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HomeMy WebLinkAboutNC0001422_FIGUREs 8 CROSS SECTIONS_20150805Elevation S t a t i o n -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 0 10 20 30 40 50 600+001+002+003+004+005+006+007+008+009+0010+0011+0012+0013+0014+0015+0016+0017+0018+0019+0020+0021+0022+0023+0024+0025+0026+00 27+00 28+00 29+00 30+00 31+00 32+00 33+00 34+00 35+00 36+00 37+00 38+00 39+00 40+00 41+00 42+00 43+00 44+00 45+00 46+00 47+00 48+00 49+00 50+00 51+00 52+00 53+00 54+00 55+00 56+00 57+00 58+00 59+00 60+00 61+00 62+00 63+00 64+00 65+00 66+00 67+00 68+00 69+00 70+00 71+00 72+00 73+00 74+00 75+00 76+00 77+00 78+00 79+00 80+00 3 . 7 x 1 0 - 2 3 . 0 x 1 0 - 2 N T N T NT 4 . 3 x 1 0 - 2 2 . 6 x 1 0 - 2 Elevation - 1 1 0 - 1 0 0 - 9 0 - 8 0 - 7 0 - 6 0 - 5 0 - 4 0 - 3 0 - 2 0 - 1 0 0 1 0 2 0 3 0 4 0 5 0 6 0 80+0081+0082+0083+0084+0085+0086+0087+0088+0089+0090+0091+0092+0093+0094+0095+0096+0097+0098+0099+00100+00101+00 102+00 103+00 104+00 105+00 106+00 107+00 108+00 109+00 110+00 111+00 112+00 113+00 114+00 115+00 116+00 117+00 118+00 119+00 120+00 121+00 122+00 123+00 124+00 125+00 126+00 127+00 128+00 129+00 130+00 131+00 132+00 133+00 134+00 135+00 136+00 137+00 138+00 139+00 140+00 141+00 142+00 143+00 144+00 145+00 146+00 146+50 6.7 x 10-42.8 x 10-2 4 . 4 x 1 0 - 2 1.1 x 10-4 7 . 2 x 1 0 - 4 3 . 8 x 1 0 - 2 6 . 2 x 1 0 - 2 1 . 2 x 1 0 - 5 2 . 6 x 1 0 - 2 AW-08AW-08B: Sb<1 / As<1 / B<50 / Ba25 / Co2.53 / Fe4450 / Mn29 / Tl<0.2 / V0 . 3 3 5 AW-08C: Sb<1 / As<1 / B<50 / Ba94 / Co1.19 / Fe61 / Mn231 / Tl<0.2 / V<0 . 3 0-2': Sb<1.1 / As<1.1 / B<2.7 / Co<1.1 / Fe31.5 / Mn<0.27 / V<1.18'-10': Sb<1.2 / As<1.2 / B<3.1 / Co<1.2 / Fe85.3 / Mn0.41 / V<1.240'-42': Sb<1.1 / As<1.1 / B<2.8 / Co<1.1 / Fe392 / Mn1.5 / V1.1 M W - 2 7 B : S b < 1 / A s < 1 / B 1 9 5 / C o 1 . 6 5 / F e < 1 0 / M n 5 5 / T l < 0 . 2 / V < 0 . 3 ABMW-02ABMW-02S: Sb<1 / As53.4 / B234 / Ba1840 / Co<1 / Fe24100 / Mn7 8 4 / T l < 0 . 2 / V 1 . 2 8 ABMW-02D: Sb<1 / As170 / B600 / Ba65 / Co<1 / Fe1270 / Mn150 / T l < 0 . 2 / V < . 0 3 3'-5': Sb<4.7 / As51.4 / B21.9j / Co19.5 / Fe9860 / Mn79.5 / V7810'-12': Sb<2.8 / As<2.8 / B<14.1 / Co<2.8 / Fe211 / Mn<1.4 / V<2.8 A W - 0 9 A W - 0 9 B : S b < 1 / A s < 1 / B < 5 0 / B a 1 6 / C o < 1 / F e 2 2 5 / M n 1 8 / T l < 0 . 2 / V < 0 . 3 A W - 0 9 C : S b < 1 / A s < 1 / B 5 5 4 / B a 1 0 4 / C o 1 . 1 3 / F e 1 0 2 / M n 2 8 9 / T l < 0 . 2 / V < 0 . 3 A W - 0 9 D : B a 8 2 ' - 4 ' : S b < 1 / A s < 1 / B < 2 . 