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International Success Stories in Wastewater Treatment and Reuse

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Title: International Success Stories in Wastewater Treatment and Reuse


1
International Success Stories in Wastewater
Treatment and Reuse
  • MEDAWARE

2
Outline
  • Introduction Benefits and Domains of Wastewater
    Reuse
  • Success Stories in Mediterranean Region
  • Spain Vitoria and Tenerife Plants
  • Greece Chalkis Island Plant
  • Italy Catania Projects
  • Palestine Dan Region Project
  • Cyprus Larnaca Plant
  • Other Examples
  • Success Stories all over the World
  • Australia Bolivar Project
  • USA Monterey, California

3
Introduction
  • Best Practices and Success Stories in Wastewater
    Treatment Systems are
  • Systems employing an effective treatment
    technology leading to a good quality effluent
  • Systems with high contribution into the overall
    increase of wastewater reuse in the relevant
    country
  • Systems achieving sustainable wastewater
    treatment and reuse practices

4
Benefits of Wastewater Reuse
  • Potential benefits of wastewater reuse are most
    obvious for the arid areas but the general
    increasing pressures on water resources all over
    the world is also making wastewater reuse
    attractive in other areas.

All these benefits contribute to the ultimate
objective of sustainable use of water resources
5
Uses of Reclaimed Water
6
Success StoriesMediterranean Region
7
The Mediterranean Region The Need for
Wastewater Reuse
  • It is characterised by the low level and
    irregularity of water resources, through time
    (summer drought, interannual droughts) and space
    (dry in the South).
  • It includes 60 of the world population with
    renewable natural resources of less than 1,000 m3
    of water/inhabitant/year.
  • The strong growth in urbanisation, tourism,
    irrigation and population can only increase
    tensions on water demand.

8
Spain Vitoria-Gasteiz North of Spain
9
Objectives of the Reuse Scheme
  • A Tertiary Treatment Station was added in 1995 to
    the Municipal Wastewater Treatment Plant to
    obtain a better effluent capable of
  • Increasing water supply to Vitoria and Bilbao
    cities
  • Replacing ecological flows to the Zadorra dams
    when they are deficient
  • Irrigating 10,000 ha of agricultural land
  • Protecting the trout fish of the Zadorra River

10
The Treatment Technology
  • Secondary treatment (screening, sedimentation,
    nitrification-denitrification) tertiary
    treatment (coagulation-flocculation, sand
    filters, chlorine disinfection)

11
Settling Ponds
Flocculation Chambers
Sand Filter Filling up
Sand Filter Washing
Filtered Water
12
Mixing Pumps
Chlorination Chamber
13
Effluent Quality
Parameter Min Max
pH 6.9 7.6
Conductivity 700 1000
Turbidity (NTU) 0.3 1.7
S.S (mg/l) 1 2.5
BOD5 (mg/l O2) 1 8
COD (mg/l O2) 3 20
N-NH3 (mg/l N) 23 30
N-NO3 (mg/l N) 0.1 0.2
PO4 (mg/l PO4) 0.3 1.5
TC (ufc/100 ml) 0 0
FC (ufc/100 ml) 0 0
Dose NaClO (mg/l Cl2) 5 8
SDI (Silt Density Index) 25 to 0.4 60 to 1
Metals (mg/l) Level
Fe lt0.21
Al lt0.32
Zn lt0.25
Ni lt0.07
Cr 0.007
Co 0.009
Cd 0.002
Cu 0.008
Pb 0.0014
Mo 0.0026
Mn 0.076
14
Effluent Reuse
  • The Plant will generate 20,000,000 m3/year of
    treated effluent
  • 8,000,000 m3/year will be used for irrigation
    without cultivations restriction
  • 12,000,000 m3/year will be added to the Zadorra
    River ecological flow
  • The effluent is suitable for drinking water
    supply!! (illegal at present)
  • Cost 0.06 /m3

15
Treated Effluent
Treated Effluent
Irrigation
Irrigation
16
Spain Tenerife Santa Cruz de Tenerife
17
Plant General Characteristics
  • Constructed between 1995 and 1997 to alleviate
    the water shortage of the island of Tenerife
  • Designed for a flow of 90,000 m3/d
  • Effluent is used to irrigate a crop area located
    70 km away from the Plant

