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![Page 1: AOP Engineering Laboratory Application of UV/H 2 O 2 as post-treatment of WWTP secondary effluents for water reuse Renato Falcão Dantas Department of Chemical.](https://reader036.fdocuments.us/reader036/viewer/2022062409/5697c01d1a28abf838cd08a1/html5/thumbnails/1.jpg)
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Application of UV/H2O2 as post-treatment of WWTP secondary effluents for water reuse
Renato Falcão Dantas
Department of Chemical Engineering University of Barcelona
COPPE, Universidade Federal do Rio de Janeiro
1Co-autors: Bruno S Souza, Angel Cruz, Santiago Esplugas, Carmen Sans, Marcia Dezotti.
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IntroductionIntroduction
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tory Water scarcity
WATER SHORTAGE
WATER SHORTAGE Need to seek for new
water sources
Need to seek for new
water sources
WASTEWATERREUSE
WASTEWATERREUSE Municipal effluentsMunicipal effluents
Lack of water sources
Climate change
Overconsumption
Population growth
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-Micropollutants contamination may cause effect on natural ecosystems and bioaccumulate;
-Tertiary treatments appear as an alternative
to minimize micropollutant discharge.
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tory Micropollutants
IntroductionIntroduction
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-The transformation of micropollutants depends on the matrix components.
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-Natural organicmatter (NOM);
-Soluble microbial products (SMPs);
-Trace harmful chemicals.
Micropollutants
IntroductionIntroduction
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-Atrazine ATZ was chosen as a model micropollutant.
-Persistent surface and ground water contamination (μg L-1)
-ATZ biorecalcitrant character does not favor its removal in WWTP. 5
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IntroductionIntroduction
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IntroductionIntroduction
Spanish legislation RREAL DECRETO EAL DECRETO
1620/20071620/2007RREAL DECRETO EAL DECRETO
1620/20071620/2007
Parameters common to all applications.
Specific parameters for each application.
•E.Coli
•Turbidity
•Suspended solids
•Nematodes
USEUSE
•Urban
•Agricultural
•Industrial
•Recreative
•Environmental
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To characterize the secondary effluent
from the WWTP.
To assess UV/H2O2 experimental conditions to achieve
disinfection, elimination of atrazine and reuse parameters.
To monitor the population of certain microorganisms,
which can be of interest for the disinfection evaluation .
ObjectivesObjectives
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ObjectivesObjectives
To study the oxidation and
biodegradability of the effluent during
UV/H2O2 treatment .
To set up the BDOC method for analysis of biodegradability.
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1: Reactor 2,05 L
2: Mercury lamps Low
pressure emission
wavelength of 254 nm.
3: Magnetic Stirrer.
4: Aluminum coating.
5: Access for sampling.
*: Cooling system (25 ° C).
ExperimentalExperimentalReactor
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-The effluent was collected from the WWTP of Gava-Viladecans (Barcelona, Spain).
Capacity: 64 million liters/day.
Objective to regenerate 32.000 m3/day 10
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ExperimentalExperimentalEffluent Sampling
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ExperimentalExperimentalEffluent Sampling
Primary Treatment
Primary Treatment
Secondary TreatmentSecondary Treatment
Discharge
Urban Wastewater
Sampling
Pre-filtration
Pre-filtration
UV/H2O2
Treatment
UV/H2O2
Treatment
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ExperimentalExperimentalExperimentation
SE sample
Filtration 10 µm
Stored at 4 oC
Spiked with 0.9 mmol L-1 of ATZ (100 µg L-1)
H2O2 Treatment Analysis
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Table 1: Characteristics of the secondary effluent
Parameter Value
pH 7.9
TSS (mg L-1) 63.5
VSS (mg L-1) 31.5
Turbidity (NTU) 13.6UV254 0.512
TOC (mg L-1) 18.2
N-NO-3 (mg L-1) 0.13
COD (mg L-1) 95.4
Redox (mV) 215.4
Alkalinity (mg HCO-3L-1) 507
Reduction with
filtration
20 %
10 %
50 %
ResultsResultsEffluent Characterization
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ResultsResultsDisinfection
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E.Coli (Escherichia Coli)
CB390 (Escherichia Coli host
strain).
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ResultsResultsDisinfection
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SOMCPH (Somatic coliphages), DNA virus that infect E. Coli.
SRC (Sulphite-Reducing Clostridia), very resitant bacterias (patogens).
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ResultsResultsATZ removal
Filtration in cartridges
Filtration in cartridges
Sample with ATZ
(2L)
ATZ extraction
with solvents
ATZ extraction
with solvents
Drying with N2
Drying with N2
Dissolution(2 mL)
Dissolution(2 mL)
ATZ concentated
sample
100 µg L-1 = Solid Extraction
100 µg L-1 = Solid Extraction
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0
20
40
60
80
100
0 4000 8000 12000 16000
[ATZ
](µg
L-1)
UV dose (mJ cm-2)
SE - UV/H2O2
SE - UV/H2O2 Low alkalinity
DW - UV/H2O2
DW - UV
SE - UV
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ResultsResultsATZ removal
Figure 1 – ATZ decay by UV/H2O2 process and direct UV-C photolysis in DW and SE.
30 min
Inorganic scavenging
ATZ is a photolabile compound
Blank experiments
Efficient for ATZ removal in SE
EfoM scavenging
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UV/H2O2 can achieve UV254 y DQO reductions around 80 % (2h).
