Effluent Treatment Plant
What is ETP
Need fo ETP
Design of ETP
Design of ETP
Sludge treatment process
Flowchart of ETP
Case study of ETP
ETP plant operation
Textile plant ETP
Equalization
Sedimentation
Settlers
Sludge treatment process
Flowchart of ETP
Case study of ETP
ETP plant operation
Textile plant ETP
Equalization
Sedimentation
Settlers
PH adjustment
It is important & most useful presentation about ETP.
Created By: 131 TE-2 batch student
BGMEA University of Fashion & Technology (BUFT)
Textile Engineering Department
Course: Bangladesh Studies
It is important & most useful presentation about ETP.
Created By: 131 TE-2 batch student
BGMEA University of Fashion & Technology (BUFT)
Textile Engineering Department
Course: Bangladesh Studies
Introduction: Wastewater flow and its characteristics, Wastewater collection systems, Estimation and variation of wastewater flows. Problems of industrial wastewaters, sampling protocol, equalization, neutralization, proportioning processes, volume and strength reduction. Preliminary, primary, secondary and tertiary wastewater treatment processes. Theory
and design of screens, grit chambers, sedimentation, coagulation, flocculation
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Contents
1. Introduction to Effluent Treatment Plant (ETP)
1.1 Use of water in industries
1.2 Industrial waste water sources
1.3 Effluent Treatment Plant
1.4 National Standards for waste water
1.5 What do these standards means?
1.6 Waste water treatment
1.7 Planning an Effluent Treatment Plant : Factors to Consider
2. Treatment Methods
2.1 Physical Unit Operations
2.2 Chemical Unit Processes
2.3 Biological Unit Processes
3. Operation and control
3.1 Mixed liquor suspended solids
3.2 Sludge Volume Index and Sludge Density Index
3.3 Sludge Age; Mean Cell Residence Time (MCRT)
3.4 Food/Mass Ratio
3.5 Constant MLSS
3.6 Return Activated Sludge Control (RAS)
4. Choosing an Effluent Treatment Plant
4.1 Biological Treatment
4.2 Physico-Chemical Treatment
4.3 Physico-Chemical and Biological Treatment
4.4 Area Requirement Comparison
4.5 Cost Comparison
5. Chemical Analysis of Waste Water
5.1 Commonly used chemicals
5.2 Chemical Tests and procedures
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Effluent Treatment Plant (ETP) / Sewage Treatment Plant to treat your wastewater which can be further reused
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Introduction: Wastewater flow and its characteristics, Wastewater collection systems, Estimation and variation of wastewater flows. Problems of industrial wastewaters, sampling protocol, equalization, neutralization, proportioning processes, volume and strength reduction. Preliminary, primary, secondary and tertiary wastewater treatment processes. Theory
and design of screens, grit chambers, sedimentation, coagulation, flocculation
Zero liquid discharge (ZLD) is a wastewater management technique that eliminates liquid waste discharge going outside of operating plants. This has attracted renewed interest worldwide in recent years.
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This PPT gives the information about manufacturing process of sugar and various waste that are produced during the process and treatment for the waste before the disposal or for safe disposal with flow diagrams
Effluent Treatment Plant Design, Operation And Analysis Of Waste Water Jaidev Singh
Contents
1. Introduction to Effluent Treatment Plant (ETP)
1.1 Use of water in industries
1.2 Industrial waste water sources
1.3 Effluent Treatment Plant
1.4 National Standards for waste water
1.5 What do these standards means?
1.6 Waste water treatment
1.7 Planning an Effluent Treatment Plant : Factors to Consider
2. Treatment Methods
2.1 Physical Unit Operations
2.2 Chemical Unit Processes
2.3 Biological Unit Processes
3. Operation and control
3.1 Mixed liquor suspended solids
3.2 Sludge Volume Index and Sludge Density Index
3.3 Sludge Age; Mean Cell Residence Time (MCRT)
3.4 Food/Mass Ratio
3.5 Constant MLSS
3.6 Return Activated Sludge Control (RAS)
4. Choosing an Effluent Treatment Plant
4.1 Biological Treatment
4.2 Physico-Chemical Treatment
4.3 Physico-Chemical and Biological Treatment
4.4 Area Requirement Comparison
4.5 Cost Comparison
5. Chemical Analysis of Waste Water
5.1 Commonly used chemicals
5.2 Chemical Tests and procedures
With rising crude prices and depleting quality of crude, however, the level of wastewater pollutants in petroleum wastewater is at new high. Such conditions are forcing refineries to use a more advanced water treatment, water recovery methods, and robust processes that work well under a variety of conditions and can handle the changing refinery effluent flow rates. Finally a process that is economical in overall life time cost is needed to make all of this feasible. Aquatech has experience working with these refinery effluent pollutants in the refinery market and offers the advanced petroleum wastewater treatment and recovery technology necessary for the refinery’s needs.
