Concentrated organic manure , sludge, pk mani
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Jan 16, 2014
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About This Presentation
Concentrated organic manure, sewage and sludge used in agriculture
Slide Content
Sewage and sludgeSewage and sludge
Concentrated organic manures
Class: 6
and
Concentrated organic manures
Class: 6
and
Concentrated organic manures
Oil cake, Bone meal, blood meal, fish manure, meat meal etc.
Oilcakes: is the residue left after the oil is extracted from oil bearing seeds
Edible oil Cakes : feed to
the cattle
Coconut cake : 3.0% N
Mustard Cake : 5.2% N
Ground nut cake : 7.2% N
Safflower cake : 7.9% N
Sesame cake : 6.2% N
OC should be well powdered
before
application for quick decomposition
nutrients are liberated after
decomposition of oil cakes,
C:N=3-15, low,
nitrifies quickly, nearly 50-80%
N is available within 2-3 months,
Used as top dressing
Oil cake, Bone meal, blood meal, fish manure, meat meal etc.
Oilcakes: is the residue left after the oil is extracted from oil bearing seeds
Edible oil Cakes : feed to
the cattle
Coconut cake : 3.0% N
Mustard Cake : 5.2% N
Ground nut cake : 7.2% N
Safflower cake : 7.9% N
Sesame cake : 6.2% N
OC should be well powdered
before
application for quick decomposition
nutrients are liberated after
decomposition of oil cakes,
C:N=3-15, low,
nitrifies quickly, nearly 50-80%
N is available within 2-3 months,
Used as top dressing
Concentrated organic manures has no residual effect
Except Mahua Cake Oil Cake may apply as top dressing
Non-edible Oilcakes
Castor Cake : 4.3% N
Neem cake : 5.2% N
Mahua Cake : 2.6% N
Toxic substances: (Saponin)
Muhua cake- poorest
N available after 2 months of
appln.
Suitable for orcahrd , Long Day
Crop like Sugarcane, Tapioca
Neem cake: used for controlling
nematodes @ 1 t /ha
Except Mahua Cake Oil Cake may apply as top dressing
Non-edible Oilcakes
Castor Cake : 4.3% N
Neem cake : 5.2% N
Mahua Cake : 2.6% N
Toxic substances: (Saponin)
Muhua cake- poorest
N available after 2 months of
appln.
Suitable for orcahrd , Long Day
Crop like Sugarcane, Tapioca
Neem cake: used for controlling
nematodes @ 1 t /ha
Use as a fertilizer:
Neem cake organic manure protects plant roots
from Nematodes, soil grubs and White ants probably due
to its residual limonoid content.
It also acts as a natural fertilizer with pesticidal properties.
Neem cake is widely used in India to fertilize paddy ,
cotton and sugarcane.
Neem seed cake also reduce alkalinity in soil, as it
produces organic acids on decomposition.
Being totally natural, it is compatible with soil microbes,
improves rhizosphere microflora and hence ensures
fertility of the soil.
The cake contains salannin, nimbin, azadirachtin and
azadiradione as the major components.
Neem cake organic manure protects plant roots
from Nematodes, soil grubs and White ants probably due
to its residual limonoid content.
It also acts as a natural fertilizer with pesticidal properties.
Neem cake is widely used in India to fertilize paddy ,
cotton and sugarcane.
Neem seed cake also reduce alkalinity in soil, as it
produces organic acids on decomposition.
Being totally natural, it is compatible with soil microbes,
improves rhizosphere microflora and hence ensures
fertility of the soil.
The cake contains salannin, nimbin, azadirachtin and
azadiradione as the major components.
Hoof and Horn Meal organic fertilizer is a great source
of N (12%) for organic garden plants, especially high feeders
like corn, tomato and lettuce. It also has a small amount
of P (2%) for healthy roots and stems.
It is made from cooked ground dehydrated cattle hooves
and horns obtained from slaughterhouses.
H&H Meal is equivalent to Blood Meal in N content, but
the nutrient availability is slower, which is better for
organic crops and with less "leaf burn" damage and it
contains P.
It nutrient availability starts at around 4-6 weeks and can
lasts 12 months.
of N (12%) for organic garden plants, especially high feeders
like corn, tomato and lettuce. It also has a small amount
of P (2%) for healthy roots and stems.
