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HomeMy WebLinkAboutNC0000396_SARP_Rev 0_ Appendix A_20161219Amec Foster Wheeler Environment & Infrastructure, Inc. December 2016 Duke Energy Coal Combustion Residuals Management Program Asheville Steam Electric Generating Plant Site Analysis and Removal Plan Revision 0 Appendix A – Waste Inventory Analysis (1964 Ash Basin) Asheville Steam Station – Waste Strategy Analysis WBS 2, Rev. 1A AMEC Project No. 7810-14-0162.02 January 12, 2015 1 CALCULATION COVER SHEET Project Asheville Steam Station – Waste Strategy Analysis Calc/Analysis No. WBS 2 AMEC Project No. 7810-14-0162.02 Title Estimate of Coal Combustion Residuals (CCR) Quantity Client Contract NA Sheet No. 1 of 5 Discipline Civil Computer Program AutoDesk Civil 3D 2013 Version / Release No. N/A Purpose and Objective Estimate the quantity of CCR located on Asheville Steam Station property (excluding material that is currently being removed). Quality Assurance Conditions (e.g. safety classification) NA Summary of Conclusion Based on the assumptions described in this calculation, the quantity of CCR on the Asheville Steam Station site (excluding material that is currently being removed) was estimated to be approximately 2,113,000 cubic yards (2.1 million dry tons). Revision Log Rev. No. Revision Description 00 Initial issue. 1A Refined volume calculations. Separated from landfill size calculations. Sign Off Rev. No. Originator (Print) Sign / Date Verification Method Verifier (Print) Sign / Date Technical Lead (Print) Sign / Date 00 Design Review Chris Jordan, EI Thomas B. Maier, PE Ken Daly, PE 1A 1/12/2015 1/12/2015 1/14/2015 Additional Reviewer (Print) Signature Date NA Asheville Steam Station – Waste Strategy Analysis WBS 2, Rev. 1A AMEC Project No. 7810-14-0162.02 January 12, 2015 2 RECORD OF REVISION Revision No. Date Revisions Made 00 11/05/2014 Initial issue 1A 1/12/2015 Refined volume calculations. Separated from landfill size calculations. Asheville Steam Station – Waste Strategy Analysis WBS 2, Rev. 1A AMEC Project No. 7810-14-0162.02 January 12, 2015 3 TABLE OF CONTENTS CALCULATION COVER SHEET ................................................................................................................ 1  RECORD OF REVISION .......................................................................................................................... 2  1.0 OBJECTIVE ................................................................................................................................ 4  2.0 ASSUMPTIONS .......................................................................................................................... 4  3.0 APPROACH ............................................................................................................................... 4  4.0 CONCLUSIONS .......................................................................................................................... 