ro, effluent, sewage treatment plant manufacturer

7/27/2019 RO, Effluent, Sewage Treatment Plant Manufacturer

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Dear Sir,

We take immense pleasure in introducing ourselves as one of the leading companies offeringeconomical solution to Water & Waste Water treatment, Zero discharge, Energy Management,Automation Solution, Asset Management, Pumping System , Water Bodies, Cooling Towers.We have team of experts having vast knowledge in providing comprehensive and Integratedsolutions (from Concept to commissioning) our focus remains on delivering economical &compact plants with low operation and low maintenance cost to achieve maximum recovery ofgood quality of treated water from waste water.

At NETSOL WATER SOLUTIONS PVT. LTD. the focus is always been and shall always be tobe Reliable & Ennovative ( innovative environmental solutions). We have Environmentalengineers so that we can give the solution which can help the client to reuse waste water

without affecting Environment and Local community. We have also Tie-Up with experts in wastewater & Water treatment industries they are from IIT or from some MNCs having vastexperience in Water & Waste water Treatment. Due to our technical & environment-friendlynature. We are able to deliver good product in market at very reasonable prices. We made oursystem transparent and Client friendly by providing best services every time. Starting smallNETSOL has made its mark in the Industry by giving more than it promises and delivering eachproject on time. Our strength is service after sales which made us unique.

At NETSOL no client is big or small no project less important or more important. For us eachclient is a welcome addition to our fastest growing community and its our honor to serve them.Its an opportunity to do some innovative all the time. No wonder our customer list is full of

repeat business year after year.

In one line we would like to define NETSOL(NEW ERA OF TECHNOLOGY & SYMBOL OFLEADERSHIP IN) WATER SOLUTIONS


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TECHNOLOGIES FOR WASTE WATER TRAETMENT

1) Physio-Chemical2) Extended Aeration/Activated Sludge process3) Submerged Aerated Fixed Films (SAFF)4) Moving Bed Bio Reactor (MBBR/FAB)5) Sequential Batch Reactor (SBR)6) Membrane Bio Reactor

TECHNOLOGIES FOR WATER TREATMENT

1) Multi Grade Filters (MGF)

2) Activated Carbon Filters (ACF)3) Dual Media Filters (DMF)4) Iron Removal Filter (IRF)5) Softener

6) Ultra-Filtration Plant (UF)7) Nano Filtration Plant (NF)8) Micron Filtration (MF)9) Reverse Osmosis Plant (R.O)10) Demineralization Plant (D.M)

11) Disinfection by Sodium Hypo Chlorite12) Disinfection by Ozone13) Disinfection by Ultra-violet14) Disinfection by Silver Ionization15) Disinfection by Bromine based Compounds


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FILTERATION PLANT SOFTENER

IRON REMOVAL FILTER

FILTRATION PLANT

Filtration plant is used to remove foreign suspended particles, color, & odor from the water so that water

can be used in process without affecting the life of equipment or choking the supply lines. In drinking

purpose filtration plant is very important as bore-well water may contain fine silica, clay, color & odor.

This filtration is done by Multi Grade Filters, Activated Carbon Filters & Dual Media Filters

IRON REMOVAL FILTERIntegrated with water treatment system, iron removal filters effectively remove high iron ions from the

water. We have iron removal filters for industrial, commercial and residential applications. These filters

also remove manganese and hydrogen sulfide content as well as other industrial contaminants. Our iron

removal filters have catalytic filtration unit to dissolve ferrous iron salts and precipitate over the filter

bed. The iron removal filters are made of mild steel, stainless steel and FRP.Green Sand is used to

remove Iron from water.


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SOFTENER

What makes water "hard"?

Groundwater dissolves rocks and minerals releasing calcium and magnesium ions that cause water to behard. These dissolved ions give hard water its characteristics.

