HomeMy WebLinkAboutNCG120056 DMR SWSemi-annual Stormwater Discharge Monitoring Report
for North Carolina Division of Water Quality General Permit No. NCG120000 T
CERTIFICATE OF COVERAGE NO. NCG120056
FACILITY NAME: Upper Piedmont Regional Landfill
COUNTY: Person
PERSON COLLECTING SAMPLES: C.Gustin
LABORATORY: Pace Analytical Lab Cert. # 67
Date submitted January S. 2015
SAMPLE COLLECTION. YEAR _2015
SAMPLE PERIOD ® Jan -June- ❑ July -Dec
or ❑ Monthly' (month
A1R"
e 'VffHARGINTO CLASS ❑ORW ❑HQW ❑Trout 11
P5G❑Zero-flow ❑Water Supply S
JUN 12015
®Other: WS -IV. NSW
Comments on sample collection or analysis: CENT
D SECTION
Part A: Stormwater Benchmarks and Monitoring Results
PLEASE REMEMBER TO SIGN ON THE REVERSE
No discharge this
outfall.
' Monthly sampling (instead of semi-annual) must begin with the second consecutive UenL1111 M �A_VCU011 .c — Ll— 4-1 a. r.......w. ... -.._ _
Z For.sampling periods with no discharge at any single outfall, you must still submit this discharge-ge monitoring repoith a checkmark here. enjer7t-
3The total precipitation must be recorded using data from an on-site rain gauge. Unattended sites may be for a waiver of the rain gauge requir
4 See General Permit text, Table 3, identifying the especially -sensitive receiving water classificatios-where the more protective benchmark applies.
Note: Results must be reported in numerical format. For -ex -am
numerical format. When results are below e -applicable limits,
detection limit, reporting limit,ein-mg/L. Conversely, where"
-= Permit Date: 11/1/2012-10/31/2017
Detection Limit, BDL, <PQL, Non -detect, ND, or other similar 000"_
rhe format,"<XX m0L", where XX is the numerical value of the
coliform results exceed the dilution upper limit, report the result as ">XX".
SWU-248, last revised 10/25/2012
Page 1 of 2
Date Sample
24-hour rainfall
Outfall No.
Collected'
amount,
Chemical Oxygen Demand
Fecal Coliform
Total Suspended Solids
(mo/dd/yr)
inches
100 mg/L or 50 mg/L
Benchmarks =__>
-
-
120 mg/L
1000 count per 100 mL
001
06/02/15
1.16
98.0
81.0
35.0
002
06/02/15
1.16
34.0
300
7.1
003
06/02/15
1.16
27.0
1,730
33.3
004
06/02/15
1.16
25.0
1,980
323
-F— 4� _ r.�romo4nr nt the Came
outfall.
' Monthly sampling (instead of semi-annual) must begin with the second consecutive UenL1111 M �A_VCU011 .c — Ll— 4-1 a. r.......w. ... -.._ _
Z For.sampling periods with no discharge at any single outfall, you must still submit this discharge-ge monitoring repoith a checkmark here. enjer7t-
3The total precipitation must be recorded using data from an on-site rain gauge. Unattended sites may be for a waiver of the rain gauge requir
4 See General Permit text, Table 3, identifying the especially -sensitive receiving water classificatios-where the more protective benchmark applies.
Note: Results must be reported in numerical format. For -ex -am
numerical format. When results are below e -applicable limits,
detection limit, reporting limit,ein-mg/L. Conversely, where"
-= Permit Date: 11/1/2012-10/31/2017
Detection Limit, BDL, <PQL, Non -detect, ND, or other similar 000"_
rhe format,"<XX m0L", where XX is the numerical value of the
coliform results exceed the dilution upper limit, report the result as ">XX".
SWU-248, last revised 10/25/2012
Page 1 of 2
d -,
3 0 L n i
ru s
m 0 r c
S 3 .0
c n
r. a c'
S m p
m ` n
CD
lu < a
-0 0 O�
3 3
aQ r*
3 (DS
� 0 cu
04 S
FD* m d o
M
c
0' o a cu
<
3 Sm 3, cu o.
., E cr
03U y f
r+
�n O S n
(0 ? lD Sr
3 - 3
=r
M0 3
o
v o a
CD
0 3 0
7 CU 7 (D
'•.r O
f3f 3 Q
E 3 d
F3 a a.
.-. 3 c
7
CL cu m
CA
O :^ O
n 3
'^ O o
3 O
< <
�6+ (D o
S O 3
3
C
O O � O
ou 3 o c
3 �+ O
CL � s m
o ro <_.
v
�• (p (DO
In v+ _3
3 N j 3
3 o n
M 3 n
:3 Q -0 O
O O C
0 3
7 "' � (nD
3 O S
0o y 3 y
a
c m
3 fD ,r 3
of N S O.
3 O M
CL
o
3 3 fl
o
m O
D v
V
?300
o
Z
�, p -•
N C1
=r M a
N
M
o m T .0
m °:
V
Q1
l0
r
01
r
V
m T n
O O
C
r+
O
�
0 m m W D O -
T m= n m D
O
n IA w m n
C1 S p co
10
O
f1 D V
<DD
Z mton��
?
O
LIA IA
n O O Z X 30 0J
0
0
0
0
7
P*
d
14 fl r) 1A
A
w
D z y � m Z O
ii
C
iE v, C n O D p
D
m -n 'O
v
r) - a
T Z e '�
0x0mG) co '+
D m -M �• 0
00O,m„ o i " vo0+o0+occ
G D N N h d\\\\
30 °+
O� f0
A 3 H
0
0
0
0
a M N
m
m= v M A W
O
m>�
F\..
WWUl
\.
%
? 3
m �0
o
av
m
D 70
r0 2 m C
70
?
D
m
T m
D
A
m
J m -�z
c
x m
m N N •'C
01
O1
01
Of
vOi 7 Ci
IA 0 3 T
m m m
o+
❑ C1 O m O
Z M C ;
O tA „ T K
Z
❑ � D �•
m �_ 3
r O
N
A
A
A
w
a,
A
DG1N •► �O
N
3
O
K m fml y
m
C
C
C
C
0p
w 20
O
;
~
�
r
m
M Z
D N W
9
mm
cr
--4^
A �N
C
D
y 3
o
d
Z W
c
0 ;�
k
Wa
m m
w
�`
r
1:1c-
w
C
C.
M N
0
2
D H
O
Q
M
V�
❑ m
o
?
z a
N
o+
V
N
W
=
❑ Z �
p
1
W .3
C
4
1Z