5  LIST OF TABLES Table 1: Summary of Areas Containing Ash Included in this Analysis ....................................................... 5    Asheville Steam Station – Waste Strategy Analysis WBS 2, Rev. 1A AMEC Project No. 7810-14-0162.02 January 12, 2015 4 1.0 OBJECTIVE The objective of this calculation is to estimate the quantity of coal combustion residuals (CCR) located on Asheville Steam Station property (excluding material that is currently being removed). The areas containing CCR are shown on the attached Figure 1. 2.0 ASSUMPTIONS The following assumptions and limitations are noted.  Based on data gathered from several coal burning plants, the following typical CCR properties are assumed: Material Dry Unit Weight (tons/cy) Moisture Content (%) Moist Unit Weight (%) CCR in Wet Ponds 0.8 50% 1.2 CCR in Ash Fills 1.0 20% 1.2  Since the 1964 Ash Pond has not impounded water for many years and there has been significant dry stacking/filling on the pond, it is assumed to have properties closer to those in the second row of the above table. 3.0 APPROACH Material quantities were estimated using a method that consists of utilizing historical ground surface topographic information from historic design drawings or USGS mapping, and using AutoCAD Civil 3D software to compare the historic ground surface with current conditions. Quantity of Material Within the 1964 Ash Basin (see attached Figures 2.1 through 2.5) The area of the 1964 Ash Basin is approximately 41 acres (See Table 1). The quantity of material within the 1964 Ash Basin was estimated using AutoCAD Civil 3D software. An approximate pre-fill ground surface was generated based on the approximate topographic information shown in Brown and Root Drawing G-221-B Rev. B dated 7/29/1971 (topography dated 12/30/1969). The pre-fill grades were compared to 4/3/2012 topography obtained from the North Carolina Flood Plain Mapping LIDAR geodatabase. In addition, a surface was generated to approximate the 2013 settling basin excavation by Charah based on the drawing entitled, “ ’64 Rim Ditch & Settling Basin Improvements – Layout/Grading Plan” revised 1/29/13. The estimated quantity of material within the 1964 Ash Basin is provided in Table 1. Data Limitations The following data limitations, which are potential sources of inaccuracies in the calculated volumes, have been identified: Drawing G-221-B used for the 1964 basin bottom topography shows standing water which decreases the calculated pond volume, and the volume of FGD wastewater pond material that may need to be disposed separately is not known. Asheville Steam Station – Waste Strategy Analysis WBS 2, Rev. 1A AMEC Project No. 7810-14-0162.02 January 12, 2015 5 4.0 CONCLUSIONS Based on the assumptions described in this calculation, the quantity of CCR in the Asheville Steam Station 1964 Ash Basin was estimated to be approximately 2,113,000 cubic yards (2,113,000 dry tons). The estimated moist weight of CCR is also reported in Table 1 because it is a more realistic representation of the weight of material to be handled during removal and construction activities. Moist unit weight is calculated based on the assumed dry unit weight and moisture content noted herein. Table 1: Summary of Areas Containing Ash Included in this Analysis Description Surface Area (ac) Volume (cy) Estimated Dry Unit Weight (ton/cy) Estimated Dry Weight (tons) Estimated Moisture Content (%) Estimated Moist Unit Weight (ton/cy) Estimated Moist Weight* (tons) 1964 Ash Basin 41.4 2,113,000 1.0 2,113,000 20% 1.2 2,535,600 TOTAL 41.4 2,113,000 2,113,000 2,536,000 *Moist unit weight is used for construction cost estimating purposes. R E V I E W E D B Y : S C A L E : D A T U M ( H O R - V E R ) : P R O J E C T I O N : T I T L E : P R O J E C T : D A T E : F I G U R E N O . R E V I S I O N N O . P R O J E C T N O . : D R A W N B Y : C L I E N T : 2 8 0 1 Y O R K M O N T R O A D , S U I T E 1 0 0 C H A R L O T T E , N C 2 8 2 0 8 T E L : ( 7 0 4 ) 3 5 7 - 8 6 0 0 F A X : ( 7 0 4 ) 3 5 7 - 8 6 3 8 L I C E N S U R E : N C E N G : F - 1 2 5 3 N C G E O L O G Y : C - 2 4 7 A M E C E n v i r o n m e n t & I n f r a s t r u c t u r e , I n c . A S N O T E D W A S T E S T R A T E G Y A N A L Y S I S A S H E V I L L E - A S H I N V E N T O R Y 7 8 1 0 1 4 0 1 6 2 . 0 2 0 D E C . 2 0 1 4 N A D 8 3 - N A V D 8 8 N C 8 3 F M A T M A S H A R E A S A E R I A L I M A G E R Y A S H E V I L L E S T E A M S T A T I O N , B U N C O M B E C O . , N C 1 0 2 5 0 ' 1 2 5 ' 1 9 6 4 A S H B A S I N REFERENCES1.HIGH RESOLUTION 2010 AERIAL IMAGERY WAS OBTAINED FROM WWW.ESRI.COM.FRENCH BROAD RIVERNOTES:1.ASH BOUNDARIES ARE APPROXIMATE.2.THE 1982 ASH BASIN IS NOT INCLUDED IN THIS INVENTORY. ASH IS CURRENTLY BEING REMOVED FROM THIS B A S I N F O R B E N E F I C I A L U S E . 1 9 8 2 A S H B A S I N ( S E E N O T E 2 ) 21602130 21 2 0 2 1 4 0 2 1 9 0 212 0 2130 2 1 0 0 2 1 1 0 2120 2 1 5 0 2 1 4 0 2 1 2 0 2 0 9 2 2 1 5 0 2 1 4 0 2 1 5 0 2 1 5 4 R E V I E W E D B Y : S C A L E : D A T U M ( H O R - V E R ) : P R O J E C T I O N : T I T L E : P R O J E C T : D A T E : F I G U R E N O . R E V I S I O N N O . P R O J E C T N O . : D R A W N B Y : C L I E N T : 2 8 0 1 Y O R K M O N T R O A D , S U I T E 1 0 0 C H A R L O T T E , N C 2 8 2 0 8 T E L : ( 7 0 4 ) 3 5 7 - 8 6 0 0 F A X : ( 7 0 4 ) 3 5 7 - 8 6 3 8 L I C E N S U R E : N C E N G : F - 1 2 5 3 N C G E O L O G Y : C - 2 4 7 A M E C E n v i r o n m e n t & I n f r a s t r u c t u r e , I n c . A S N O T E D W A S T E S T R A T E G Y A N A L Y S I S A S H E V I L L E - A S H I N V E N T O R Y 7 8 1 0 1 4 0 1 6 2 . 0 2 0 D E C . 2 0 1 4 N A D 8 3 - N A V D 8 8 N C 8 3 F M A T M 1 9 6 4 A S H B A S I N O R I G I N A L T O P O G R A P H Y A S H E V I L L E S T E A M S T A T I O N , B U N C O M B E C O . , N C 2 . 