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Waste Water Treatment Process and Types of treatment Used
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The ETP, STP, demineralization plant, softeners, wastewater treatment plants, drinking water plants etc. the corporate features a huge number of clients list. the most aim of this company is to realize higher customer satisfaction by providing highest quality products and water services.
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The effluent Treatment Plant (ETP) is a method that is used to treat the emanation coming out from many areas of the plant. It includes biological, physical, and chemical processes. It aims to releasing safe water into the environment to prevent it from getting cop0ntaminated. These plants are have been very useful in the process of providing clean water to the environment and have conserved water in a number of ways.
Details ppt on Effluent Treatment Plant or ETP for M Pharm.
In this Presentation we discuss about defination , design , need , Mechanism and many more important things related to ETP.
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Process furnaces
Crude distillation unit
Reaction Heaters
Reformer Heater
Heater Performance objectives
Reasons to save Energy
Heater Types
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Convection section
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Burners
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Characteristics curves
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Types of Permit To Work
Hot Work Permit
Confined Space Entry Permit
Electrical Permit
Excavation Permit
Radiography Permit
Crane Critical Lifts Permit
Man Basket Operation
Permit Issuer Responsibilities
Permit Receiver Responsibilities
HSE Permit Coordinator
Responsibilities
Revalidation of the Permit
Work Permit Flow Chart
Heat exchangers
TUBE AND SHELL
PLATE HEAT EXCHANGER
FLOW OF ARRANGEMENT
REGENERATIVE HEAT EXCHANGER
log mean temperature difference (LMTD)
Number of Transfer Units (NTU) Method
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2. What is an ETP?
INFLUENT
ETP
TREATMENT
EFFLUENT
SLUDGE
• ETP (Effluent Treatment Plant) is a process design for treating the
industrial waste water for its reuse or safe disposal to the
environment.
• Influent: Untreated industrial waste water.
• Effluent: Treated industrial waste water.
• Sludge: Solid part separated from waste water by ETP.
3. Need of ETP
• To clean industry effluent and recycle it for further use.
• To reduce the usage of fresh/potable water in Industries.
• To cut expenditure on water procurement.
• To meet the Standards for emission or discharge
of environmental pollutants from various Industries set by
the Government and avoid hefty penalties.
• To safeguard environment against pollution and contribute in
sustainable development.
4. Design of ETP
The design and size of the ETP depends upon:
• Quantity and quality of the industries discharge effluent.
• Land availability.
• Monetary considerations for construction, operation & maintenance.
• Area dimension depends on:
Quality of wastewater to be treated,
Flow rate
Type of biological treatment to be used .
• In case of less available land, CETP (Common Effluent Treatment
Plant) is preferred over ETP
6. Preliminary Treatment level
Purpose: Physical separation of big sized impurities like cloth,
plastics, wood logs, paper, etc.
Common physical unit operations at Preliminary level are:
Screening: A screen with openings of uniform size is used to remove
large solids such as plastics, cloth etc. Generally maximum 10mm is
used.
Sedimentation: Physical water treatment process using gravity to
remove suspended solids from water.
Clarification: Used for separation of solids from fluids.
7. Primary Treatment Level
Purpose: Removal of floating and settleable materials such as suspended
solids and organic matter.
• Methods: Both physical and chemical methods are used in this
treatment level.
• Chemical unit processes:
Chemical unit processes are always used with physical operations and
may also be used with biological treatment processes.
Chemical processes use the addition of chemicals to the wastewater to
bring about changes in its quality.
Example: pH control, coagulation, chemical precipitation and oxidation.
8. pH Control:
To adjust the pH in the treatment process to make wastewater pH neutral.
For acidic wastes (low pH): NaOH, Na2CO3, CaCO3or Ca(OH)2.
For alkali wastes (high pH): H2SO4, HCl.
Chemical coagulation and Flocculation:
• Coagulation refers to collecting the minute solid particles dispersed in a liquid
into a larger mass.