Problems caused by hard waterHard water interferes with all types of cleaning tasks. Cleaning problems arise when the cleaning agents

do not fully remove dirt and grime. Over time, clothes washed in hard water may look dingy and feel

harsh and scratchy. White clothing continually washed in hard water will gradually show a grayish tinge.

Dishes and glassware washed in dishwashers using hard water may be spotted when dry. Hard water

causes films on glass shower doors, walls and bathtubs. Hair washed in hard water may feel sticky and

look dull.

Regular soaps combine with dissolved calcium and magnesium to form soap curds or soap scum. Soap

scum is difficult to remove from sinks and appliances.

Household appliance performance may be affected by hard water use. When heated, calcium carbonateand magnesium carbonate are removed from the water and produce a scale buildup in the hot water

heater. A large scale buildup slows the heating process and requires more energy to heat water. Water

heaters with large accumulations of mineral buildup will have shorter life spans. Scale deposits also

corrode and plug plumbing fixtures and accumulate in other appliances affecting their performance.

Water testingBefore buying any water treatment equipment, you should know what impurities are found in the water

supply. Types and amounts of impurities in your water can be determined by a certified laboratory. The

results of the water test will help determine if softening is needed. The water testing may reveal if other

water treatment is required.

If you obtain water from a private water supply, water testing is your responsibility. Water testing should

be done on a regular basis. If a problem is suspected, test more often.Community water supplies are monitored and treated to protect users from health threatening water

impurities. Ask your supplier for a copy of the latest water test results.

Hard water is considered a nuisance water problem. Hardness removal is not a necessity to protect your

health. Water softening is popular because most people prefer softened water for bathing, cleaning and

washing.

Types of water softening equipment available

Water softeners are classified in five different categories:

Manual: There are several types of manual softeners. The operator opens and closes valves to

control the frequency, rate and time length of back-washing or recharging.

Semi-automatic: The operator initiates only the recharging cycle. A button is pushed when the

softener needs recharging and the unit will control and complete the recharging process.


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Automatic: The automatic softener usually is equipped with a timer that automatically initiates

the recharging cycle and every step in the process. The operator needs only to set the timer and

add salt when needed. It is the most popular type of softener used

ULTRA FILTRATION AND NANO FILTRATION TECHNOLOGIES

REVERSE OSMOSIS PLANT

Reverse osmosis systems works as here under :-The liquid has tendency to flow from low concentration to high concentration through a semi permeable

membrane, in the Osmosis Process. In reverse osmosis the direction of flow is reversed by increasing the

pressure at high concentration liquid side than the low concentration side, which results in the reversed


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flow of the liquid from high concentration to low concentration, through a semi permeable membrane,

leaving behind dissolved minerals.

The above semi permeable membrane for reverse osmosis application consists of a polymeric material,

which is several thousand Angstroms thick, thin film.There are two major groups of polymeric materials,which can be used to produce satisfactory reverse osmosis membranes: cellulose acetate (CA) and

polyamide (PA). The performance of membrane elements in reverse osmosis systems is affected by the

feed water composition, temperature, pressure and permeate recovery ratio.

The feed water, depending on its source, may contain suspended solids and dissolved matter, in varying

concentrations. Suspended solids may consist of inorganic particles, colloids and biological debris such

as microorganisms and algae. Dissolved matter may consist of highly soluble salts, such as chlorides, and

sparingly soluble salts, such as carbonates, sulfates, and silica. During the RO process, suspended

particles may settle on the membrane surface, thus blocking feed channels and increasing friction losses

(pressure drop across the system Sparingly soluble salts may also precipitate from the concentrate stream,

create scale on the membrane surface, and result in lower water permeability trough the RO membranes.