1 NOTES:1.BOXED CONTOUR LABELS HAVE BEEN ADDED FOR CLARITY.2.CONTOUR ELEVATIONS ARE ASSUMED TO REFERENCE NGVD29 VERTICAL DATUM. 0 2 5 0 ' 1 2 5 ' REFERENCES1.'5$:,1*12*%(17,7/('³$6+',6326$/321' '$0*(1(5$//$<287´35(3$5('%<&$52/,1$3 2 : ( 5   / , * + 7  & 2 0 3 $ 1 <   5 ( 9   %   ' $ 7 ( '           9 ( 5 7 , & $ /  ' $ 7 8 0 NOT INDICATED. N G V D 2 9 2 1 2 5 2 1 2 0 2130 2135 2140 2145 2 1 7 0 2 1 6 0 215 5 2 1 8 0 2 1 7 5 2 1 7 0 2 1 6 5 2 1 4 5 2 1 2 0 2 1 1 5 2 1 1 0 2 1 0 5 2 1 0 0 2 0 9 5 2 0 9 0 20 9 5 2 1 1 0 2 1 2 0 2 1 3 0 2 1 3 5 2 1 4 0 2 1 4 5 2 1 1 0 2 1 4 0 2 1 3 5 2 1 3 0 2 1 2 5 2 0 9 0 2 1 0 0 2135 2145 213021552095 2 1 9 0 2 1 8 0 2 1 7 5 2 1 8 5 2 1 9 5 2 1 5 5 2 1 7 5 2 1 8 0 2165 2 1 2 5 R E V I E W E D B Y : S C A L E : D A T U M ( H O R - V E R ) : P R O J E C T I O N : T I T L E : P R O J E C T : D A T E : F I G U R E N O . R E V I S I O N N O . P R O J E C T N O . : D R A W N B Y : C L I E N T : 2 8 0 1 Y O R K M O N T R O A D , S U I T E 1 0 0 C H A R L O T T E , N C 2 8 2 0 8 T E L : ( 7 0 4 ) 3 5 7 - 8 6 0 0 F A X : ( 7 0 4 ) 3 5 7 - 8 6 3 8 L I C E N S U R E : N C E N G : F - 1 2 5 3 N C G E O L O G Y : C - 2 4 7 A M E C E n v i r o n m e n t & I n f r a s t r u c t u r e , I n c . A S N O T E D W A S T E S T R A T E G Y A N A L Y S I S A S H E V I L L E - A S H I N V E N T O R Y 7 8 1 0 1 4 0 1 6 2 . 0 2 0 D E C . 2 0 1 4 N A D 8 3 - N A V D 8 8 N C 8 3 F M A T M 1 9 6 4 A S H B A S I N D I G I T I Z E D B A S E C O N T O U R S A S H E V I L L E S T E A M S T A T I O N , B U N C O M B E C O . , N C 2 . 2 0 2 5 0 ' 1 2 5 ' NOTES:1.(2FT) CONTOURS WERE DIGITIZED FROM HISTORICAL TOPO SHOWN IN FIGURE 2.1 (REFERENCE 1). INTERPOL A T E D ( 5 F T ) C O N T O U R S A R E S H O W N H E R E F O R C L A R I T Y P U R P O S E . 2.A DATUM SHIFT OF -0.13 FT WAS APPLIED TO CONVERT ELEVATIONS FROM NGVD29 TO NAVD88.3.THIS IS AN ACCURATE REPRESENTATION OF THE CONTOURS SHOWN IN REFERENCE 1 AND IS AN APPROXIMA T I O N O F T H E B O T T O M O F A S H B A S I N C O N T O U R S B A S E D O N T H E BEST INFORMATION AVAILABLE TO AMEC IN DECEMBER 2014.REFERENCES1.'5$:,1*12*%(17,7/('³$6+',6326$/321' '$0*(1(5$//$<287´35(3$5('%<&$52/,1$3 2 : ( 5   / , * + 7  & 2 0 3 $ 1 <   5 ( 9   %   ' $ 7 ( '           9 ( 5 7 , & $ /  ' $ 7 8 0 CONVERTED FROM NGVD29 TO NAVD88. A S H B A S I N L I M I T ( B A S E D O N H I S T O R I C A L T O P O G R A P H Y ) 2170 21 5 0 2160 2150 2150 2150 2150 2 1 8 0 2 1 7 0 2 1 6 0 2 1 6 0 2 1 6 0 2 1 7 0 2160 2160 2 1 7 0 2 1 7 0 2 1 5 0 215 6 2 1 5 4 21542154 2146 2168 2154 2152 2160 21622164 2 1 6 8 2 1 6 8 2 1 6 8 2 1 6 8 215021102060 2160 2166 216 8 2 1 7 0 2 1 7 0 2 1 6 8 21582140213021202150 0+005+00 1 0 + 0 0 1 5 + 0 0 2 0 + 0 0 2 2 + 0 0 2 1 7 0 2 1 6 0 2 1 6 0 2 1 5 0 2 1 4 0 2 1 3 8 2 1 3 6 2 1 3 4 2 1 4 0 2 1 5 0 2150 2160 2160 2 1 5 0 2160 R E V I E W E D B Y : S C A L E : D A T U M ( H O R - V E R ) : P R O J E C T I O N : T I T L E : P R O J E C T : D A T E : F I G U R E N O . R E V I S