6 / C o < 1 . 3 / F e 1 1 . 9 / M n 0 . 5 4 / V < 1 1 4 ' - 1 6 ' : S b < 1 . 3 / A s < 1 . 3 / B < 3 . 2 / C o < 1 . 1 / F e 1 9 4 / M n 0 . 7 2 / V < 1 . 3 4 3 ' - 4 5 ' : S b < 1 . 3 / A s < 1 . 3 / B < 3 . 2 / C o < 1 . 3 / F e 2 5 3 / M n 3 . 1 / V < 1 . 3 M W - 3 7 M W - 3 7 B : S b < 1 / A s 3 . 0 8 / B < 5 0 / C o 2 . 5 2 / F e 9 5 8 0 / M n 2 5 4 / T l < 0 . 2 / V < 0 . 3 M W - 3 7 C : S b < 1 / A s < 1 / B < 5 0 / C o < 1 / F e 3 3 / M n 6 / T l < 0 . 2 / V 1 . 2 2 0 - 2 ' : S b < 1 . 1 / A s < 1 . 1 / B < 2 . 7 / C o < 1 . 1 / F e 5 7 . 9 / M n 0 . 7 2 / V < 1 . 1 4 ' - 6 ' : S b < 1 . 1 / A s < 1 . 1 / B < 2 . 8 / C o < 1 . 1 / F e 8 7 5 / M n 3 . 9 / V < 1 . 1 4 3 ' - 4 5 ' : S b < 1 . 2 / A s 1 . 2 / B 4 . 5 / C o < 1 . 2 / F e 1 3 0 0 / M n 6 . 3 / V 7 . 6 w w w . s y n t e r r a c o r p . c o m 1 4 8 R i v e r S t r e e t , S u i t e 2 2 0 G r e e n v i l l e , S o u t h C a r o l i n a 2 9 6 0 1 8 6 4 - 4 2 1 - 9 9 9 9 5 / 2 2 / 2 0 1 5 5 / 2 2 / 2 0 1 5 P . W A L D R E P C . N E W E L L P R O J E C T M A N A G E R : L A Y O U T N A M E : D R A W N B Y : C H E C K E D B Y : K A T H Y W E B B D A T E : D A T E : F I G U R E 8 - 1 G E O L O G I C C R O S S S E C T I O N A - A ' C O I A N A L Y T I C A L R E S U L T S F I G U R E 8 - 1 L . V . S U T T O N E N E R G Y C O M P L E X 8 0 1 S U T T O N S T E A M P L A N T R D W I L M I N G T O N , N O R T H C A R O L I N A B O R I N G S Y M B O L S W E L L S C R E E N W I T H H Y D R A U L I C C O N D U C T I V I T Y I N C E N T I M E T E R S P E R S E C O N D ( S O U R C E : S Y N T E R R A ) 3 0 0 0 3 0 0 6 0 0 G R A P H I C S C A L E I N F E E T 3 0 0 3 0 6 0 I N F E E T H O R I Z O N T A L : 1 " = 3 0 0 ' V E R T I C A L : 1 " = 3 0 ' S E C T I O N A - A ' F A C I N G E A S T S E C T I O N A - A ' F A C I N G E A S T MATCH LINE MATCH LINE (MSL) (MSL) CANAL CANAL MW-36C GP-01 C O A L A S H C O A L A S H COALASHCOAL ASHSURFICIAL S U R F I C I A L S U R F I C I A L SURFICIAL P E E D E E P E E D E E U N D I S T U R B E D S O I L S A M P L E W I T H V E R T I C A L H Y D R A U L I C C O N D U C T I V I T Y ( S O U R C E : B L E ) MW-5C: Sb<1 / As<1 / B<50 / Co1.62 / Fe<10 / Mn441 / Tl<0.2 / VNAP:\DUKE ENERGY PROGRESS.1026\108. SUTTON ASH BASIN GW ASSESSMENT PLAN\1.11 CSA REPORTING\FIGURES\SUTTON-CSA-FIGURES.DWG08/02/2015 1:49 PM S O U R C E S : 1 . D R A W I N G H A S B E E N S E T W I T H A P R O J E C T I O N O F N O R T H C A R O L I N A S T A T E P L A N E C O O R D I N A T E S Y S T E M F I P S 3 2 0 0 ( N A D 8 3 ) . 