• Chemical coagulants like Al2(SO4)3 {also called alum} or Fe2(SO4)3 are added
to wastewater to improve the attraction among fine particles so that they come
together and form larger particles called flocs.
• A chemical flocculent (usually a polyelectrolyte) enhances the flocculation
process by bringing together particles to form larger flocs , which settle out
more quickly.
• Flocculation is aided by gentle mixing which causes the particles to collide.
Primary Treatment Level (cont…)
9. Secondary Treatment Level
Methods: Biological and chemical processes are involved in this level.
Biological unit process
To remove, or reduce the concentration of organic and inorganic compounds.
Biological treatment process can take many forms but all are based around
microorganisms, mainly bacteria.
Aerobic Processes
Aerobic treatment processes take place in the presence of air (oxygen).
Utilizes those microorganisms (aerobes), which use molecular/free oxygen to
assimilate organic impurities i.e. convert them in to carbon dioxide, water and
biomass.
Anaerobic Processes
The anaerobic treatment processes take place in the absence of air (oxygen).
Utilizes microorganisms (anaerobes) which do not require air (molecular/free
oxygen) to assimilate organic impurities.
The final products are methane and biomass.
11. Tertiary / Advanced Treatment
Purpose: Final cleaning process that improves wastewater quality before it
is reused, recycled or discharged to the environment.
Mechanism: Removes remaining inorganic compounds, and substances,
such as the nitrogen and phosphorus. Bacteria, viruses and parasites,
which are harmful to public health, are also removed at this stage.
Methods:
Alum: Used to help remove additional phosphorus particles and group
the remaining solids together for easy removal in the filters.
Chlorine contact tank disinfects the tertiary treated wastewater by
removing microorganisms in treated wastewater including bacteria,
viruses and parasites.
Remaining chlorine is removed by adding sodium bisulphate just before
it's discharged.
14. Textile industry Share
Country Value in ($ billion) Share (%)
China 94.4 32.1
EU27 76.6 26.1
India 15.0 5.1
United States of America 13.8 4.7
Korea Republic 12.4 4.2
Turkey 10.8 3.7
Pakistan 9.1 3.1
Indonesia 4.8 1.6
Vietnam 3.8 1.3
Bangladesh 1.6 0.5
Rest of the World 51.7 17.5
Total 294 99.9
Source: Ghaly A. E, Ananthashankar R., Alhattab M., and Ramakrishnan V. V., Production, Characterization and Treatment
of Textile Effluents: A Critical Review, J Chem Eng Process Technol 2014, 5:1, http://dx.doi.org/10.4172/2157-
7048.1000182
24. ETP Plant Operation
1. Screen chamber:
Remove relatively large solids to avoid abrasion of mechanical equipments and
clogging of hydraulic system.
2. Collection tank:
The collection tank collects the effluent water from the screening chamber,
stores and then pumps it to the equalization tank.
3. Equalization tank:
The effluents do not have similar concentrations at all the time; the pH will vary
time to time.
Effluents are stored from 8 to 12 hours in the equalization tank resulting in a
homogenous mixing of effluents and helping in neutralization.
It eliminates shock loading on the subsequent treatment system.
Continuous mixing also eliminates settling of solids within the equalization tank.
Reduces SS, TSS.
•
25. ETP Plant Operation
4. Flash mixer:
Coagulants were added to the effluents:
1. Lime: (800-1000 ppm) To correct the pH upto 8-9
2. Alum: (200-300 ppm) To remove colour
3. Poly electrolyte: (0.2 ppm) To settle the suspended matters & reduce SS, TSS.
The addition of the above chemicals by efficient rapid mixing facilitates
homogeneous combination of flocculates to produce microflocs.
5. Clarriflocculator:
In the clarriflocculator the water is circulated continuously by the stirrer.
Overflowed water is taken out to the aeration tank.
The solid particles are settled down, and collected separately and dried; this
reduces SS, TSS.
Flocculation provides slow mixing that leads to the formation of macro flocs,
which then settles out in the clarifier zone.
The settled solids i.e. primary sludge are pumped into sludge drying beds.
26. ETP Plant Operation
6. Aeration tank:
The water is passed like a thin film over the different arrangements like
staircase shape.
Dosing of Urea and DAP is done.
Water gets direct contact with the air to dissolve the oxygen into water.
BOD & COD values of water is reduced up to 90%.
7. Clarifier:
The clarifier collects the biological sludge.
The overflowed water is called as treated effluent and disposed out.