Although UV alone could achieve similar ATZ removal, UV is
less effective for SE oxidation than UV/H2O2.
ResultsResultsEffluent Oxidation
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ResultsResultsReuse
Golf courses irrigation:
SST: 20 mg/L
Turbidity: 10 NTU
E.Coli: 200 CFU/100 mL
Urban and residential reuse:
SST: 10 mg/L
Turbidity: 2 NTU
E.Coli: 0 CFU/100 mL
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ResultsResultsBiodegradability
The determination of BDOC (Biodegradable
Dissolved Organic Carbon) measures the change
in the amount of dissolved organic carbon in a
sample after the degradation process carried out
by endogenous bacteria from the effluent.
Ability of an effluent degraded by the
effect of its own content of bacteria.
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ResultsResultsBiodegradability
The treatment produces no changes on the effluent
biodegradability.
The treatment produces no changes on the effluent
biodegradability.
Raw effluent
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UV/H2O2 Treatment with 5 ppm of H2O2 can achieve the disinfection
of E. coli, SRC, SOMCPH i CB390 at 5 min.
ATZ was reduced to undetectable levels in 35 minutes.
ATZ removal was importantly affected by the direct UV-C
photolysis, however the application of UV/H2O2 treatment under the
studied conditions achieved higher oxidation of SE.
ResultsResultsConclusion
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ResultsResultsConclusion
BDOC analysis indicates that UV/H2O2 treatment at the applied
conditions did not changes the biodegradability of the effluent.
UV/H2O2 treatment under the used conditions can achieve water
quality standards for reuse after 35 minutes (golf courses
irrigation), achieving after 100 minutes the quality for urban
residential reuse.
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AknowledgementsAuthors are grateful to:
Professor Fancisco Lucena (UB) for the microbiological analysis.
Spanish Ministry of Education and Science (CTQ2008-1710/PPQ; Consolider-Ingenio 2010 CSD2007-00055);
The Brazilian “Coordenação de Aperfeiçoamento de Pessoal de Nível Superior” CAPES for funds received to carry out this work.
NOVEDAR_Consolider
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Thank you for the attention!
Thank you for the
attention
Questions?
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Method Matrix k (min-1)
UV/H2O2 DW 2.0706 SE 0.1359
SE low alkalinity 0.1610 UV
DW 0.3633 SE 0.1142
1
Pseudo first-order kinetic constant for the ATZ removal
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1
(C2)
CDIT (m/z=230)
DEA (m/z=188)
DEIA (m/z=146)
(C1)
(C1*)
(B1)
DEHA (m/z=170)
(A1)
DIA (m/z=174)
DEIA (m/z=146)
(A2)
OAAT (m/z=128)
(B3)
ODIT (m/z=212)
ATZ (m/z=216)
HA (m/z=198)
(B2)(B2*)
DIHA (m/z=156)
HA (m/z=212)
(D1) (D2)
ATZ (m/z=216)
Direct UV photolysis pathway
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Period Reaction Time (h)
UV expensed (kWh m-
3)
UV Cost (€ m-3)
H2O2 consumption
(kg m-3)
H2O2 cost
(€ m-3)
Total costs
(€ m-3)
Disinfection 0.067 0.068 0.008 6.17x10-4 0.003 0.011 ATZ
elimination 0.580 0.592 0.070 2.55x10-3 0.013 0.083
Complete reaction
2.000 2.040 0.240 5.0x10-3 0.025 0.265
1
Theoretical energy cost of UV lamps and H2O2 consumption of UV/H2O2 process to treat SE
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Molar ratio H2O2 cost (€ m-3) Total cost (H2O2 cost
+ 2h UV lamps cost) (€ m-3)
H2O2/TOC = 1 0.20 0.44 H2O2/TOC = 2 0.40 0.64 H2O2/TOC = 3 0.60 0.84 H2O2/TOC = 4 0.80 1.04
1
Total cost as a function of UV/H2O2 ratio.
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Conditions kWh per g C-1 € per g of eliminated C
[H2O2]o=5.1 mg L-1 2.925 0.344
H2O2/TOC = 1 1.463 0.172 H2O2/TOC = 2 1.164 0.137 H2O2/TOC = 3 0.925 0.109 H2O2/TOC = 4 0.875 0.103
1
Theoretical energy to mineralize SE by UV/H2O2 process
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0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
H2O2/ATZ = 2.8 10-3 H2O2/TOC = 1 H2O2/TOC = 2 H2O2/TOC = 3 H2O2/TOC = 4
RO
H_U
V (
10-1
4 M s
L J
-1)
SE
DW
H2O2 /ATZ = 2.8 10-3 H2O2 / TOC = 1 H2O2 / TOC = 2 H2O2 / TOC = 3 H2O2 / TOC = 4
ROH_UV values for different experimental conditions in SE and DW. [pCBA]0 = 240 mg L-1
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0.0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
30 m
in
60m
in
90 m
in
120
min
30 m
in
60 m
in
90 m
in
120
min
30 m
in
60m
in
90 m
in
120
min
30 m
in
60m
in
90 m
in
120
min
H2O2/TOC = 1 H2O2/TOC = 2 H2O2/TOC = 3 H2O2/TOC = 4
BD
OC
/ T
OC
H2O2/TOC = 1 H2O2/TOC = 2 H2O2/TOC = 3 H2O2/TOC = 4
Biodegradability (BDOC/TOC) versus treatment time at different H2O2/TOC molar ratio during UV/H2O2 process in SE. UV fluence = 8.04 mWcm-2
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