2 . 2 f t C O N T O U R I N T E R V A L S F R O M N C D O T L I D A R D A T E D 2 0 0 7 h t t p s : / / c o n n e c t . n c d o t . g o v / r e s o u r c e s / g i s / p a g e s / c o n t - e l e v _ v 2 . a s p x 3 . S E L E C T T O P O G R A P H I C A D J U S T M E N T S B A S E D O N S I T E S U R V E Y A N D C O M P A R I S O N T O A E R I A L P H O T O G R A P H . N O T E : 1 . C O N T O U R L I N E S A R E U S E D F O R R E P R E S E N T A T I V E P U R P O S E S O N L Y A N D A R E N O T T O B E U S E D F O R D E S I G N O R C O N S T R U C T I O N P U R P O S E S . 2 . C R O S S S E C T I O N L O C A T I O N S A R E S H O W N O N F I G U R E 1 - 2 . A S H B A S I N C O A L A S H C L A Y L I N E R ( 1 2 " ) R O A D W A T E R L E V E L ( J U N E 2 0 1 5 ) L E G E N D S U R F I C I A L S A N D ( W E L L S O R T E D - S I L T Y S A N D - M E D I U M T O F I N E G R A I N E D S A N D ) S U R F I C I A L S A N D ( P O O R L Y S O R T E D - M E D I U M T O C O A R S E G R A I N E D S A N D ) C O A L A S H C O A R S E S A N D W I T H F I N E G R A V E L S A N D ( P E E D E E ) C L A Y R I C H F A C I E S N O T T E S T E D N T F I L L M A T E R I A L S C A L E : A S S H O W N S O I L S A M P L E ( G R A B ) K V a l u e A W - 0 1 A W - 0 1 B : G R O U N D W A T E R A N A L Y T I C A L R E S U L T S F O R S U R F I C I A L A Q U I F E R I N M I C R O G R A M S P E R L I T E R A W - 0 1 C : G R O U N D W A T E R A N A L Y T I C A L R E S U L T S F O R P E E D E E I N M I C R O G R A M S P E R L I T E R 0 - 2 ' : S O I L T O T A L A N A L Y T I C A L R E S U L T S I N m g / k g 4 . 4 x 1 0 - 4 A B M W - 0 1 A B M W - 0 1 S : S b < 1 / A s 6 3 4 / B 3 9 4 0 / B a 5 8 5 / C o < 1 / F e 1 5 2 / M n 8 8 / T l < 0 . 2 / V 3 . 4 5 A B M W - 0 1 D : S b < 1 / A s 1 . 0 3 / B 1 6 7 / B a 1 6 / C o < 1 / F e 4 7 5 / M n 8 2 / T l < 0 . 2 / V 0 . 6 4 2 3 ' - 5 ' : S b < 3 . 4 / A s 2 2 . 1 / B 8 . 7 j / C o 6 . 7 / F e 9 5 9 0 / M n 3 5 . 2 / V 3 4 . 4 7 8 ' - 8 0 ' : S b < 2 . 8 / A s 1 6 . 8 / N 7 . 2 j / C o 2 . 5 j / F e 5 1 1 0 / M n 2 4 . 2 / V 1 5 . 7 8 2 ' - 8 4 ' : S b < 3 . 4 / A s 3 . 3 j / B 1 2 . 6 j / C o < 3 . 4 / F e 6 5 0 0 / M n 2 8 . 9 / V 7 . 9 9 6 ' - 9 8 ' : S b < 3 . 3 / A s 2 . 1 j / B 1 2 . 5 j / C o 3 . 3 / F e 6 0 5 0 / M n 3 9 . 3 / V 8 . 