Plant
Reservoir
18
The Wastewater Reuse System
61 km 0.6 km diameter Gravity Pipe completely
filled
50,000 m³ 10 m deep
15.000 m3
6.7 km
457,000 m³ 20 m deep
250,000 m³ 15 m deep
Activated Sludge
19
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20
Gravity Pipe
San Isidro Reservoir
El Saltadero Reservoir
San Lorenzo Reservoir
21
San Lorenzo Reservoir
22
San Lorenzo Reservoir
23
San Lorenzo Reservoir
24
Desalination Unit
25
Sand Filtration Unit
26
Electrodialysis
27
Effluent Quality (Influent to San Isidro
Reservoir)
Parameter Winter Spring-Summer Winter-Spring
pH 7.74 7.98 7.91
EC (µS/cm) 1,288 1,659 1,585
S.S (mg/l) 8 5 11
COD (mg/l) 48 59 52
N-NH3 (mg/l) 26.3 42.3 23.5
N-NO2 (mg/l) 0.04 0.02 0.03
N-NO3 (mg/l) 0.06 0.46 0.31
PO43- (mg/l) 27 41 30
SO4 2- (mg/l) - 119 91
S2- (mg/l) 2.71 4 2.1
FC (log) 4.1 4.2 4.1
28
Problem and Solution
  • Anaerobic conditions build-up in the long pipe
    that transports the effluent leading to sulphide
    generation
  • Fresh water over-saturated with DO started to be
    injected at 10 km from the pipe inlet ?
    nitrification-denitrification process ? anoxic
    conditions ? inhibition of sulphide generation ?
    reduction in NH3-N ? less chlorine requirement
    for disinfection

29
Effluent Reuse
  • Reuse of 7,000,000 m3/year of treated effluent
  • Irrigation of 775 ha of banana mainly, plus
    potatoes and tomatoes
  • Acceptable quality, and studies are ongoing for
    its improvement using micro and ultra filtration
  • Cost 0.45 /m3

30
Greece City of Chalkis
31
Plant General Characteristics
  • Constructed in 1994
  • Reclamation of wastewater started in 1998
  • Daily flow of 9,000 m3/day

32
Treatment Technology
33
Disinfection Process
  • In 1998, ultraviolet disinfection using two types
    of UV systems (closed and open type) and
    chlorination was introduced
  • The first UV bank produced 55 mWs/cm2. After
    test, it was decided to increase the total dose
    of the UV lamps to 120 mWs/cm2

34
Effluent Quality
Parameter Average Value
Temperature ºC 21.2
pH 7.14
Redox mV 60
Suspended Solids (SS) mg/l 12
COD mg/l 54
BOD mg/l 9
N-NH4 mg/l 6.6
N-NO3- mg/l 5.5
N-NO2- mg/l 0.3
Total Phosphorous mg/l 4.0
UV Transmission T 55.3
35
Coliform Distribution Per Stage
36
Effluent Reuse
  • Reuse of 4000 m3/day of treated effluent for
    landscape irrigation (280 ha with 100,000 trees
    and bushes) and industrial use

1994
2000
37
Italy Catania Caltagirone and Grammichelle
Projects
38
Projects Characteristics
  • Grammichelle
  • Developed in 2001
  • Flow 1,500 m3/d
  • Activated Sludge Chlorine Contact Tank Tank
    Storage
  • Quality BOD5 lt 10 mg/l COD lt 30 mg/l
  • Reused for irrigating orange, olive trees, crops
    for caning industry, and vegetables to be eaten
    cooked
  • Cost 0.11 /m3
  • Caltagirone
  • Developed in 2001
  • Flow 5,200 m3/d
  • Activated Sludge Sand Filtration Reservoir
    Storage
  • Quality BOD5 lt 10 mg/l COD lt 30 mg/l
  • Reused for irrigating orange, olive trees, crops
    for caning industry, and vegetables to be eaten
    cooked
  • Cost 0.11 /m3

39
PalestineDan Region ProjectTel Aviv
40
Plant and Effluent Characteristics
  • Constructed in 1991-1994
  • Flow of 120,000,000 m3/yr

Parameter Value
BOD5 mg/l lt0.5
COD mg/l 7
FC/100 ml 1
TC/100 ml 1
TSS mg/l 1
TN mg/l 0.4
TP mg/l 0.08
41
Treatment Technology
42
Soil Aquifer Treatment Basins
43
Effluent Reuse
  • In 1993, 75 out of 87 Mm3 of treated wastewater
    was recharged and about 100 Mm3 (together with
    groundwater) was used for agricultural irrigation
    in Negev of an area of 16,000 ha of field-crops
    (cotton, cereals, sunflower, etc.), fruit
    plantations, vegetables, and flowers aimed for
    export
  • Cost 0,45 US/m3