I O N N O . P R O J E C T N O . : D R A W N B Y : C L I E N T : 2 8 0 1 Y O R K M O N T R O A D , S U I T E 1 0 0 C H A R L O T T E , N C 2 8 2 0 8 T E L : ( 7 0 4 ) 3 5 7 - 8 6 0 0 F A X : ( 7 0 4 ) 3 5 7 - 8 6 3 8 L I C E N S U R E : N C E N G : F - 1 2 5 3 N C G E O L O G Y : C - 2 4 7 A M E C E n v i r o n m e n t & I n f r a s t r u c t u r e , I n c . A S N O T E D W A S T E S T R A T E G Y A N A L Y S I S A S H E V I L L E - A S H I N V E N T O R Y 7 8 1 0 1 4 0 1 6 2 . 0 2 0 D E C . 2 0 1 4 N A D 8 3 - N A V D 8 8 N C 8 3 F M A T M 1 9 6 4 A S H B A S I N R E C E N T T O P O G R A P H Y A S H E V I L L E S T E A M S T A T I O N , B U N C O M B E C O . , N C 2 . 3 0 2 5 0 ' 1 2 5 ' NOTES1.ASH BOUNDARIES ARE APPROXIMATE.ASH BASIN LIMIT(BASED ON AERIAL IMAGERY)ASH BASIN CROSSSECTION ALIGNMENT(SEE FIGURE 2.5)REFERENCES1.NORTH CAROLINA FLOODPLAIN MAPPING PROGRAM (NCFMP) LIDAR BARE EARTH MASS POINTS PUBLISHED IN A P R I L 2 0 0 6 . V E R T I C A L D A T U M N A V D 8 8 . 2.'5$:,1*12(17,7/('³ 5,0',7&+ 67,//,1*%$6,1,03529(0(176/$<287*5$',1*3/$1´5(9   3 5 ( 3 $ 5 ( '  % <  ) 5 $ 1 . / , 1  6   & 5 $ , *   3 (   ' $ 7 ( '          9 ( 5 7 , & $ / DATUM NAVD88. S T I L L I N G B A S I N G R A D I N G L I M I T ( R E F E R E N C E 2 ) 8 0 6 0 50 4 0 8 0 6 0 3 0 4 0 40 3234 2420 3 0 2 0 2 0 50 4 0 1 0 2 2 2 0 2 0 30 3 0 2 0 3 0 4 0 50 50 60 60 7070 10 3 2 3 4 36 38 38 0+005+00 1 0 + 0 0 1 5 + 0 0 2 0 + 0 0 2 2 + 0 0 4 0 3 0 2 0 1 0 2 2 0 3 0 5 0 60 5 0 3 0 4 0 30 30 2 0 3 0 5 0 - 2 -6 - 2 - 2 1 0 R E V I E W E D B Y : S C A L E : D A T U M ( H O R - V E R ) : P R O J E C T I O N : T I T L E : P R O J E C T : D A T E : F I G U R E N O . R E V I S I O N N O . P R O J E C T N O . : D R A W N B Y : C L I E N T : 2 8 0 1 Y O R K M O N T R O A D , S U I T E 1 0 0 C H A R L O T T E , N C 2 8 2 0 8 T E L : ( 7 0 4 ) 3 5 7 - 8 6 0 0 F A X : ( 7 0 4 ) 3 5 7 - 8 6 3 8 L I C E N S U R E : N C E N G : F - 1 2 5 3 N C G E O L O G Y : C - 2 4 7 A M E C E n v i r o n m e n t & I n f r a s t r u c t u r e , I n c . A S N O T E D W A S T E S T R A T E G Y A N A L Y S I S A S H E V I L L E - A S H I N V E N T O R Y 7 8 1 0 1 4 0 1 6 2 . 0 2 0 D E C . 2 0 1 4 N A D 8 3 - N A V D 8 8 N C 8 3 F M A T M 1 9 6 4 A S H B A S I N I S O P A C H A S H E V I L L E S T E A M S T A T I O N , B U N C O M B E C O . , N C 2 . 4 0 2 5 0 ' 1 2 5 ' NOTES:1.COAL COMBUSTION RESIDUALS (CCR) VOLUME WAS CALCULATED USING AUTOCAD CIVIL 3D SOFTWARE.2.RED CONTOURS, IF PRESENT, INDICATE THAT THE BASE SURFACE IS AT HIGHER ELEVATION THAN THE COMPARISON S U R F A C E . T H I S M A Y B E D U E T O R E G R A D I N G A N D / O R L I M I T A T I O N S O F DATA QUALITY.REFERENCES:1.'5$:,1*12*%(17,7/('³$6+',6326$/321' '$0*(1(5$//$<287´35(3$5('%<&$52/,1$32:(5  / , * + 7  & 2 0 3 $ 1 <   5 ( 9   %   ' $ 7 ( '           9 ( 5 7 , & $ /  ' $ 7 8 0  & 2 1 9 ( 5 7 ( ' FROM NGVD29 TO NAVD88.2.NORTH CAROLINA FLOODPLAIN MAPPING PROGRAM (NCFMP) LIDAR BARE EARTH MASS POINTS PUBLISHED IN APRIL 2 0 0 6 . V E R T I C A L D A T U M N A V D 8 8 . 