8 Elevation Elevation S t a t i o n -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 0 10 20 30 40 50 60 - 1 0 0 - 9 0 - 8 0 - 7 0 - 6 0 - 5 0 - 4 0 - 3 0 - 2 0 - 1 0 0 1 0 2 0 3 0 4 0 5 0 6 0 0+001+002+003+004+005+006+007+008+009+0010+0011+0012+0013+0014+0015+00 16+00 17+00 18+00 19+00 20+00 21+00 22+00 23+00 24+00 25+00 26+00 27+00 28+00 29+00 30+00 31+00 32+00 33+00 34+00 35+00 36+00 37+00 38+00 39+00 40+00 41+00 42+00 43+00 44+00 45+00 46+00 47+00 48+00 49+00 50+00 51+00 52+00 53+00 54+00 54+50 N T N T 1 . 7 x 1 0 - 5 1 . 5 x 1 0 - 7 8 . 2 x 1 0 - 3 6 . 7 x 1 0 - 4 4 . 2 x 1 0 - 2 4 . 7 x 1 0 - 2 Elevation Elevation S t a t i o n -140 -130 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 0 10 20 30 40 50 60 - 1 4 0 - 1 3 0 - 1 2 0 - 1 1 0 - 1 0 0 - 9 0 - 8 0 - 7 0 - 6 0 - 5 0 - 4 0 - 3 0 - 2 0 - 1 0 0 1 0 2 0 3 0 4 0 5 0 6 0 0+001+002+003+004+005+006+007+008+009+0010+0011+0012+0013+0014+0015+00 16+00 17+00 18+00 19+00 20+00 21+00 22+00 23+00 24+00 25+00 26+00 27+00 28+00 29+00 30+00 31+00 32+00 33+00 34+00 35+00 36+00 37+00 38+00 39+00 40+00 41+00 42+00 43+00 44+00 45+00 46+00 47+00 48+00 49+00 50+00 51+00 52+00 53+00 53+50 3 . 7 x 1 0 - 5 9 . 0 x 1 0 - 5 1 . 9 x 1 0 - 7 5 . 7 x 1 0 - 2 3 . 6 x 1 0 - 2 N T N T 4 . 7 x 1 0 - 2 4 . 5 x 1 0 - 2 5 / 2 2 / 2 0 1 5 5 / 2 2 / 2 0 1 5 P . W A L D R E P C . N E W E L L P R O J E C T M A N A G E R : L A Y O U T N A M E : D R A W N B Y : C H E C K E D B Y : K A T H Y W E B B D A T E : D A T E : F I G U R E 8 - 2 w w w . s y n t e r r a c o r p . c o m 1 4 8 R i v e r S t r e e t , S u i t e 2 2 0 G r e e n v i l l e , S o u t h C a r o l i n a 2 9 6 0 1 8 6 4 - 4 2 1 - 9 9 9 9 L . V . S U T T O N E N E R G Y C O M P L E X 8 0 1 S U T T O N S T E A M P L A N T R D W I L M I N G T O N , N O R T H C A R O L I N A 3 0 0 0 3 0 0 6 0 0 G R A P H I C S C A L E I N F E E T 3 0 0 3 0 6 0 I N F E E T H O R I Z O N T A L : 1 " = 3 0 0 ' V E R T I C A L : 1 " = 3 0 ' S E C T I O N C - C ' F A C I N G N O R T H (MSL) (MSL) PZ-INT S E C T I O N B - B ' F A C I N G N O R T H (MSL) (MSL)COOLING POND GP-03 P E E D E E COAL ASH S U R F I C I A L COAL ASH S U R F I C I A L S U R F I C I A L P E E D E E M W - 2 3 B : S b < 1 / A s < 1 / B 1 4 4 / B a 3 8 / C o < 1 / F e 2 0 / M n 9 / T l < 0 . 2 / V < 0 . 3 M W - 2 3 C : S b < 1 / A s < 1 / B 2 0 5 0 / B a 3 5 / C o 5 . 1 9 / F e 8 8 / M n 3 0 9 / T l 0 . 2 1 / V 0 . 3 2 3 M W - 2 3 E : S b < 1 / A s < 1 / B 2 5 0 0 / B a < 5 / C o < 1 / F e 4 8 / M n 5 / T l < 0 . 2 / V 0 . 9 9 3 ABMW-01ABMW-01S: Sb<1 / As634 / B3940 / Ba585 / Co<1 / F e 1 5 2 / M n 8 8 / T l < 0 . 