It is made from cooked ground dehydrated cattle hooves
and horns obtained from slaughterhouses.
H&H Meal is equivalent to Blood Meal in N content, but
the nutrient availability is slower, which is better for
organic crops and with less "leaf burn" damage and it
contains P.
It nutrient availability starts at around 4-6 weeks and can
lasts 12 months.
Bone meal
Essentially P fertilizer, slow acting manure, apply at the time
of planting or sowing, suitable for acid soil, rich in sesquioxides
Bones consisits of Ca
3
(PO
4
)
2
together with
some organic substances like fats and protiens.
So, good source of Lime, phosphoric acid
and N
The presence of fat hinders the process of decomposition.
Therefore, bones are sometimes treated with steam to remove fat
before they crushed. Steamed bone meals are more brittle, and easy
to crush and decomposes quickly.
Bone meal Steamed bone meal
Total P
20.2 22.0
Avail P
(citrate soluble)
8.0 16.0
Essentially P fertilizer, slow acting manure, apply at the time
of planting or sowing, suitable for acid soil, rich in sesquioxides
Bones consisits of Ca
3
(PO
4
)
2
together with
some organic substances like fats and protiens.
So, good source of Lime, phosphoric acid
and N
The presence of fat hinders the process of decomposition.
Therefore, bones are sometimes treated with steam to remove fat
before they crushed. Steamed bone meals are more brittle, and easy
to crush and decomposes quickly.
Bone meal Steamed bone meal
Total P
20.2 22.0
Avail P
(citrate soluble)
8.0 16.0
200 major cities in India generate 2600 million m
3
of
raw sewage per year
Production of sludge is estimated to be around 1200
tonnes per day, potentiality is 4000 tonnes per day
Delhi city produces 600 Mm
3
of waster water per
day, 175 Mm
3
untreated
Five major sewage treatment plants in Delhi
produce 1200 M lit treated effluents per day-used to
irrigated crops
Sewage sludge –a potential threat to heavy
metal pollution in Indian soils
3
of
raw sewage per year
Production of sludge is estimated to be around 1200
tonnes per day, potentiality is 4000 tonnes per day
Delhi city produces 600 Mm
3
of waster water per
day, 175 Mm
3
untreated
Five major sewage treatment plants in Delhi
produce 1200 M lit treated effluents per day-used to
irrigated crops
Sewage sludge –a potential threat to heavy
metal pollution in Indian soils
Disposal of sewage effluents for irrigation
Sewage has two components,
Solid portion technically known as sludge
Liquid portion, commonly known as
sewage water or effluent . The raw or crude
sewage consists mainly of water carrying various solids
partly in soln and partly in suspension
Both the components of sewage are used in increasing Both the components of sewage are used in increasing
crop production but due to crop production but due to bacterial contaminationbacterial contamination
untreated sewage is not advocated for growing untreated sewage is not advocated for growing
vegetablesvegetables
Bacterial contamination is reduced by fermentation and
Oxidation treatment
Solid portion technically known as sludge
Liquid portion, commonly known as
sewage water or effluent . The raw or crude
sewage consists mainly of water carrying various solids
partly in soln and partly in suspension
Both the components of sewage are used in increasing Both the components of sewage are used in increasing
crop production but due to crop production but due to bacterial contaminationbacterial contamination
untreated sewage is not advocated for growing untreated sewage is not advocated for growing
vegetablesvegetables
Bacterial contamination is reduced by fermentation and
Oxidation treatment
Settled sludge :- Produced by plain sedimentation
Digested activated sludge :-
Digested sludge:- Digested sludge is obtained from raw
sewage through settling by gravity and sedimentation.
The solid parts subsequently digested anaerobically for a
period of 10-15 days. This digested material is then pumped
in suitable beds for drying out. This sludge’s usually gave an
offensive odour but they are free from pathogenic
organisms present in unprocessed sludges
Activated sludge: produced by a special rapid aerobic
treatment of sewage that results in coagulation and
settling of suspended materials. This pdt is superior to
digested sludge and has no offensive adour.
Chemically precipitated sludge:- Produced by treatment
of certain chemicals to remove certain poisonous
compounds and heavy metals as also to precipitate the
dispersed material.
Digested activated sludge :-
Digested sludge:- Digested sludge is obtained from raw
sewage through settling by gravity and sedimentation.
