O)
CO
s
•8
Q) (D
\— (/)
en
c
T3
CO
CD
r Additional R
o
LJL
C
CD
O)
o
Z
CO
00
CD
1 —
2^
£
T3
O
O
O
T3
C
CO
CD
O
O
CO
cb
c
to
o
Q.
0
o
CD
cn
T3
rs
CO
O)
rj
•o
CO
r"-
Bishop. P.L,
transformatior
T-
CD
C
"co
B.
E
CD
C\l
c\i
80
CD P
°>£~,
-Q Z
«? C
0 S
.X. CO
rfr -D
So
CM
CD
00
CD
'*~"
c
CD
.C
O
mentum. Biocycle
Goldstein, and B
maintains mo
-z.
-i
!_'
CD
.*:
co
CO
— -
•c
CO
o
'•£?
0
to
o
o
o
"CD
CO
CO fs^
•- °N
CO
O
*^-t
5. A. McFeters, anc
.^
cc
>T3
CO
T3-
•r-t
{J
co
c
.g
>
'•«
u
CO
CD"
o
sludge: Occurred
CO
CD
O
"co
B o
&3
CC z^
egrowth. SANDIA
CO
.g
ft
Z
co
13
CO
C/0
l<
Pathogens in
potential for r
SAND83-055
^
Z
Albuquerque,
3 O
2.51
CO CO g O) CO Q'
c £ c c §
.2 55 g .2 o B
CD £ ^- CU CD CO
^ ^ S 2 ^ ra
UJ S D UJ oj CO
(T CO _-
«t o
co E
CO^- . "J co mco10 guj'
fo CO -9- qS -1 . 4) ^ O S CO
O^-3 O-:^ COco iS
rf — ^ m ^ r-1 y ^
UJcoSl UICO< UJOJO UJ°
CO
%0
CD *= ">
Q)JO =^
^ 2 —
C "3
CD 0>
C CD -
CD JD ^
CD CO CO
S CO CD
Q-x: >-
BO ro
£^3
% CD - co
= 5 §)! 2
CO CO -Q i_ CO
ai*^jf
flip
la?1??
CD
,_
C3)
c "
"X tn CO
•o i=
I E*
CD
O CO — >- t- =
o ™ |- 9> o> E
CD
co
is._
CD CO CO
iss
°t^
Q-.-C
E
|?|
Q.E£
(0
E CD -11 -^
3^ « E
O
s c?cS 2 2
"*~ -j= , ^ CO CD "D
-D oo O m ^ o>
P Q> c o o
O CD
I Ei f£ -
»
Substantial capital
expenditure necessar
•
To
c
Elimination of detrime
effects of adverse
•
So
CO m
ble 1. Advantages
Systems Ov<
co
CO
o
Q.
O
,,,
Managemen
^_
CD
x: ^
•^- o
Odor Control
Odor control systems include direct atmospheric
discharge of exhaust gases or discharge through e
aeration basins or chemical scrubbing towers. Dire
CD c: '
S|--
'8 at
"" c 'o
^ O CO
'c^'^0
&^
O CD
= CO .C
CO CO ~
^ CD CD
CO CO CD
* S"i
.^"co co
c -^ co
0 g_ CD
•§§-*
.y >^~
O CD CD
co co co
Q. CO
co 8-s
&-sS
151
880
^ ^ CO
close proximity to the wastewater treatment plant
generating the sludge.
"S
Minimizing odor production through process contra
e.g., proper aeration, adequate moisture and
temperature control, and proper mixing, is considei
to be the best approach to odor control.
C co ^
•— CO *— r— — ~m O r~ "O
£ .lg.2 >-QCD "cOm ~ -2
Retention/Curing/Discharge
The composting process includes biological
decomposition and curing. Pathogen destruction v\
the composting mass is assured through the
maintenance of 55°C for a minimum of three days
However, longer retention times are necessary to
a greater degree of compost stability, a lower moii
content, and a greater reduction in sludge volume
Compost retention time is dependent upon wheth*
curing is done out-of-doors or in-vessel, if the syst
dynamic or static, and the ratio of sludge to recycl
the absence of a curing vessel (outdoor curing)
biological decomposition is completed in approxim
20 days, however, an outdoor curing period of on<
several months is necessary to achieve compost
stability. In contrast, the entire composting proces:
systems with in-vessel curing is commonly compk
CO
%
T3
?
C\j
C
fl^
s— T5 "m
IVC, unlike static pile or windrow composting, is
continuous; that is, the amount of compost discha
daily is replaced by fresh sludge/amendment/recyi
mix. This type of continuous operation assures th;
newly generated sludge will not have to remain in
storage areas for prolonged periods of time, thus
minimizing land area needed for storage.