Therefore, the feed water pretreatment, to improve its quality to the level, which would result in reliable

operation of the RO membranes is must. The common indicators of suspended particles used in the ROindustry are turbidity and Silt Density Index (SDI) The maximum limits for turbidity are 1 NTU and SDI

of 4. In the continuous operation of an RO system with feed water, the average values of turbidly and

SDI in the feed water should not exceed 0.5 NTU and 2.5 SDI units, respectively. The indicators of

saturation levels of sparingly soluble salts in the concentrate stream are the Langley Saturation Index

(LSI) and saturation rations. Negative values of LSI indicate the possibility of calcium carbonate

precipitation. The saturation ratio is the ratio of the product of the actual concentration of the ions in the

concentrate stream to the theoretical solubilitys of the salts at a give conditions of temperature and ionic

strength. These ratios are applicable mainly to sparingly soluble sulfates of calcium, Barium and

Strontium. Silica could also be a potential scale forming constituent. Depending on the raw water quality,

the pretreatment process mainly consists of removal of the followings:-

SUSPENDED SOLIDS OR TURBIDITY DISINFECTION

REDUCTION OF ALKALINITY, BY PH ADJUSTMENT.

ADDITION OF SCALE INHIBITOR OR SOFTENIG.

RESIDUEL FREE CHLORINE REMOVAL.

STERILIZATION.

Seldom Chlorination may be used to oxidize iron and manganese in the well water before filtration

of biological removal.

RO system consists of the following basic components:-

Feed water supply unit. Pretreatment systems.

High pressure pumping units

Membrane element assembly unit.

Instrumentation and Control System.


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Permeate treatment and storage unit.

Cleaning unit.

NETSOL WATER SOLUTIONS PVT. LTD. has the ability to provide all the basic components, asillustrated, as above in accordance, with the individual end users requirement.

BOTTLING PLANT

We are well-equipped to undertake turnkey projects for establishing mineral water plants. Our

integrated solutions fulfill complete requirements requiring for purifying water, bottling purified water

and labeling. The mineral water plants are designed for minimum economically viable capacity. Also,

our plants are available in different specifications and capacities. We do the complete set-up of labs

with all the equipments necessary for lab( like glass-ware, chemicals, analysis instruments etc.)

SWIMMING POOL WATER TREATMENT PLANT


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We offer a wide range of cutting-edge technologies based swimming pool water treatment plants. Using

latest engineering technology, we manufacture swimming pool water treatment plant, which ensure

effective flow ability to provide highly-pure water filtration. All the treatment plants have modular

designs that allow easy installation, maintenance as well as re-installation. These pool water treatmentplants are designed to meet the requirements of swimming pools in clubs, housing societies, water parks,

commercial swimming pools, sports complex, etc.

Features :

Completely safe water, no harm even after galloping

Total destruction of micro organisms

Chlorine as well as ozone based purification

Powerful and faster disinfection

Complete destruction of pollutants, micro-organisms, color, etc.

DEMINERALIZATION PLANT

There are two basic kinds of demineralizer systems, separate-bed and mixed-bed. In a separate-bed

system, cation resins and anion resins and anion resins are loaded into separate pressure vessels. During

the service cycle, water passes through the cation bed first, where undesirable positive ions (cations) such

as sodium (Na+), calcium (Ca+2), and magnesium (Mg+2) are exchanged for hydrogen (H+) ions. The

water next passes through the anion bed, where a similar process removes undesirable negative ions

(anions) such as chloride (Cl-), sulfate (SO4-2), and bicarbonate (HCO3-), replacing them with hydroxyl

(OH-). Pure water is produced from the combination of hydrogen and hydroxyl ions. In a mixed-bed

system, also referred to as a polisher, the cation and anion resins are loaded into the same vessel.

Where they are in contact with each other. This allows the hydrogen and hydroxyl ions to combine

instantaneously to produce water of the highest possible purity. In any demineraliser, the capacity of the

resins to exchange ions is finite. As the capacity becomes stressed, ion leakage occurs in the effluent.


