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Comprehensive� Management of
Water Environment and
Sewage Works
Katsumi Moriyama Professor emeritus, Kyusyu Kyoritsu University,
Fukuoka, Japan
Contents 1. Comprehensive measures against environmental pollution
2. Classification of water system �
3. Sewage works in river basin �
4. Needs of nitrogen and phosphorus removal �
5. Sewage works in lake basin �
6. Regulation concept of pollutants �
2
1. Comprehensive measures against environmental pollution���
( Monitoring of environment, Establishment of regulation Laws against pollutants )�
Standards for drinking water (217 substances) Basic parameters…….50 Distinct toxic substances…127 (agrichemicals of 101 are included) Indistinct toxic chemicals… 40
Environmental quality standards related to *the protection of living environment : BOD, COD, N, P *the protection of human health : Harmful substances of 26
In 2002: Regulation Law Against Soil Contamination
Farm/stockbreeding/marine products
wastewater
Treated wastewater
In 1997: Standards of groundwater pollution (Harmful substances including nitrogen)
Human activity (consumption & production)
In 1991: Standards of soil contamination (Harmful substances, except nitrogen)
Drinking Water Leakage of harmful
substances into soil environment
Precipitation with pollutants
In 1947: Food Sanitation Law In 2003: Food Safety Basic Law
Since 1970’s, observation points:6,000
observation well:1,000
Standards of fertilizer Harmful substances
Compost
Effluent standards Harmful substances, BOD, COD, N, P
composting
Rivers
Lakes
Coastal waters
Sludge
3
Water Supply Plant�Wastewater
Treatment Plant�
Water Environment�
Soil Environment�
Groundwater Environment�
4
5
Designation of water body classes on rivers in Fukuoka urban area
6
7 Present state of river water quality in Fukuoka prefecture (2009)
○:Rivers (regulation parameter : BOD)
□:Lakes or reservoirs (regulation parameterCOD)
○、□:environmental standard
��������� �����is unachieved�
8
9
Standards related to conservation of human health
Organic chloride compounds and agrichemicals are added to the table(total:26-28 substances)
Environmental Quality Standard = 1/10(Effluent Standard) = Drinking Water Standard
Purification plant does not remove these harmful chemicals.
It is assumed that the effluent discharged from WTP is diluted to one-tenth in/by public water body.
Toxic Substances
WTP Effluent Standard
Environmental quality standard Drinking Water Public Water Body Ground Water
mg/L mg/L mg/L mg/L
Alkyl - mercury ND ND ND -
Total - mercury 0.005 0.0005 0.0005 0.0005
Cd (cadmium) 0.1 0.01 0.01 0.01
Pb (lead) 0.1 0.01 0.01 0.05
Organic phosphorous compound 1 - - -
Cr (chromium) 0.5 0.05 0.05 0.05
As (arsenic) 0.1 0.01 0.01 0.01
CN (cyanogen) 1 ND ND 0.01
NO3-N, NO2-N 100 10 10 10
10
Drinking water ・・・ total NOx-N(NO3-N + NO2-N) < 10 mg/L (as harmful chemicals )
Standard for irrigation water ・・・T-N 1 mg/L
Irrigation for paddy field (example 1) ・・・T-N 7 mg/L
Recommended nitrogen concentrations for water use
Drinking water ・・・NH4-N 0.1mg/L ( Upper limit for preventing high dosage of chlorine )��
1 0
5 4
3 2
10
7 6
8 9
Nitrogen mg/L
Irrigation for paddy field (example 2) ・・・T-N 5 mg/L, NH4-N 3 mg/L
Observed T-N concentration range at down steam of relatively polluted river in Japan
11
2. Classification of water system Discharge to river, Multiple use of water
Discharge to lake
�
lake
�City WTP
Discharge to closed sea area
closed sea
Intake and water supply
discharge
For water supply
Collective basin
For water quality conservation
12
Original design : Dr. TANBO
3. Sewage works in river basin(Control of BOD)
Wastewater treatment plant : 95%removal
= BOD 3g/person/day BOD 10 mg/L
Water supply BOD 0.5 mg/L
BOD 2.9 mg/L!(reusable)
Excrete BOD : 60g/person/day
4Q0
Dilution Effect For water quality conservation 900 m2/person =3Q0!
person� Q0 = 300 L/person/day
For water supply 300 m2/person = Q0 (300 L/person/day)
Q0
3Q0
13
2.9=�0.5×3Q0+10×Q0�
3Q0+Q0�
Stream Flow Conditions
c. low water-discharge (275-day discharge)
b. ordinary water-discharge(185-day discharge) a. plentiful water-discharge(95-day discharge)
flow
rate
Number of days
d. droughty water-discharge (355-day discharge)
Year
a b c d
flow
rate
a b c d
Min
imum
day
ly fl
ow ra
te
flow
rate
Water right
Given water right (The permission will be
renewed every ten years.)