Compost Marketing
Compost, by virtue of its physical and chemical
properties can be used as a soil substitute or
o
V)
8
"CD
CO
CD
CO
CO
•o
0
•fS
(0
03
>
.2
i
8
is
a
^_
o to
*&
manufacturers often provide operators with marke
provide assistance in developing markets for com
-------�
~n
en
c
CD
CO
0
m
CD.
o'
DO
CD
T3
CD
(n
CD
Zi.
21
O
D
0
CO
UJ.
o'
33
CD
£
Zi
Q.
3
CD
0
Z3
<
CD
CO
CO
CD
Compost
Zi
CQ
~n
D'
shed Com]
0
^
CD
0
•<
CD"
/
ro cn
> C c
11 s
3 c =• -;
CQ == X O
s! f '
\ / i
\ / °
\ / 21
c
c
^
x'
CQ
(a
r
ID
D
->
0
-S 3
O CD
1 Windrows
-60 days)
CD
Q.
1
a.
o
i.
c
T
O
~^S>
•^cB §
t «" S
lidate to
Windrow
1- days)
-•
CO
o
CD
CD
Z3
IQ
1
^
a)
CD
^ ro
> c
"8 5!
s^
>
>
v) £
F »
a a
•8 w
/ i
/ °
/ =
J. <"
CQ
Z)
CD
*<
fo
CO
o
Q.
CD
Q.
1
Q.
^r
•D'
CO
O
0
a.
OJ
-HI
(/•
o
O
O
3
T3
O
CO
i
>
Q.
33
CD"
O
cr
Q.
0
O
c
5
CQ
5
CD
CD
Z3
3
CQ
i
<
a>
5-
0 ZT O CD
O CD -* Z!
3 < q: 0.
1 o or
o -o co S
£3 «> Q.
-Ill
— CD zr CD
< Q. O
requirements,
ds during ad\
the use of in
C) methods.
|S|
cn CD Q-
CD $ 5
" CD CD
O CD -,
~* 51 CD
O CD g-
0 _ 0
o~ 8 s
CO -j °-
CD Q. CD
0 0
31"
O
^' ^£ S(
^CD S
03 cr c Q-
CQ — ^
O CQ ^ O
CO ,ti: CD /—.
^^-o i
o-5 |
^ m ° CD
r— *- — - -
co o'*
CD
~ cn
, zr co
d CD -,
Q-cn g_
CD
CD CQ CD
co CD to
CD 2 ^
o
- _
2. o"
II
=: CD
co —
3
HI
CD O CD
+ o-
o
o
ru
I
CD
CD
= CO CO
C -i' CD
=r y. CD c^ = o
CD. CD C§ ^-O Q.
agSSla
O =1. < —, 2^
Q) —i c: —r,— o
CD q c
co -5 Q-
—K^-3 CQ
0,0 CD
O Z! CD
CD
CD
O ?
O CD
1^0
CD
8 f
CD
CQ
CD
CD
O
$ CD (I)
Zf 2. CD
3 ° 3
5" ° —
cr co CL
;rr Er CD
CD
13
cr
CD
^<" CD
_. Z!
3 co"
o o
CD CD CD —i
z; ^
^ CD
2 2. o _.
co" co" O O
O CL ZS ^- o
~i CD x--
^ CD CD 3
c^ -•- co'
U; ^ O —<
O O C CD
£Z —« CQ f-.
: cT :~r o
-8 If
3 CD —-
"O CL O
m -i O CL —h
2; CD co. =+; co
^ CD 5 • O CD
^ CL
- CD
COTD
^3
• CL
O
Zi
co_
c
CL
CQ
CD
O Cn
"* 9
cn °'
co CD
'-" DE
H 0_
CD O>
3 P
9. CD
(/) ~3
8 5
Z! —
2 ^
o
Si I
O co^ o
o" 5' u>
»^
i< CD
O c CD
O CO ^
CD CD CO
8 O CQ
CD
CQ
CD
°8
CD Zi
8 o
Q. O
CO
o co
CD CD
08 >
o-l I
? O CD
CD co. q
^ 5'5>
O
0. CL
CD CD O.
CD
cn
cn
Zi'
CQ
~O
O
13
CQ
13 71
CD O
Zj. Zi
CD 3"
Zi _
O_ 2.
ITco
CD ®
CD. ^.
= 3
CD CO
=3 CD' ^
5 i
CD O CQ
CD ^ CD
CL
c CL
o
o
63" 3 o -a
CD Q. CD
c* CO
Q co
°r8
CD
CL 0.
