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257
` P b C d
H g N i Z n M n ` ` Z n M n
`Pb Cd Hg `Hg [ 1 ] [ 2 ] 1 ` `5 `
`Hg`
`2` `1`
`3` `Zn`
2.1
1 ` 2 5 ` 2 5 ` `GP `
2 5` 2 5` 5` GP SUPER
(GP` ) ( )
`2` `13`
`13`
` P b C d `
`Hg`
2.2`
7mol/L ( ) 13`
(K 2Cr 2O 7 )
* 200433
Yang Shijun Qian Hang Shen Danqi (High School Affiliated to Fudan University, Shanghai 200433)
Abstract Two pieces of experimental plots planted with Chinese littleleaf box (Buxus microphylla) and Fatsiajaponica respectively plus another barren one as control plot were used for testing a burying disposal of aban-doned batteries to handle the heavy metal contamination through the absorption by plants. After the interiorpaste of abandoned batteries had been buried into the soil of those three experimental plots respectively, theeffects of absorbing heavy metals by plants were analysed by regularly detecting the residual contents of zincand etc. that were usually abundant in batteries as tracers in the soil. The findings showed that Chinese littleleafbox could well absorb the elements of buried heavy metals whilst Fatsia japonica could not do obviously.
Key word: Used batteries Heavy metals Contamination Burying
1970` 1992`
258
2.3`
1.0g (
) ` 10mL
HNO3`(7mol/L) `2`
`K2Cr2O7
`1 2`
( `100mL`
) `14` ( `Panasonic` `2`
`13` `14` )
2.4
` 1
2.4.1 `14`
`1`
`Hg` `max{0.013 0.17`} 0.17 g/g
2.4.2
`Hg`
`1 1 `
3.1
`5`
3.2`
( )
`1m2 ( `1 m2
)
`A ` ( )
`B ` (
) `C` (
)
3.3
`15cm`
3.4
`15` `5` `3`
` 7 d
`2005 `7` `15`
`15cm` `15cm`
`2 `
` 15cm`
( B ` ` B `
`15cm` `5 8cm`
Hg
0.073
0.11
1.70
0.013
0.17
0.033
0.10
0.033
1.70
0.1
0.0066
0.7
60.0
14.75
1
2
1
2
GP 1
GP 2
GP Super
( )
( )
( )
1 1
1 2
Cd
1.1
5.3
1.25
4.4
<0.3
0.9
1.1
0.6
0.3
1.25
<0.3
1.25
67
495
Pb
4
11
32.5
47
12
2
2
4
<2
22.5
<2
10
807
675
1) n ` n
` 5 `
259
)
3.5
3.5.1
7mol/L `37 ( )
`30 ( ) 25
3.5.2 [3]
`2mm 2 `
`1.00 2.00g`
`0 200
`15mL`
`45min `3mL 30
2 m L `
10min( ) `3mL`
`10min `5mL`
( )
` 1 0 0 m L `
`1 2`
3.6`
` 10 00 11 00 `
A B C ` ` 3 . 2
1)
` 2
C 4)
1.72
1.49
1.74
1.43
1.54
07 15
07 22
07 29
08 05
08 19
3 0
3 3 ( )
3 4 7 2 8
3 4
2 7
A 2)
1.55
1.39
2.00
1.90
1.73
B 3)
1.81
1.49
1.68
1.96
1.28
1) 2005 07 15` 2) `15cm` `1m
3) `5cm` 4) 2005 07 15 `15cm` `1 .5m 2005 07 22 `15cm`
2005 07 29 2005 08 05 `15cm` 2005 08 19 `15cm` `1
2 `
3.7`
` 1 `
`Zn` `Zn` `Cd Hg`
`1 `
`3 ` (Cd Hg Pb)
`Pb `Pb`
4.1` ( `3)
` 2 ` `X Z X
1000 100 Z (1 000` `1 000mL
` l 100 ` `100mL )
YPb
0.040
0.025
0.050
0.052
0.035
07 15
07 22
07 29
08 05
08 19
A
ZZn
3.110
3.925
4.874
4.276
3.474
YZn
0.201
0.282
0.244
0.221
0.200
ZPb
0.90
0.77
1.04
0.95
0.79
YPb
0.058
0.055
0.052
0.50
0.045
ZZn
3.349
3.690
4.896
4.684
2.076
YZn
0.185
0.248
0.291
0.239
0.162
ZPb
0.66
0.61
0.72
0.79
0.40
YPb
0.036
0.040
0.043
0.040
0.031
ZZn
2.460
3.874
3.080
4.688
4.816
YZn
0.143
0.260
0.177
0.328
0.313
ZPb
0.69
0.38
0.87
0.75
0.54
CB
1) Z ` (mg/L) Y ` (mg/g)
4.2``
`3` A` `YZn` 2005
07 22` ( `2005 07 15` `Zn`
)
1) . .
. 2004 8 11.
( 262 )
`A` `Pb`
262
SPME`
YPb
B ` ` 2 0 0 5 07 2 9 `
`2005 07 22`
C`
`A`
(2005 07 22) A`
`Zn`
`Pb`
Zn` `Pb`
( ) (
) C d H g
( 259 )
( 2006 11 03)
333333333333333333333333333333333333
(
)
( 2006 08 28)