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Water Treatment
 Water treatment is any process that improves
the quality of water to make it appropriate for a specific
end-use.

 The end use may be drinking, industrial water
supply, irrigation, water recreation or many other uses,
including being safely returned to the environment.
 Water treatment removes contaminants and undesirable
components, or reduces their concentration so that the
water becomes fit for its desired end-use.

 This treatment is crucial to human health and allows
humans to benefit from both drinking and irrigation use.
Drinking Water Treatment
 Screening
To protect the main units of a treatment plant and aid in
their efficient operation, it is necessary to use screens to
remove any large floating and suspended solids present in
the inflow.
These materials include leaves, paper, and other debris
that could obstruct flow through the plant or damage
equipment.
 Aeration
After screening, the water is aerated (supplied with air) by passing it
over a series of steps to take in oxygen from the air.
This process helps in expelling soluble gases such as carbon dioxide
and hydrogen sulfide (both of which are acidic, so this process makes
the water less corrosive) and expels any gaseous organic compounds
an undesirable taste to the water.
Aeration also removes iron or manganese by oxidation of these
substances to their insoluble form.
Once in their insoluble forms, these substances can be removed by
filtration.
 Coagulation and Flocculation

After aeration, coagulation occurs to remove the fine particles
(less than 1 µm in size) suspended in the water.
In this process, a chemical called a coagulant (with a positive
electrical charge) is added to the water, which neutralizes the
fine particles' negative electrical charge.
The coagulant's addition takes place in a rapid mix tank where a
high-speed impeller rapidly disperses the coagulant.
Since their charges are now neutralized, the fine particles come
together, forming soft, fluffy particles called 'flocs.' Two coagulants
commonly used in the treatment of water are aluminum sulfate and
ferric chloride.
 Sedimentation

Once large flocs are formed, they need to be settled out, and this
takes place in a process called sedimentation (when the particles
fall to the floor of a settling tank).
The water (after coagulation and flocculation) is kept in the tank for
several hours for sedimentation to take place.
The material accumulated at the bottom of the tank is called sludge;
this is removed for disposal.
 Filtration

Filtration is the process where solids are separated from a liquid.
In water treatment, the solids that are not separated in the
sedimentation tank are removed by passing the water through
sand and gravel beds.
 Chlorination

After sedimentation, the water is disinfected to eliminate any
remaining pathogenic micro-organisms.
The most commonly used disinfectant (the chemical used for
disinfection) is chlorine, a liquid (such as sodium hypochlorite,
NaOCl), or a gas.
 It is relatively cheap and simple to use.
When chlorine is added to water, it reacts with any pollutants
present, including micro-organisms, over a given period of time,
referred to as the contact time.
The amount of chlorine left after this is called residual chlorine. This
stays in the water through the distribution system, protecting it from
any micro-organisms that might enter it until the water reaches the
consumers.
 Supplementary Treatment

Supplementary treatment may be needed for the benefit of the
population.
One such instance is the fluoridation of water, where fluoride is
added to water.
It has been stated by the World Health Organization that
‘fluoridation of water supplies, where possible, is the most
effective public health measure for the prevention of dental decay.
The optimum fluoride level is around 1 mg per litter of water
(1 mg l–1).
Wastewater Treatment
Wastewater treatment and disposal is the act of treating the
wastewater (contaminated water) generated either in any residential
or industrial area as a by-product.

Wastewater treatment involves the processes and mechanisms that
are used to treat water that is contaminated by chemical or
industrial activities.
The main reason why this water is treated is to recycle/reuse the
water, discharging it directly to the environment, or a sanitary sewer.
 Before the pretreatment process starts fully, there is a need to
carry out an evaluation and assessment of the water to be treated.
 This will help to determine the methods of wastewater
treatment that are needed.
 WWTPs employ a series of processes to treat harmful elements in
wastewater such as nutrients, toxic compounds and pathogens which
can excite the growth of aquatic plants to unsafe level for discharge to the
receiving waters and will not negatively impact on human health.
Typically, the processes used for wastewater treatment can be grouped
together in terms of the treatment levels

Levels of Wastewater Treatment
Selection of the treatment processes that are to be utilized occurs
at the design stage and is based on considerations including.

Hydraulic and pollutant loading which are expected to enter the
WWTP.