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This is called the breakthrough point. When the breakthrough point is detected, the bed is switched from

a service cycle to a regeneration cycle. During the regeneration cycle, the beds are backwashed to flush

out particulate matter, then chemically regenerated with acid and caustic. Finally, the beds are rinsed

thoroughly to yield a service cycle ready condition.

The breakthrough point of a demineralization bed is impacted by its ion exchange capacity, which is

affected by water flow rate, ion contaminant concentration, and feed water composition. Regeneration of

a bed is costly, due to the need for chemicals and rinse water, pretreatment, regeneration waste treatment,

and labor. Thus the goal is to maintain the service cycle of the bed as long as possible, while ensuring

that the system continues to deliver water of the required purity.

Conductivity sensors are successfully employed on de-mineralizers to monitor the operation of the bed

and to predict and signal the all-important breakthrough Point.

In a cation bed, salt impurities are converted to an acid form, typically hydrochloric acid (HCl). When

this happens, the conductivity of the water increases dramatically, because the hydrogen ion is far moreconductive than the mineral ion it has replaced.

NETSOL WATER demineraliser comes in various capacities. The smaller capacity demineraliser is of

portable type and there are 4 such models.

The smallest, models are bench models and are made of FRP in which is housed to FRP Cylinder for

cation & anion, Access to the inside of the cabinet is form behind where a sliding door is provided.

Conductivity cell, meter & circuit box, a multiply valve manifold, are fitted inside the cabinet. The

demineraliser is operated by controlling then knobs of the value manifold. The conductivity meter

indicates the condition of the plant, i.e. whether the plant is producing demineralised water or it requires

regeneration. A PVC regeneration tank is also provided.

Larger unites are of Mild Steel Rubber lined construction. They are provided with distribution &

collection systems. For diameters up to 600 mm strainer on plate type system is employed. For diameters

up to 600 mm, header-letter type of system is employed. Up flow type of units are offered up to 600 mm

diameter. For diameters above 600 mm the down-flow type of unites are offered.

The De-mineraliaer employ injectors for injecting acid and alkali during regeneration. For cation, FRP

tank is supplied and for anion a mild steel tank is provided.

Wastewater from the units is led to sump made of concrete & suitably lined which acid / alkali proof

lining. Orifice board is provided to facilitate measurement of flows during regeneration.


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Wastewater Treatment Plants

We offer integrated solutions in wastewater treatment to industries and commercial establishments. Most

suitable waste water treatment plants are provided after developing through understanding of customer's

needs. We provide solutions on turnkey basis right from concept to commissioning. We are providing avariety of wastewater treatment plants which includes commercial wastewater treatment plants, industrial

wastewater treatment plants and residential wastewater treatment plants. Our solutions related to

wastewater treatment plants also include:

Pre-treatment includes screen to remove debris and large foreign particles.

Chemical Treatment Like pH control, coagulation, flocculation and clarification.

Primary treatment which includes settling of Sludge & Chemical residue.

Secondary treatment for aeration, clarification and disinfections.

Tertiary treatment for color removal and reduction of Hardness/TDS.

CHEMICAL TREATMENTThe technologies described in this section are chemical treatment technologies that are used for the

cleanup of uncontrolled hazardous waste sites. In general, chemical treatments alter the structure of the

waste constitutions to render them less hazardous than their original form. The objectives in using

chemicals and chemical reaction are to immobilize, mobilize for extraction, or detoxify the contaminants.

A chemical technology may achieve one or all of the above tasks. Before describing any of the treatments

in detail, a few points must be emphasized.

The feasibility of chemical treatment is dependent on site and waste characteristics. Therefore, a

careful study of site hydrology and geology must be performed before choosing teleology.

Many chemical treatments involve delivery of a fluid to the subsurface. Care must be taken to

avoid the migration of treatment reagents since they can be toxic themselves.

Chemical treatment can be applied to both organic and inorganic wastes. However, a detailedstudy of the waste must be done, so that the wrong reagents are not mixed with the waster

resulting in increased toxicity.