3.'5$:,1*12(17,7/('³ 5,0',7&+ 67,//,1*%$6,1,03529(0(176/$<287*5$',1*3/$1´5(935(3 $ 5 ( '  % <  ) 5 $ 1 . / , 1  6   & 5 $ , *   3 (   ' $ 7 ( '          9 ( 5 7 , & $ /  ' $ 7 8 0  1 $ 9 '    LEGENDCONTOUR OF "CUT" THICKNESS (SEE NOTE 2)CONTOUR OF CCR THICKNESS (APPROXIMATE)ASH BASIN LIMIT(BASED ON AERIAL IMAGERY) M A X I M U M C C R T H I C K N E S S I S A P P R O X I M A T E L Y 8 5 F T . ASH BASIN CROSSSECTION ALIGNMENT(SEE FIGURE 2.5) S T I L L I N G B A S I N G R A D I N G L I M I T ( R E F E R E N C E 3 ) ELEVATION (FT) ELEVATION (FT) S T A T I O N S ( F T ) A S H E V I L L E S T E A M S T A T I O N 1 9 6 4 A S H B A S I N 2080 2090 2100 2110 2120 2130 2140 2150 2160 2170 2180 2190 2 0 8 0 2 0 9 0 2 1 0 0 2 1 1 0 2 1 2 0 2 1 3 0 2 1 4 0 2 1 5 0 2 1 6 0 2 1 7 0 2 1 8 0 2 1 9 0 0+001+002+003+004+005+006+00 7+00 8+00 9+00 10+00 11+00 12+00 13+00 14+00 15+00 16+00 17+00 18+00 19+00 20+00 21+00 22+00 R E V I E W E D B Y : S C A L E : D A T U M ( H O R - V E R ) : P R O J E C T I O N : T I T L E : P R O J E C T : D A T E : F I G U R E N O . R E V I S I O N N O . P R O J E C T N O . : D R A W N B Y : C L I E N T : 2 8 0 1 Y O R K M O N T R O A D , S U I T E 1 0 0 C H A R L O T T E , N C 2 8 2 0 8 T E L : ( 7 0 4 ) 3 5 7 - 8 6 0 0 F A X : ( 7 0 4 ) 3 5 7 - 8 6 3 8 L I C E N S U R E : N C E N G : F - 1 2 5 3 N C G E O L O G Y : C - 2 4 7 A M E C E n v i r o n m e n t & I n f r a s t r u c t u r e , I n c . A S N O T E D W A S T E S T R A T E G Y A N A L Y S I S A S H E V I L L E - A S H I N V E N T O R Y 7 8 1 0 1 4 0 1 6 2 . 0 2 0 D E C . 2 0 1 4 N A D 8 3 - N A V D 8 8 N C 8 3 F M A T M 1 9 6 4 A S H B A S I N C R O S S S E C T I O N A S H E V I L L E S T E A M S T A T I O N , B U N C O M B E C O . , N C 2 . 5 0 2 0 0 ' 1 0 0 ' NOTES:1.AT THE DESIGNATED LIMIT OF ASH BASIN, THE ORIGINAL GROUND SURFACE ELEVATION MAY NOT EQUAL THE "EXISTI N G " G R O U N D S U R F A C E E L E V A T I O N D U E T O R E G R A D I N G A N D / O R LIMITATIONS OF DATA QUALITY.REFERENCES:1.'5$:,1*12*%(17,7/('³$6+',6326$/321' '$0*(1(5$//$<287´35(3$5('%<&$52/,1$32:(5  / , * + 7  & 2 0 3 $ 1 <   5 ( 9   %   ' $ 7 ( '           9 ( 5 7 , & $ /  ' $ 7 8 0  & 2 1 9 ( 5 7 ( ' FROM NGVD29 TO NAVD88.2.NORTH CAROLINA FLOODPLAIN MAPPING PROGRAM (NCFMP) LIDAR BARE EARTH MASS POINTS PUBLISHED IN APRIL 2 0 0 6 . V E R T I C A L D A T U M N A V D 8 8 . 3.'5$:,1*12(17,7/('³ 5,0',7&+ 67,//,1*%$6,1,03529(0(176/$<287*5$',1*3/$1´5(935(3$ 5 ( '  % <  ) 5 $ 1 . / , 1  6   & 5 $ , *   3 (   ' $ 7 ( '          9 ( 5 7 , & $ /  ' $ 7 8 0  1 $ 9 '    O R I G I N A L G R O U N D S U R F A C E ( R E F E R E N C E 1 ) S E E N O T E 1 EMBANKMENT G R O U N D S U R F A C E ( R E F E R E N C E 2 A N D 3 ) A S H D E P O S I T S ( T H I C K N E S S A N D E X T E N T S A R E A P P R O X I M A T E ) E M B A N K M E N T S T I L L I N G B A S I N ( R E F E R E N C E 3 )