44
Cyprus Larnaca PlantMeneou Area
45
Plant General Characteristics
  • Located behind the International Airport of
    Cyprus
  • Operation started in 1995, and reuse for
    irrigation purposes in 2000
  • Design capacity 8,500 m3/d In summer 5,500
    m3/d and in winter 4,500 m3/d

46
Treatment Technology
47
Sand Filtration Unit
Irrigation Pumping Station
Sludge Drying Beds
Filter Press
48
Effluent Quality
Parameter Value Removal Efficiency
pH 7.5 -
Total EC/100 ml 5 -
Intes. EC/100 ml 0 -
S.S (mg/l) 1.7 99.46
BOD5 (mg/l) 2.6 99.37
COD (mg/l) 56 93.1
N-NH3 (mg/l) 2.4 96.76
N-NO3 (mg/l) 6.9 -
Total N 8.5 90.22
Conductivity mS/cm 3.4 -
Parameter Value Removal Efficiency
Cl 555 2.97
B 0.8 -
P 0.6 92.04
Cd lt0.01 -
Cu 0.01 -
Ni 0.06 -
Pb 1.87 -
Zn 0.35 -
Cr III lt0.01 -
Residual Cl 0.2 -
49
Effluent Reuse
  • Irrigation of 150 ha of corn and alfalfa at
    Dromolaxia Village these started to grow
    noticeably fast
  • Irrigation, during the summer season, of gardens,
    parks and fields owned by hotels, the
    International Airport and Larnaca Municipality
  • Cost 0.5 /m3

50
Other Success StoriesMediterranean Region
51
Country Name of the Plant Capacity m3/day Treatment Technology Reuse Application Cost
Jordan Al Samra 150,000 3 trains of ponds 2 anaerobic, 4 facultative, 4 maturation Irrigation of 500 ha of olive trees, forest area, fodder crops and non-restricted vegetables for experiments NA
Morocco City of Drargua 600 Primary treatment (aerobic basins), secondary treatment (sand filters), tertiary treatment Irrigation of 6 ha of alfalfa, tomatoes, zucchini, corn and grass NA
Tunisia Cebela 100,000 NA Irrigation of 3,200 ha of cereals (wheat, barley, triticale and hay), golf courses, green belts, hotel gardens, orchards 0.003 /m3
Turkey Gaziantep 200,000 Primary treatment, secondary treatment (Activated Sludge) Irrigation of 8,000 ha of edible crops, vegetables and nearby fields NA
52
Success StoriesNon-Mediterranean Region
53
AustraliaBolivar Project
54
Plant Characteristics
  • Developed in 1999-2002
  • Flow 150,000 m3/day
  • Treats urban and industrial wastewater
  • Serves Adelaide and Gawler-Elizabeth-Salisbury
    regions in South Australia

Tanks and Lagoons
Tertiary Treatment Plant
55
Treatment Technology
Screening and Grit Removal
Pre-Aeration Tanks
Primary Sedimentation
Activated Sludge
Dissolved Air Flotation Filtration
Settlement Tanks
Oxidation Ponds
Chlorine Disinfection
Aquifer Storage Recovery
Sludge Stabilization Ponds

Pre-Aeration Tanks
56
Aquifer Storage and Recovery (ASR)
57
Effluent Quality
Bolivar WWTP Effluent Bolivar WWTP Effluent
Parameter Value
pH 6.9
Temperature C 18.3
EC/100 ml -
DO (mg/l) 6
TSS (mg/l) -
TN (mg/l) 7.8
TP (mg/l) 2.3
TOC (mg/l) 20.1
Conductivity (µS/cm) 1,975
ASR System Effluent ASR System Effluent
Parameter Value
pH 7.06
Temperature C 22.7
EC/100 ml 0
DO (mg/l) 0
TSS (mg/l) 1
TN (mg/l) 15.6
TP (mg/l) 0.24
TOC (mg/l) 10.6
Conductivity (µS/cm) 2,470
Achievement of quality required for
non-restricted irrigation!
58
Effluent Reuse
  • Irrigation of 3,500 ha of vegetables across the
    Northern Adelaide Plains through Virginia
    Pipeline Scheme (see Green area on photo)
  • Watering of plant lawns and gardens
  • Cleaning and flushing of equipment inside the
    plant
  • Cost Construction 53 Million AU and Operation
    0.12 AU/m3