The level of treatment required.
Preliminary Treatment
Preliminary treatment typically serves as a solid’s separation phase
prior to any biological or chemical treatment technologies, which may
be present downstream.
Preliminary treatment, in most cases, includes screening and grit
removal to remove objects and insoluble particles which may damage
downstream equipment and processes.
 Preliminary treatment also includes the control of incoming
wastewater using flow splitters, overflow tanks and balance tanks.
 Preliminary Treatment Processes
Process Description
Removal of large objects (rags, plastic, stone) which can damage
Screening
equipment.
Grit Removal Removal of grit which can damage pumping equipment.

Pacing of influent wastewater flow into the WWTP to prevent
Flow Balancing
hydraulic overload; excess influent is stored in a storm tank.

Removal of scum, grease and other floating materials from a storm
Scum Removal
tank.

Irritation Control Control of odor emissions, typically to promote public acceptability.
 Preliminary treatment by screens or grit chambers is usually followed by
primary sedimentation.
The main objective of this treatment step is to remove a large fraction (50-
70%) of the total suspended solids in the wastewater.
Since suspended solids also contribute to the content of BOD in the
wastewater, one should expect 25-40 % of the total BOD to be removed in
the process.
 Primary Treatment
This initial step is designed to remove gross, suspended and floating solids
from raw wastewater. It includes screening to trap solid objects and
sedimentation by gravity to remove suspended solids.
This physical solid/liquid separation is a mechanical process, although
chemicals can be used sometimes to accelerate the sedimentation process.
This phase of the treatment reduces the BOD of the incoming wastewater
by 20–30% and the total suspended solids by nearly 50–60%.
 Secondary Treatment
Secondary treatment processes are designed to remove organic matter
and nutrients in wastewater using biological treatment processes.
These are generally divided into two groups:
Suspended growth processes and attached growth processes.
 Suspended Growth Processes
In suspended growth processes, the biomass, which can join to form larger
particles known as flocs, can freely move through the wastewater.

The methods through which aeration is introduced into the process also
aid in providing constant mixing to the wastewater and flocs.

These flocs are made up of bacteria and protozoa and do not seek to attach
to free surfaces
 Secondary Sedimentation Tank
As the effluent from biological filters contains biological flocs to a large
extent, there is a need of a second clarifier before further distribution of
the wastewater.

This is normally obtained by a secondary sedimentation tank where solids
are settled and removed from the wastewater stream as sludge.
 Nutrients such as nitrogen and phosphorus could also possibility be
removed either as a part of the solids content or through biological
decomposition (for nitrogen removal).

As an overview, the main purpose of secondary biological
 Tertiary/Advanced Treatment

To accomplish nutrient removal sufficient to limit the risk of
eutrophication of sensitive water bodies, an additional treatment step after
secondary treatment is often necessary.

These types of treatment steps, which also go under the term “advanced
wastewater treatment” because of their generation of advanced techniques,
could be designed in a variety of ways using different techniques.
 A typical facility for tertiary nitrogen removal is the use of filtration after
secondary treatment.

At this stage, the BOD concentration would normally be very low (< 10
mg/l). providing a good basis for nitrification and de-nitrification to occur.
Important parameters at this stage are ammonia loading rate, oxygen
availability, packing design and temperature.
 In nitrification, ammonia (NH4-N) is oxidized to nitrite (NO2-N) before
nitrite is oxidized to nitrate (NO3-N), both steps under the presence of
oxygen.

Each of the steps also depends on the presence of a specific group of
autotrophic bacteria, respectively Nitrosomonas and Nitrobacter.
To achieve complete removal of nitrogen compounds, denitrification of
nitrate needs to occur.

This happens as nitrate is reduced to nitric oxide, nitrous oxide and then
nitrogen gas which are natural occurring gas in the atmosphere.
The reduction steps occurring in de-nitrification are as
follows.
 Tertiary/Advanced Treatment Processes
Process Description
Removal of suspended and colloidal solids from secondary treated

Sand Filtration wastewater; typically used to achieve lower suspended solids and phosphorus
concentrations in the discharged effluent.

Disinfection of secondary treated wastewater for the purposes of wastewater
Ultraviolet Disinfection
reuse.
Treatment and disposal of sludge generated by wastewater treatment
Sludge Treatment
processes. Includes sludge dewatering, conditioning and stabilization.

Chemical dosing of wastewater to facilitate phosphorus precipitation; typically,
Chemical Precipitation for
ferric chloride, aluminum or lime dosing. May lead to excessive sludge
Phosphorus Removal
production depending on dosage rates.