河川維持流量の目的
①「動植物の生息地または生育地の状況」および「漁業」
からの必要流量 ②「景 観」からの必要流量
③「流水の清潔の保持」からの必要流量
④「舟 運」からの必要流量
⑤「塩害の防止」からの必要流量 ⑥「河口の閉塞の防止」からの必要流量
⑦「河川管理施設の保護」からの必要流量
⑧「地下水位の維持」からの必要流量
Objectives of river maintenance flow rate
Landscape
Water pollution control
Water use for shipping
For ecological system(fishes, plant life, bird life, etc.)
Land pollution control to salt-damage For preventing of river-mouth clogging
For protection of river facilities Maintenance of ground-water level
River Act 1896(first establishment)
Formation of an original right Traditional right of water (continuous right without permission)
Several hundred years ago A start of the cultivation of rice.
today
Classification of Water Right
River maintenance flow rate River maintenance flow rate
plentiful water-discharge
vested water rights flow rate
newly developable given water right
droughty water-discharge��� (355-day discharge)
plentiful water-discharge
flow rate
flow
rate
secu
red
wat
er ri
ght
March December June September
high
-wat
er ri
ght
BOD runoff related to population density
a) Basin area 1030 km2 b) Length of main stream 61 km c) Average flow at downstream�30 m3/ sec
a) 2860 km2 b) 143 km c)� 75 m3/sec
a) 205 km2 b)� 46 km c) 5 m3/sec Number of Cattle : 53,000 Number of Hog : 38,000
River CHIKUGO
River ONGA
Nitrogen load of livestock : 1.5 million person equivalent
River GOHSHI
14
Population density – BOD concentration
CHIKUGO ONGA ONGA
Population density, person/km2
15
4. Needs of advanced wastewater treatment (Nitrogen and Phosphorus Removal)
Kunmig Lake, Yunnan, China
16
Eutrophication
Lake Tai, China 17
5. Sewage works in lake basin (Control of nutrients)
Excrete BOD 60 g/person/day T-N� 11 T-P� 1.3
Conventional advanced wastewater treatment : (for closed sea area) T-N=5~10, T-P=0.5~1 mg/L
Q0!
Q0
T-N 0.2mg/L!T-P 0.01mg/L!COD 3 mg/L!
Target effluent standards of Lake BIWA are COD =3, T-N=3 and T-P=0.02mg/L.
Dilution effect will not be expected.
Water use category 2 in Lake- standards :
Water quality standard of lake
Observed water quality of river without pollution
<�
Water supply
T-N 0.2-2 mg/L!T-P 0.01-0.2 mg/L!
18
T-N 0.2 mg/L (Actual value observed:0.3-0.4)!T-P 0.01 mg/L (Actual value observed :0.01-0.02)!
Water quality standards for Lake BIWA
Lake BIWA
Collective basin 3,174km2
Population in the basin 1.36 million
Lake area 670km2
Average depth �41m
Volume of water 27.5 billion m3
19
Nutrients concentrations in river water
T-N
m
g/L!
T-P
mg/
L!
Flow m3/sec
Lake-Standards
Second grade class of Lake-standards < Observed water quality in river
T-N 0.2-2 mg/L!T-P 0.01-0.2 mg/L!
T-N 0.2 mg/L (actual:0.3-0.4) T-P 0.01 mg/L (actual:0.01-0.02)
River B
River A
Lake-Standards
20
Nutrients runoff related to livestock densely 21
N P
11 1.3
40 25
290 50
N&P Loading rate��(g/person/day、g/ Hog or Cattle /day )
Characteristic of nutrients runoff in river basin
Farming area/Basin area(%)
Influence of livestock
Down stream side
Up stream side
22
Influence of farming
6. Regulation concept of pollutant
(in consideration for the characteristic of water body)
�
Closed water body (Sea, Lake )
River
Water Use Sea water:Indirect use Lake water : Direct, Multi purpose
Direct, Multi purpose
Regulation Parameter
Objective : prevention of eutrofication T-N, T-P, COD
BOD (NH4-N, NO3-N : When nitrogen pollution is severe)
Regulation Concept
and Unit
Total pollutant load regulation
Unit : ton/year Annual 75% value : mg/L
Concentration regulation according to the water usage Unit : mg/L Daily average : mg/L
23
Conclusion
Monitoring of Environment, Establishment of Regulation Laws Against Pollutants for: Elimination of harmful/toxic substances from our environment Protection of human health Conservation of water-environment Conservation of soil-environment Food safety against various environmental pollutants
Basic Requirement for Environment
Sustainable Development
24
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