2 / V 3 . 4 5 ABMW-01D: Sb<1 / As1.03 / B167 / Ba16 / Co<1 / F e 4 7 5 / M n 8 2 / T l < 0 . 2 / V 0 . 6 4 2 3'-5': Sb<3.4 / As22.1 / B8.7j / Co6.7 / Fe9590 / Mn3 5 . 2 / V 3 4 . 4 78'-80': Sb<2.8 / As16.8 / N7.2j / Co2.5j / Fe5110 / M n 2 4 . 2 / V 1 5 . 7 82'-84': Sb<3.4 / As3.3j / B12.6j / Co<3.4 / Fe6500 / M n 2 8 . 9 / V 7 . 9 96'-98': Sb<3.3 / As2.1j / B12.5j / Co3.3 / Fe6050 / M n 3 9 . 3 / V 8 . 8 A W - 0 4 A W - 0 4 B : S b < 1 / A s < 1 / B < 5 0 / B a 1 1 / C o < 1 / F e 4 1 / M n 2 2 / T l < 0 . 2 / V < 0 . 3 A W - 0 4 C : S b < 1 / A s < 1 / B 1 4 5 0 / B a 3 9 / C o < 1 / F e 3 9 9 0 / M n 7 8 7 / T l < 0 . 2 / V 0 . 5 1 8 0 - 2 ' : S b < 1 / A s < 1 / B < 2 . 6 / C o < 1 / F e 8 1 5 / M n 1 . 4 / V 2 . 2 9 ' - 1 0 ' : S b < 1 . 1 / A s < 1 . 1 / B 2 < 2 . 8 / C o < 1 . 1 / F e 2 9 7 / M n 1 / V < 1 . 1 4 7 ' - 4 8 ' : S b < 1 . 1 / A s < 1 . 1 / B < 2 . 8 / C o < 1 . 1 / F e 1 9 5 0 / M n 1 9 . 5 / V < 1 . 1 A W - 0 7 A W - 0 7 D : S b < 1 / A s < 1 / B 8 1 5 / B a < 5 / C o < 1 / F e 2 2 0 / M n 1 4 / T l < 0 . 2 / V 0 . 9 9 2 M W - 3 1 C : S b < 1 / A s < 1 / B 1 1 8 0 / B a 5 7 / C o 1 . 1 / F e 2 6 9 0 / M n 1 7 4 0 / T l < 0 . 2 / V < 0 . 3 0 - 2 ' : S b < 1 . 1 / A s < 1 . 1 / B < 2 . 7 / C o < 1 . 1 / F e 1 3 3 0 / M n 1 . 4 / V 2 . 9 8 ' - 1 0 ' : S b < 1 . 1 / A s < 1 . 1 / B < 2 . 9 / C o < 1 . 1 / F e 7 8 2 / M n 7 . 3 / V < 1 . 1 1 5 ' - 1 7 ' : S b < 1 . 2 / A s < 1 . 2 / B < 2 . 9 / C o < 1 . 2 / F e 1 0 1 / M n 0 . 5 6 / V < 1 . 2 4 6 ' - 4 7 ' : S b < 1 . 1 / A s 4 . 5 / B 2 0 . 8 / C o < 1 . 1 / F e 1 8 0 0 0 / M n 2 0 4 / V 9 S M W - 0 1 S M W - 0 1 B : S b < 1 / A s < 1 / B 1 0 0 / B a 7 4 / C o < 1 / F e 3 0 / M n 1 4 / T l < 0 . 2 / V < 0 . 3 S M W - 0 1 C : S b < 1 / A s < 1 / B 7 7 6 / B a 3 5 / C o < 1 / F e 4 2 5 0 / M n 8 0 7 / T l < 0 . 2 / V 0 . 4 0 2 0 - 2 ' : S b < 6 . 9 / A s < 6 . 9 / B < 1 7 . 2 / C o < 6 . 9 / F e 6 0 9 / M n 2 . 1 / V < 6 . 9 8 ' - 1 0 ' : S b < 6 . 1 / A s < 6 . 1 / B < 1 5 . 3 / C o < 6 . 1 / F e 8 2 . 3 / M n < 1 . 5 / V < 6 . 1 4 2 ' - 4 4 ' : S b < 6 . 2 / A s < 6 . 2 / B < 1 5 . 4 / C o < 6 . 2 / F e 1 8 7 0 / M n 7 . 5 / V < 6 . 2 S M W - 0 5 S M W - 0 5 B : S b < 1 / A s 1 . 4 7 / B < 5 0 / B a 3 6 / C o < 1 / F e 9 9 1 0 / M n 1 3 9 / T l < 0 . 2 / V 0 . 8 1 S M W - 0 5 C : S b < 1 / A s < 1 / B 3 6 2 / B a 7 6 / C o 2 . 6 / F e 1 7 5 / M n 1 3 0 / T l < 0 . 2 / V < 0 . 3 0 - 2 ' : S b < 7 . 2 / A s < 7 . 2 / B < 1 7 . 9 / C o < 7 . 2 / F e 4 3 . 