Micro-filtration or ultra-filtration processes combined with a suspended
Membrane Filtration
growth bioreactor.
Methods of Wastewater Treatment
There are four different wastewater treatment methods, and each of these methods has a
different treatment process. However, every treatment process must start with an assessment
and evaluation. The four different industrial water treatment methods are explained below:
1. Physical Methods of Wastewater Treatment
Physical water treatment involves the use of physical methods to clean wastewater. This
method involves processes like sedimentation, screening, and skimming used for removing
the solids in the wastewater. During this process, chemicals are not used at all. Some of the
techniques of this method are:
 Sedimentation
Sedimentation is a wastewater treatment process in which heavy or insoluble particles are
collected and separated from the wastewater. The water is separated from the insoluble
material when the insoluble material settles down at the bottom of the water.
 Aeration
In this process, the wastewater is treated by providing oxygen to it through air circulation.
Oxygen or air is added to the wastewater in several ways including surface, spray, and
diffused aeration. The aeration process begins immediately after the oxygen is in contact
with the water.
2-Mechanical Methods of Wastewater Treatment
Mechanical filtration for wastewater treatment and disposal is one of the conventional
wastewater treatment methods and it can be achieved by either:

 Ceramic Membrane Technology
The ceramic membrane filtration process is the use of ceramic membranes installed
housings to filter wastewater. The filtration process will start when the wastewater begins
to move through the membranes. A feed pump is responsible for providing the pressure
needed for the water to move through the ceramic membrane.
2-Mechanical Methods of Wastewater Treatment

Sand Filter Technology

It is more applicable where there are downward-flowing fluids that are driven by either
gravity or pressure. One downside of this technology is that it may not provide adequate
disinfection. The sand filters consist of a large quantity of special-grade sand in a large
tank.
3-Biological Method of Wastewater Treatment
This is the use of biological processes to treat wastewater. In this stage, the organic matter like
oils, human waste, soap, and food present in the wastewater are broken down. The biological
process wastewater treatment method is divided into three categories:

 Aerobic Process
Here, the organic matter in wastewater is decomposed by bacteria and converted into carbon
dioxide. Oxygen and the use of aerobic microorganisms (fungi and bacteria) are needed to
decompose the organic matter in the wastewater. The aerobic process takes place in an
activated sludge reactor where the wastewater is mixed with a lot of aerobic organisms.
 Anaerobic Process
In this stage, fermentation is used for decomposing the organic matter in wastewater instead
of oxygen. The microorganisms (anaerobic bacteria) used for this process do not require
oxygen to break down organic matter. The waste is fermented at a specific temperature by
using fermentation.

 Composting
In this stage, treatment is carried out by mixing the wastewater with sawdust or any other
carbon sources. Composting is one of the commonly used methods for treating sludge and
transforming it into a useful product that can be used to enrich the soil nutrient.
Chemical Methods of Wastewater Treatment
There are different chemical treatment processes, but the most common ones are chemical
neutralization, adsorption, precipitation, disinfection, and ion exchange. Though the
chemical treatment processes listed above differ, one common similarity they have is that
the substance is affected by altering extraneous factors.

 Neutralization
This is the use of acidic or alkaline to control and keep the pH level of the wastewater
around 7. If the water lacks sufficient acidity, then an acid will be added to get the required
pH level. Also, if the water lacks sufficient alkaline, a base will be added to the water to get
the required pH level.
 Adsorption
This chemical industrial wastewater treatment method is a process whereby adsorbents are
used to remove soluble molecules from wastewater. Various organic materials like toxic
compounds and detergents can be removed by adsorption. For effective results, the
adsorbent must be activated before usage.
 Precipitation
The chemical precipitation process involves the use of an acid or alkali to remove dissolved
inorganic in wastewater. This method is achieved by altering the temperature or by injecting
chemicals. The precipitate can then be removed by either floatation or sedimentation.
 Disinfection
This is a chemical treatment process in which the wastewater is treated by using selected
disinfection to inspect or inactivate the pathogens (viruses, microbes, and protozoan) in the
wastewater. The primary purpose of this process is to protect the microbial wastewater
quality.
 Ion Exchange
The primary purpose of the chemical treatment process is for softening. This process is
known as a reversible reaction because a charged ion is replaced with another similarly
charged ion. In other words, polyvalent cations are replaced with sodium.