CO CQ
o °
o $
CD ^
2 CD
5 o
8 o^
m CO
=3
CQ
CD
CD 5 S
CD
55 E.
0 3
CD CD
CD
09:
8 W
T3 CO
O CD
Z!
CQ
CO
CD '
r> CD
_ Zi
>!
/
>
5"
T3
C
^*
CO
*<
°z
c?
) ZI S
| 21 co
o i. ^
CD — CD
7 3
1 ^
1 1M
1 rt^l
1 w^
Ffl I
$ ° 4
•S: S 3 |
'» ^ "0 tJ
'« ° i
w HI J
1; s i
d — **! 1
J
UliQ i
I J
S
C
=t
cr
CD
cn
CD
CO
DO
T»
3
D
13_
I
/
'
<«-
>
—*
t
1
j
CD.
S"
CD"
Tl
CD
CD
CL
O
0
Zi
.x <
^CD
^<
O
5^
p"
<
CD
CO
CD
O
o
D
<
CD
<<
0
CD CL " <
CD 5- £-
Q.CQ a
°-o^
CD ^<
CD Zi
CD ^ =i
r—*- —< (JJ
o' o' o
o
o
° CD °
m O" CD"
2J. Q. Z!
3 o'to
a a —
c q Q.
Z> 2.,=;-
2 =t CO' m ~0_
Q. <
CD f~)
<
o ^?
CD ^
cn 92-
CD CO
CD
3 CD
FT O- co
° J3 "<
^ ^ co
2Si
O co co
cog-^
O^ -g
0.' ' O'
zr s* co co
CD O p., =f.
CO
zr co _,
CD c" CD
CD Q. CD
CQ O
aj CD o
S.|
CD 3
)
_
c
CQ
CD CD
O
O
CD
CL 5.
o
c
CQ
CL Q. CD
CT 2^
S- — CO
5" ^. CD
=« 21 3
^ C CO
^ CD
Q.
CD
»i^ — —'
g-CQ 5
--3 ^
o % g"
C CO CO
Q- -* CD
CD zr^
O" O CD
O C v<-
-CQ^.
o ;!>
CD O
o~ "*
CD v<
CL co
§
co CD CD
0.°-%
*% CD
• co.
C/) CD CD
S" 3-g
'05
3 2,o H
£" m i?
O 2. =* CD
O ZT CD fD
"-1 CD ju
^" 3 ^!
^ CD CD CD
CD ^Q. ^- Z3
W S" CD C
1 -So I
CD *< CO co
CO Zi CD ^
... CD co *<
q *< "o
co g- g. S
Q ZTTD C =ft
O CD O
i w 3
CD CD CO
'
Zj O i
co' co^
CD
CD 3
O CD
I j-r n CO
zr cT O H
7«" ~r~ ^3 *i*^'
$ C/) O cr -=
C?I=.|0
K-^g-S^ §.
co' c^ -* —r CD Q
n CD CD =
E^rf
^* 5f CD
O CD -i
"* ^ CD
S3?
CD CD Z3
CO Z! O
^< CD -*
CD °f O
CD Q. CO"
CD ;=r C
ro w
CD ^. q
^3-5
N'CD CD
o. 5- o =;•
x CD
T3 co ^< CL
o CQ'CQ -•
cr 2 CD 3
0 o1 Z. =
3 CD CD ..
— ^
w CD
CO
CD
O O
^ O
CD 3
CLT3
CD O
_Q CO O
C =±. O
CD —' Zj
—• Z 92-
^ Q CQ
°o^
88^
zi 2 ~
CL co zi'
CD CLCQ
Z3 CD _^
co r; =T
CD CD o
CD < co
-, O CD
CD
Ss
»
^ (D
CO m
CD 2".
5 O'
^W
CD O
_ O
CL < -5 -K O
CD CD CD 5 ~
a °; S q ^
i ? ? s- 3
CO O CD 3 g
5^-cQ o cr co'
o —r o CD F*"
Zi 2 — ^
—-3 ? O. CD
Zi CQ O_ CD -,
3 i- * ^ *•>
O C- -T-
N S-
CD O
o
cn 13 -3
CO CD q:
"
o
O_ CD
CD" ~"
zi q
o Q.
CD
CO
CD
i
3£
Is
" CD
c °- co
5- q CO .
CQ o O
CD 92. zi
~s t~
°- 3 CD
^39,
&is
CD ^ CD
CQ CD O.
P ~ 5"
^^ o^
D
o
O
13
O.
O
CQ
C/)
(/)
CD
C/>
C/)
CD
13
-------� |