The solid parts subsequently digested anaerobically for a
period of 10-15 days. This digested material is then pumped
in suitable beds for drying out. This sludge’s usually gave an
offensive odour but they are free from pathogenic
organisms present in unprocessed sludges
Activated sludge: produced by a special rapid aerobic
treatment of sewage that results in coagulation and
settling of suspended materials. This pdt is superior to
digested sludge and has no offensive adour.
Chemically precipitated sludge:- Produced by treatment
of certain chemicals to remove certain poisonous
compounds and heavy metals as also to precipitate the
dispersed material.
Activated sludge contains :
3-6% N, ~ 2% P
2
O
5
and 1% K
2
O
in form a that can become readily available when applied
to soil. (ISSS,2009)
On an average, the sewage sludge has the following
composition on oven dry basis
Composition
Amount on oven dry weight basis (%)
Organics 40-50
Inert materials 30-40
Bio-resistant organics10-15
Miscellaneous substances5-8
3-6% N, ~ 2% P
2
O
5
and 1% K
2
O
in form a that can become readily available when applied
to soil. (ISSS,2009)
On an average, the sewage sludge has the following
composition on oven dry basis
Composition
Amount on oven dry weight basis (%)
Organics 40-50
Inert materials 30-40
Bio-resistant organics10-15
Miscellaneous substances5-8
Basic flow of sewage sludge composting process
Composition of Sludge
N (1.5 – 3.5% ) P (0.75- 4.0%) K (0.3- 0.6%)
Sewage: Effluent waters which should be removed from
settlements and industrial enterprises are
known as Sewage
food wastes, various washings and laundry wastes,
waters from lavatories, baths etc.
waste waters are unstable polydispersed system
Inorganic impurities are sand, clay, particles of ore,
slag, chalk, mineral salts, mineral oils
Municipal sewage
N (1.5 – 3.5% ) P (0.75- 4.0%) K (0.3- 0.6%)
Sewage: Effluent waters which should be removed from
settlements and industrial enterprises are
known as Sewage
food wastes, various washings and laundry wastes,
waters from lavatories, baths etc.
waste waters are unstable polydispersed system
Inorganic impurities are sand, clay, particles of ore,
slag, chalk, mineral salts, mineral oils
Municipal sewage
Sewage water : can be used as an irrigation source.
However, it should be treated before application to
fields.
Soil sickness: results from excessive organic and N
loading, which causes anaerobiosis and imbalance in
C:N and C:P.
Excessive N-loading: also induces production of more
foliage, resulting in less fruiting, particularly in the
case of vegetables like brinjal, okra, chillies.
The yield decline: due to continuous application of
untreated sewage water is primarily due to blocking of
soil pore spaces by colloidal matter. The soil quickly
becomes sewage-sick.
However, it should be treated before application to
fields.
Soil sickness: results from excessive organic and N
loading, which causes anaerobiosis and imbalance in
C:N and C:P.
Excessive N-loading: also induces production of more
foliage, resulting in less fruiting, particularly in the
case of vegetables like brinjal, okra, chillies.
The yield decline: due to continuous application of
untreated sewage water is primarily due to blocking of
soil pore spaces by colloidal matter. The soil quickly
becomes sewage-sick.
Industrial sewage
special methods of the treatment are reqd.
(i) NaCN+ H
2
SO
4
→ (Na)
2
SO
4
+ HCN (26
0
C)
(ii) NaCN + HOCl = CNCl + NaOH
CNCl + H
2
O → HCNO + HCl
HCNO + Cl
2
+ H
2O → CO
2 + N
2 + 2HCl
(at pH 10.0)
Cyanogen
chloride
Cyanic acid
special methods of the treatment are reqd.
(i) NaCN+ H
2
SO
4
→ (Na)
2
SO
4
+ HCN (26
0
C)
(ii) NaCN + HOCl = CNCl + NaOH
CNCl + H
2
O → HCNO + HCl
HCNO + Cl
2
+ H
2O → CO
2 + N
2 + 2HCl
(at pH 10.0)
Cyanogen
chloride
Cyanic acid
Crops suitable for sewage irrigation
Fodder crops like Oats, Jowar, Maize, berseem and lucerne
Sugarcane
Vegetable crops, like Cabbage, cauliflower, turnip, potato,
brinjal, lady’s finger, beans etc.