8 / M n < 1 . 8 / V < 7 . 2 6 ' - 8 ' : S b < 6 . 1 / A s < 6 . 1 / B < 1 5 . 3 / C o < 6 . 1 / F e 5 4 . 6 / M n < 1 . 5 / V < 6 . 1 4 1 ' - 4 3 ' : S b < 5 . 8 / A s < 5 . 8 / B < 1 4 . 6 / C o < 5 . 8 / F e 1 2 4 / M n 4 . 3 / V < 5 . 8 MW-24B: Sb< 1 / A s < 1 / B 4 0 9 / C o < 1 / F e < 1 0 / M n 3 5 / T l < 0 . 2 / V 0 . 5 5 5 MW-24C: Sb< 1 / A s 3 . 4 2 / B 1 0 4 0 / C o 1 8 . 6 / F e 4 1 8 0 / M n 1 1 2 0 / T l < 0 . 2 / V 0 . 5 4 3 P:\DUKE ENERGY PROGRESS.1026\108. SUTTON ASH BASIN GW ASSESSMENT PLAN\1.11 CSA REPORTING\FIGURES\SUTTON-CSA-FIGURES.DWG08/02/2015 1:50 PM S O U R C E S : 1 . D R A W I N G H A S B E E N S E T W I T H A P R O J E C T I O N O F N O R T H C A R O L I N A S T A T E P L A N E C O O R D I N A T E S Y S T E M F I P S 3 2 0 0 ( N A D 8 3 ) . 2 . 2 f t C O N T O U R I N T E R V A L S F R O M N C D O T L I D A R D A T E D 2 0 0 7 h t t p s : / / c o n n e c t . n c d o t . g o v / r e s o u r c e s / g i s / p a g e s / c o n t - e l e v _ v 2 . a s p x 3 . S E L E C T T O P O G R A P H I C A D J U S T M E N T S B A S E D O N S I T E S U R V E Y A N D C O M P A R I S O N T O A E R I A L P H O T O G R A P H . N O T E : 1 . C O N T O U R L I N E S A R E U S E D F O R R E P R E S E N T A T I V E P U R P O S E S O N L Y A N D A R E N O T T O B E U S E D F O R D E S I G N O R C O N S T R U C T I O N P U R P O S E S . 2 . C R O S S S E C T I O N L O C A T I O N S A R E S H O W N O N F I G U R E 1 - 2 . W A T E R L E V E L ( J U N E 2 0 1 5 ) F I G U R E 8 - 2 G E O L O G I C C R O S S S E C T I O N S B - B ' A N D C - C ' C O I A N A L Y T I C A L R E S U L T S L E G E N D S U R F I C I A L S A N D ( W E L L S O R T E D - S I L T Y S A N D - M E D I U M T O F I N E G R A I N E D S A N D ) S U R F I C I A L S A N D ( P O O R L Y S O R T E D - M E D I U M T O C O A R S E G R A I N E D S A N D ) C O A L A S H C O A R S E S A N D W I T H F I N E G R A V E L S A N D ( P E E D E E ) C L A Y R I C H F A C I E S N O T T E S T E D N T CLAY LINER (12") F I L L M A T E R I A L S C A L E : A S S H O W N B O R I N G S Y M B O L S W E L L S C R E E N W I T H H Y D R A U L I C C O N D U C T I V I T Y I N C E N T I M E T E R S P E R S E C O N D ( S O U R C E : S Y N T E R R A ) U N D I S T U R B E D S O I L S A M P L E W I T H V E R T I C A L H Y D R A U L I C C O N D U C T I V I T Y ( S O U R C E : B L E ) S O I L S A M P L E ( G R A B ) K V a l u e A W - 0 1 A W - 0 1 B : G R O U N D W A T E R A N A L Y T I C A L R E S U L T S F O R S U R F I C I A L A Q U I F E R I N M I C R O G R A M S P E R L I T E R A W - 0 1 C : G R O U N D W A T E R A N A L Y T I C A L R E S U L T S F O R P E E D E E I N M I C R O G R A M S P E R L I T E R 0 - 2 ' : S O I L T O T A L A N A L Y T I C A L R E S U L T S I N m g / k g 4 . 