Environmental Engineering Reference
In-Depth Information
Table 2
(continued)
Type of samples/substances
Sample
Source of light/
wavelength (nm)
Production rate
of HO
•
×
10
References
−
11
−
1
)
(Ms
−
Xe lamp
b
Mostofa KMG and Sakugawa H (unpublished data)
a
NO
3
Milli-Q water
0.01
Xe lamp
b
Mostofa KMG and Sakugawa H (unpublished data)
a
Suwannee River Fulvic Acid (SRFA)
Milli-Q water
1.20
Xe lamp
b
SRFA
Milli-Q water
6.00
White et al. (
2003
)
Xe lamp
b
Mostofa KMG and Sakugawa H (unpublished data)
a
Tryptophan
Milli-Q water
1.70
Xe lamp
b
Mostofa KMG and Sakugawa H (unpublished data)
a
Suwannee River Humic Acid (SRHA)
Milli-Q water
1.10
Xe lamp
b
Mostofa KMG and Sakugawa H (unpublished data)
a
Phenylalanine
Milli-Q water
0.40
Xe lamp
b
Mostofa KMG and Sakugawa H (unpublished data)
a
DAS1
Milli-Q water
0.31
Xe lamp
b
Mostofa KMG and Sakugawa H (unpublished data)
a
DSBP
Milli-Q water
0.30
Xe lamp
b
Mostofa KMG and Sakugawa H (unpublished data)
a
H
2
O
2
Milli-Q water
0.26
Xe lamp
b
Mostofa KMG and Sakugawa H (unpublished data)
a
Peracetic acid
Milli-Q water
0.25
Sea-salt particulate matter, extracted from
coastal waters
Seawater
summer, midday,
sunlight
~2778-27778
Anastasio and Newberg (
2007
)
a
Production rates (Mostofa and Sakugawa) calculated for initial 60 min irradiation and normalized to sunlight intensity (noon time) using 2 nitro benzalde-
hyde solution (8 mM) at the Campus of Hiroshima University, Japan as well as the rates for standard substances mentioned here is calculated after deduction
of rate of MQ water
Rates for standard organic substances adjusted for 1 mg L
−
1
of each substances
b
Xe light intensity is normalized to sunlight intensity