Crops unsuitable for sewage irrigation
•Tomato
•Radish
•Onion
•Ggarlic
•Carrot and leafy vegetables
Fodder crops like Oats, Jowar, Maize, berseem and lucerne
Sugarcane
Vegetable crops, like Cabbage, cauliflower, turnip, potato,
brinjal, lady’s finger, beans etc.
Crops unsuitable for sewage irrigation
•Tomato
•Radish
•Onion
•Ggarlic
•Carrot and leafy vegetables
Heavy metal composition of sewage sludge from different
cities in India
City Cu Zn Cd Cr Ni Pb
mg/kg
Ahmeda
bad
5352147 3.5 60.432.376.8
Delhi 4401610 5.5 53.581.534.5
Nagpur 272 832 1.5 49.214.824.3
Chennai210 935 8.3 38.560.516.6
Jaipur 2651720 7.3 17.637.566.9
Source : Maity et al (1992).
cities in India
City Cu Zn Cd Cr Ni Pb
mg/kg
Ahmeda
bad
5352147 3.5 60.432.376.8
Delhi 4401610 5.5 53.581.534.5
Nagpur 272 832 1.5 49.214.824.3
Chennai210 935 8.3 38.560.516.6
Jaipur 2651720 7.3 17.637.566.9
Source : Maity et al (1992).
DTPA-extractable heavy metals in soils under different crops
irrigated with sewage and underground water
Crop Source of Zn Fe Cu Mn Cd
irrigation water mg/kg
Berseem Sewage 13.4 75.3 24.4 33.2 0.119
Underground 4.20 38.0 7.80 28.4 0.074
Spinach Sewage 41.2 65.6 32.2 28.8 0.253
Underground 4.20 59.4 7.00 24.4 0.079
Coriander Sewage 21.1 69.0 49.4 23.0 0.208
Underground 6.60 32.4 9.50 18.4 0.054
Source: Sharma and Kansal(1986)
irrigated with sewage and underground water
Crop Source of Zn Fe Cu Mn Cd
irrigation water mg/kg
Berseem Sewage 13.4 75.3 24.4 33.2 0.119
Underground 4.20 38.0 7.80 28.4 0.074
Spinach Sewage 41.2 65.6 32.2 28.8 0.253
Underground 4.20 59.4 7.00 24.4 0.079
Coriander Sewage 21.1 69.0 49.4 23.0 0.208
Underground 6.60 32.4 9.50 18.4 0.054
Source: Sharma and Kansal(1986)
DTPA-extractable heavy metal status in Peri-Urban Soils
(treated with sewage) during Summer of 2001
Soil sample DTPA-extractable heavy metal content/mg.kg
-1
Pb Cd Cr
Kalyani 0.35 1.70 0.63
Mahishtala-2, Dhapa 0.70 1.00 7.207.20
Mathpukur 1.08 1.21 4.18
Tangra, Dhapa 1.52 12.6 4.96
Bantala 1.68 17.0 18.9
South Mahishtala, Tiljala 1.70 0.58 8.30
Barasat 2.88 1.04 3.54
Titagarh 1.96 1.01 2.30
Kolaghat 0.51 1.82 5.62
Source: Sanyal (2002)
(treated with sewage) during Summer of 2001
Soil sample DTPA-extractable heavy metal content/mg.kg
-1
Pb Cd Cr
Kalyani 0.35 1.70 0.63
Mahishtala-2, Dhapa 0.70 1.00 7.207.20
Mathpukur 1.08 1.21 4.18
Tangra, Dhapa 1.52 12.6 4.96
Bantala 1.68 17.0 18.9
South Mahishtala, Tiljala 1.70 0.58 8.30
Barasat 2.88 1.04 3.54
Titagarh 1.96 1.01 2.30
Kolaghat 0.51 1.82 5.62
Source: Sanyal (2002)
Distillery Effluents (Spent wash)
Distillery is one of the most important agri based industries
in India for manufacturing of ethyl alcohol from molasses. A
large volume of foul smelling effluent which is commonly
known as distillery effluent or spent wash is generated.
Usually with 1 L of alcohol production 12-15L spent
wash effluent is generated. Approximately 40 billion Litres of
spent wash is generated/ annum from 285 distilleries in the
country, which is generally discharged in to the water
courses under untreated or partially treated conditions,
causing environmental pollution owing to its very high
organic load.