4 x 1 0 - 4 C A P E F E A R R I V E R U S-421 S R-2 1 6 9 P R J -I -1 4 0 SR-1394 S R -2 7 7 9 S R -2 1 4 5 PRJ-I-140 P R J -I -1 4 0 FORMER ASHDISPOSALAREA 1984 ASHBASIN(LINED) NEW ASHBASIN AREA(LINED) 1971 ASHBASIN COOLINGPOND COOLINGPOND COOLINGPOND COOLINGPOND CAPE FEARRIVER DRAINAGECHANNEL COOLINGPOND C O O L I N G P O N D COOLINGPOND GRAPHIC SCALE 500 0 500 1,000 1,500 (IN FEET) P:\D uke E nergy P rogress.1026\00 GIS B AS E DATA \Sutton\Map_Docs\D raft_CS A_v07152015\Figure 8-3-Site M ap with Soil Exceedances_v08012015.mxd PROJECT MANAGER: J MAHAN DRAWN BY: T KING DATE: 08/01/2015 DATE: 08/01/2015 CHECKED BY: J. MEADOWS FIGURE 8-3SITE MAP W IT H SOIL EXCEEDANCESL. V. SUTTON ENERGY COMPLEX801 SUTTON STEAM PLANT RDWILMINGTON, NORTH CAROLINA 148 RIVER STREET, SUITE 220GREENVILLE, SC 29601864-421-9999www.synterracorp.com LEGEND NOTES:1 APRIL 17, 2014 AERIAL ORTHOPHOTOGRAPHY OBTAINED FROM WSP 2 2013 AERIAL ORTHOPHOTOGRAPHY OBTAINED FROM NC CENTER FOR GEOGRAPHIC INFORMATION AND ANALYSIS, AT (http://services.nconemap.gov/) 3 PARCEL BOUNDARY WAS OBTAINED FROM THE NC CENTER FOR GEOGRAPHIC INFORMATION AND ANALYSIS, AT (http://services.nconemap.gov/) 4 DRAWING HAS BEEN SET WITH A PROJECTION OF NORTH CAROLINA STATE PLANE COORDINATE SYSTEM FIPS 3200 (NAD83). 5 j = INDICATES CONCENTRATION REPORTED BELOW PQL, BUT ABOVE MDL AND THEREFORE CONCENTRATION IS ESTIMATED MONITORI NG WEL L SOI L BORING ASH BASIN BOUNDARY ASH BASIN CO MPLIANCE BO UNDARY DUKE ENERGY PROGRESS SUTTON PLANT SITE BOUNDARY Ana lytica l Parameter Reporting Units 01-Industrial Health EPA RSL 2015-06 02-Residential Health EPA RSL 2015-06 03-Protection of Groundwa ter EPA RSL 2015-06 Aluminum mg/kg 110000 7700 Arsenic mg/kg 3 0.68 0.29 Ba rium mg/kg 22000 1500 82 Beryllium mg/kg 230 16 3.2 Coba lt mg/kg 35 2.3 Copper mg/kg 4700 310 46 Iron mg/kg 82000 5500 Lead mg/kg 800 400 14 Manganese mg/kg 2600 180 Mercury mg/kg 4 0.94 0.1 Selenium mg/kg 580 39 0.26 Va na dium mg/kg 580 39 DEPTH(82-84)(96-98) Arsenic3.3 j2.1 j Iron65006050 AB-01 DEPTH(53-55)Arsenic2 j Iron5640 AB-02 DEPTH(108-110)Arsenic2.2 Iron11000 AW-06D DEPTH(46-47)Arsenic4.5 Iron18000 Manganese204 AW-07D DEPTH(101-103)Iron9000 SMW-06D