The outlet water quality is checked to be within the accepted limit as
delineated in the norms of the Bureau of Indian standards.
Through pipelines, the treated water is disposed into the environment river
water, barren land, etc.
27. ETP Plant Operation
8. Sludge thickener:
The inlet water consists of 60% water + 40% solids.
The effluent is passed through the centrifuge.
Due to centrifugal action, the solids and liquids are
separated.
The sludge thickener reduces the water content in the
effluent to 40% water + 60% solids.
The effluent is then reprocessed and the sludge collected
at the bottom.
9. Drying beds:
Primary and secondary sludge is dried on the drying beds.
28. FLOW CHART OF ETP
Influent
Screening
Equalization
(Lime + Alum) pH = 8.5
SS, TSS removal
Disperse unit
RECYCLE
TANK
Sedimentation tank
{pH = 7.5}
Sludge thickening unit
Biological Treatment & Aeration
{Dosing = (Urea + DAP) for O2}
BOD removal ~ 90%
COD removal ~ 90%
Sludge
Sludge discharge
Fish pond
Effluent
Effluent discharge
60% water +
40% solids
40% water + 60% solids
29. SCREENING
Screening is the filtration process for the separation of coarse
particles from influent.
Stainless steel net with varying pore size can be utilized.
Screens are cleaned regularly to avoid clogging.
30. EQUALIZATION TANK
EQUALIZATION TANK
Influent from
screening
Spray of water coming
from dyeing unit
Air for diffusion
Cool
&
Homogenous
influent to
pHcorrection
Tank
Equalization makes the waste water homogenous.
Retention time depends upon the capacity of treatment
plant. (Generally 8-16 hours)
31. PH CORRECTION
pHcorrection
Acid or alkali
Influent from
equalization
tank Influent of desired
to pH disperse unit
In this tank pH of the influent is corrected to meet the standard.
Acid or alkali is added to the effluent to increase or decrease the
pH.
32. DISPERSE UNIT
DISPERSE UNIT
( MIXING OF SLUDGE & WASTE)
Sludge from
recycle tank
Influent from pH
correction tank
Mixed
influent &
sludge to
aeration
Disperse tank mixes the sludge coming from recycle tank
with waste water for to proper aeration.
33. AERATION
Function of aeration is
oxidation by blowing air.
Aerobic bacteria is used to
stabilize and remove organic
material presents in waste.
34. SCHEMTIC DIAGRAM OF AERATION
AERATION TANK
Mixture of
waste water
& sludge
Aerobic bacteria
AIR
Discharge to
sedimentation
tank
ORGANIC MATTER + O2
BACTERIA
NUTRIENT
CO2+ HO2 + HEAT
REACTION IN AERATION TANK:
O2
35. SEDIMENTATION TANK
In this tank sludge is
settled down.
Effluent is discharged from
plant through a fish pond.
Sludge is passed to the
sludge thickening unit.
36. SCHEMTIC DIAGRAM OF SEDIMENTATION TANK
SEDIMENTATION
TANK
Waste water from
sedimentation pack
Sludge to
thickening unit
Effluent
Effluent
Discharge
Fish pond
Fish Pond is used to see survival of fishes to ascertain fitness of water for disposal
38. SLUDGE THICKENING UNIT
Here sludge is dried and
discharged.
Partial amount of sludge is
returned back to the aeration
tank from thickening unit
through recycle tank called
return sludge tank and disperse
tank.
39. SCHEMTIC DIAGRAM OF SLUDGE
THICKENING UNIT
SLUDGFE
THICKENING UNIT
Sludge from
sedimentation unit
Sludge discharge
Sludge to recycle
tank
41. RETURN SLUDGE TANK
Function of return tank or recycle tank is to mix water with
sludge
This mixture is then passed to aeration tank through disperse
tank.
42. ADVANTAGE OF RECYCLE SLUDGE TO AERATION TANK
Sludge again oxidized to minimize the pollution from sludge.
Alive bacteria of sludge is again used in aeration to utilize this
bacteria.
SLUDGE
RECYCLE TANK
Sludge from
thickening
unit
Mixing of sludge &
water
Sludge to aeration
tank through
disperse unit
43. PERMISSIBLE STANDARDS IN INDIA
S.No. Parameter Permissible limits
(disposal to inland surface
water)
1 pH 5.5 to 9.0
2 TSS <100 mg/l
3 Oil & Grease <10 mg/l
4 BOD <30 mg/l
5 COD <250 mg/l