59
USA California
60
Wastewater Reuse in California
  • Wastewater reuse has been practiced since 1890
  • Historically, agricultural reuse has been
    practiced
  • Over the last decade landscape irrigation in
    urban areas and groundwater recharge have been
    increasingly practiced

61
Major Wastewater Reclamation Systems
Wastewater Treatment Plant Name Reclaimed Water Delivery m3/d
San Jose Creek 67,101
City of Bakersfield 56,875
Whittier Narrows 53,648
City of Modesto 48,630
Fresno-Clovis Metropolitan Area Facilities 46,284
Pamona 32,435
Laguna 31,560
Michelson 29,536
City of Bakersfield 26,447
City of Tulare 21,114
Lancaster 18,539
South Tahoe 17,184
Total 449,355
62
Types of Crops Irrigated
Food Crops Food Crops Non-Food Crops
Apples Grapes Alfalfa
Asparagus Lettuce Christmas trees
Avocados Maize Clover
Barley Peaches Cotton
Beans Peppers Eucalyptus trees
Broccoli Pistachios Flower seeds
Cabbage Plums Hay
Cauliflower Squash Maize
Celery Sugarbeets Sod
Citrus Wheat Vegetable seeds
Other trees
63
Monterey Wastewater Reclamation Study for
Agriculture (1980)
  • A pilot tertiary reclamation plant (employing two
    parallel tertiary treatment units) was added to
    Castroville 1500 m3/day-WWTP
  • Dechlorination of final effluent was practiced
    till 1983 and was stopped afterwards
  • The objective is to study full-scale farm
    practices using reclaimed municipal wastewater

64
Pilot Study Details
  • Two 5-ha experimental plots were used in the
    lower Salinas Valley
  • On one plot, artichokes were grown
  • On the other, a succession of broccoli,
    cauliflower, lettuce and celery
  • The plots were intended to provide data on crop
    response to two variables
  • Irrigation water type (T22 effluent, FE effluent,
    well water)
  • Fertilization rate (33, 66, 100)

65
Pilot Study Results Treated Effluent Quality
  • Salinity in the reclaimed effluents was a bit
    high, but not so high as to cause soil
    permeability problems
  • Coliform levels of reclaimed effluents met the
    most stringent of the California Wastewater
    Reclamation Criteria
  • The reclaimed effluents had levels of heavy
    metals an order of magnitude lower than the metal
    input from impurities in commercial fertilizers

66
Pilot Study Results Plant Tissues
  • Analysis of plant edible tissues showed that
    there was no difference, between plants irrigated
    with reclaimed effluents and plants irrigated
    with well water, in the level of
  • Heavy metals
  • Total and Faecal Coliforms

67
Pilot Study Results Crop Yield
  • Celery and broccoli crops gave higher yield with
    the reclaimed effluent irrigation
  • Yields of lettuce and celery showed interaction
    of water type and fertilization reclaimed
    wastewater irrigation improved yields in
    unfertilized plots but had little effect on plots
    receiving fertilizers
  • Artichoke yields were similar with all three
    irrigation water types
  • Reductions of up to 33 of fertilizer application
    were possible when reclaimed wastewater is used

68
Other Pilot Study Results
  • No leaf damage due to residual chlorine (thats
    why dechlorination practice was stopped in 1983)
  • No difference in plant appearance for all 3 types
    of irrigation water
  • Cold storage tests showed no unexpected
    deterioration of produce
  • The shelf life of produce irrigated with
    reclaimed wastewater was sometimes superior to
    that irrigated with well water
  • No adverse impacts in terms of soil or
    groundwater quality degradation
  • No health problems with project personnel

69
Monterey Regional Wastewater Treatment and
Recycling Plant
  • In 1992-1997, Monterey Regional Water Pollution
    Agency and Monterey County Water Resources Agency
    developed two projects
  • A Water Recycling Facility at the Regional
    Treatment Plant
  • A distribution system including 45 miles of
    pipeline and 22 supplemental wells
  • The Plant employs the Title 22 (T22) treatment
    technology

70
Effluent Reuse
  • The project produced 8,000 m3/day of reclaimed
    wastewater distributed to farmlands in the
    Northern Salinas Valley for food crops irrigation
  • Technicians perform frequent water quality tests
    to monitor the system
  • During rainy season, excess water is safely
    discharged 2 miles away in the Monterey Bay

71
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72
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