In order to reduce its high biological oxygen demand (BOD)
and Chemical Oxygen Demand (COD ), many distilleries
recycle these effluents to produce methane by passing them
through biomethanation digesters and the effluent thus
obtained is known as Post methanation effluent (PME)
Distillery is one of the most important agri based industries
in India for manufacturing of ethyl alcohol from molasses. A
large volume of foul smelling effluent which is commonly
known as distillery effluent or spent wash is generated.
Usually with 1 L of alcohol production 12-15L spent
wash effluent is generated. Approximately 40 billion Litres of
spent wash is generated/ annum from 285 distilleries in the
country, which is generally discharged in to the water
courses under untreated or partially treated conditions,
causing environmental pollution owing to its very high
organic load.
In order to reduce its high biological oxygen demand (BOD)
and Chemical Oxygen Demand (COD ), many distilleries
recycle these effluents to produce methane by passing them
through biomethanation digesters and the effluent thus
obtained is known as Post methanation effluent (PME)
Feedstuffs Toxic factors
Groundnut and
its meal
Trypsin inhibitor, goiterogen, tannins,
Mustard or rape
seed and its meal
Goiterogens (thioglucosides or
glucosinolates), tannic acid, erucic
acid, sinapine (cholinester), pectins
Safflower seed
and its meal
Estrogenic factor, Two phenolic
glucosides (Bitter flavour)
Sunflower seed
and its meal
Chlorogenic, quinic-acid
Sesame seed and
its cake
Phytate and Oxalates
Linseed and its
cake
Linamarin (cyanogenic glucoside),
antipyridoxine (Linatin)
Groundnut and
its meal
Trypsin inhibitor, goiterogen, tannins,
Mustard or rape
seed and its meal
Goiterogens (thioglucosides or
glucosinolates), tannic acid, erucic
acid, sinapine (cholinester), pectins
Safflower seed
and its meal
Estrogenic factor, Two phenolic
glucosides (Bitter flavour)
Sunflower seed
and its meal
Chlorogenic, quinic-acid
Sesame seed and
its cake
Phytate and Oxalates
Linseed and its
cake
Linamarin (cyanogenic glucoside),
antipyridoxine (Linatin)
Feedstuffs Toxic factors
Neem seed
and its meal
Bitterness → Limonoids → Triterpenoids
Nonisoprenoid polypenolics- Flavanoids,
Tannins and coumarin viz. Nimbin,
Salannin and Azadirachtin
Mahua cake
Mowrin (Saponin) and Tannins
Fish meal and
meat meal
Gizzerosine and histamine
Neem seed
and its meal
Bitterness → Limonoids → Triterpenoids
Nonisoprenoid polypenolics- Flavanoids,
Tannins and coumarin viz. Nimbin,
Salannin and Azadirachtin
Mahua cake
Mowrin (Saponin) and Tannins
Fish meal and
meat meal
Gizzerosine and histamine
Heavy metals
Sewage-sludge
Sewage-sludge
Drying Bed
Irradiation
vessel
Sewage-sludge
Sewage-sludge
Drying Bed
Irradiation
vessel
28
Treated water
Excess Sludge
Clarifier
Feed
Mixed Liquor
or
“Sludge”
Returned Activated Sludge
(RAS)
Settled Sludge
The Activated Sludge ProcessThe Activated Sludge Process
OXYGEN
OXYGEN
Treated water
Excess Sludge
Clarifier
Feed
Mixed Liquor
or
“Sludge”
Returned Activated Sludge
(RAS)
Settled Sludge
The Activated Sludge ProcessThe Activated Sludge Process
OXYGEN
OXYGEN
Pure Oxygen
Classical Oxygenation by sidestream
oxygen injection
Recirculation Pump Activated Sludge Basin
Water Water
IntakeIntake
Secondary EjectorSecondary Ejector
Venturi-type
device
The OXY-DEP
®
process
Typically from
Liquid Oxygen
Classical Oxygenation by sidestream
oxygen injection
Recirculation Pump Activated Sludge Basin
Water Water
IntakeIntake
Secondary EjectorSecondary Ejector
Venturi-type
device
The OXY-DEP
®
process
Typically from
Liquid Oxygen
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