A P P D : AFEDCB 234 5 7 8 9 6 4 5 7 8 9 1 0 6 A F C B 2 4 . 0 " x 3 5 . 5 " A R C H D R I V E R B E N D S T E A M S T A T I O N A 3 1 8 3 5 2 5 6 6 / 2 3 / 1 5 M D W M D W J A B J A B J A B R E V I S I O N A A P H A S E 2 R E C O N S T I T U T E D D E S I G N C R I T I C A L C R O S S S E C T I O N S D A M # 1 F I G U R E N O 1 1 S l o p e R e p a i r w i t h C r o s s S e c t i o n s 1 " = 2 0 ' C V L F I G U R E N O 1 1 F I G U R E N O 1 1 S T A . 2 6 + 3 8 S T A . 3 8 + 7 8 S T A . 3 9 + 2 0 D A M # 2 D A M # 2 102030TENTHSINCHES123 D W G S I Z E R E V I S I O N F O R D R A W I N G N O . T I T L E F I L E N A M E : D W G T Y P E : J O B N O : D A T E : S C A L E : D E S : D F T R : C H K D : E N G R : A P P D : AFEDCB 234 5 7 8 9 6 4 5 7 8 9 1 0 6 A F C B 2 4 . 0 " x 3 5 . 5 " A R C H D R I V E R B E N D S T E A M S T A T I O N J A B J A B J A B R E V I S I O N A A S l o p e R e p a i r w i t h C r o s s S e c t i o n s 1 " = 2 0 ' C V L F I G U R E N O 1 2 F I G U R E N O 1 2 3 1 8 3 5 2 5 6 6 / 2 3 / 1 5 M D W M D W A P H A S E 2 R E C O N S T I T U T E D D E S I G N C R I T I C A L C R O S S S E C T I O N S D A M # 2 F I G U R E N O 1 2 S T A . 4 0 + 2 1 D A M # 2 102030TENTHSINCHES123 D W G S I Z E R E V I S I O N F O R D R A W I N G N O . T I T L E F I L E N A M E : D W G T Y P E : J O B N O : D A T E : S C A L E : D E S : D F T R : C H K D : E N G R : A P P D : AFEDCB 234 5 7 8 9 6 4 5 7 8 9 1 0 6 A F C B 2 4 . 0 " x 3 5 . 5 " A R C H D R I V E R B E N D S T E A M S T A T I O N A J A B J A B J A B R E V I S I O N A A S l o p e R e p a i r w i t h C r o s s S e c t i o n s 1 " = 2 0 ' C V L 3 1 8 3 5 2 5 6 6 / 2 3 / 1 5 M D W M D W F I G U R E N O 1 3 F I G U R E N O 1 3 P H A S E 2 R E C O N S T I T U T E D D E S I G N C R I T I C A L C R O S S S E C T I O N S D A M # 2 F I G U R E N O 1 3 S T A . 1 0 9 + 1 9 S T A . 1 1 5 + 7 8 I N T E R M E D I A T E D A M I N T E R M E D I A T E D A M 102030TENTHSINCHES123 D W G S I Z E R E V I S I O N F O R D R A W I N G N O . T I T L E F I L E N A M E : D W G T Y P E : J O B N O : D A T E : S C A L E : D E S : D F T R : C H K D : E N G R : A P P D : AFEDCB 234 5 7 8 9 6 4 5 7 8 9 1 0 6 A F C B 2 4 . 0 " x 3 5 . 5 " A R C H D R I V E R B E N D S T E A M S T A T I O N A J A B J A B J A B R E V I S I O N A A S l o p e R e p a i r w i t h C r o s s S e c t i o n s 1 " = 2 0 ' C V L 3 1 8 3 5 2 5 6 6 / 2 3 / 1 5 M D W M D W F I G U R E N O 1 4 F I G U R E N O 1 4 P H A S E 2 R E C O N S T I T U T E D D E S I G N C R I T I C A L C R O S S S E C T I O N S I N T E R M E D I A T E D A M F I G U R E N O 1 4