Primary Treatment

Primary treatment consists of removing contaminants by some physical mechanism: Screens remove

debris which can clog the machinery. The wastewater flows into chambers where chemicals are dosed

as per the requirement of the effluent. Our first motto of this dosing is to control the pH so that, the

effluent should not be acidic or nor be alkaline. Than coagulation & Flocculation is done so that

dissolved chemicals can be converted into suspended particles, and get separated from effluent. For the

optimal dosing of chemical Jar test shall be done. Once the coagulation & flocculation is done we need

settle the suspended particles and this is done by means of introducing Poly-Electrolytes. It then goes toa primary settling tank where a significant portion of the organic solids settle to the bottom while fats,

oils and grease rise to the top. Revolving primary clarifier simultaneously scrapes the primary

(untreated) solids from the bottom and skim the grease from the top.


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LAUNDER SHOWING OVERFLOW OF CLARIFIED WATER CLARIFIER

BIOLOGICAL TREATMENT

Biological treatment usually employs a large population of micro-organisms to convert the complexorganic compound into simpler compounds. There is few species of selected microbes which is used to

reduce BOD & COD from sewage/ effluent. These microbes are of two types Aerobic and Anaerobic. For

Anaerobic oxygen deficient environment is created, and hence a closed air tight system is required,

during this reaction huge quantity of Methane & other gases forms.

In Aerobic microbes, Oxygen is supplied to the system by using Air blowers or some other suitable

aerators. This is the common practice used in India for sewage/ effluent treatment. In this system

colony of microbes are developed which decomposes BOD & COD into water having very low BOD &

COD and night soil (Sludge).

Biological treatment is the process of utilizing naturally occurring living organisms to degrade, stabilize

and destroy organic contaminants. These microorganisms use the waste as their source of energy and

carbon. Biological treatment technologies are restricted to organic wastes, and therefore have limitedapplication. It is appropriate at this point to review some principles of biological process. All living

organisms require a source of energy and carbon to be able to develop and reproduce. Many organisms

(autographic) get their carbon from inorganic compounds (such as CO2), while other organisms

(heterotrophic) use organic compounds to get their carbon. Aerobic and anaerobic metabolic pathways

are used by microorganisms to degrade organic waste. During aerobic respiration, the organism utilizes

oxygen to break down complex organic compounds into simple in organic salts, carbon dioxide and

water. These microorganisms require an electron acceptor (oxygen in the case of aerobic), nutrients

such as nitrogen (N) and phosphorous (P), and other trace elements. One of the most important

characteristics of the waste is its biodegradability. Microorganisms can either directly use the

contaminated waste or gain energy and carbon from it. or, with the help of another substance they can

co-metabolically break down the contaminated waste. The biodegradability of a waste can be measuredin the laboratory through BOD (5) / COD tests. BOD (biological oxygen demand) is a test through which

contaminants can be categorized according to their biodegradability. COD (chemical oxygen demand) is

a measure of the oxygen required to oxidize all compounds in water, both organic and inorganic.


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SECONDARY SETTLING TANK( Secondary Clarifier)

In this tank night soil is separated from clarified water by means of gravitation. There are mainly two

types of separation of night soil one is by using settling media and another is without any settlingmedia. In small capacity plant settling media is used to reduce the volume of Clarifier. As these media

increases the surface area for settling hence causes better settling in small volume. These media are

placed inclined at an angle of 60 degree. These media are made up of PVC. In large capacity plants

conventional method of settling are used in which settling is done in clarifiers which doesnt have any

media for settling.

LAMELLA PLATE CLARIFIER TUBE SETTLER MEDIA

EFFLUENT TREATMENT PLANT

We design and develop plants to handle industrial and commercial effluents, which cause pollution or

pose threat to the environment. These effluent treatment plants are designed completely in custom

specifications according to the nature and type of effluents produced. We cater to the needs of

industries like textile, electroplating, hospitals, automobile, etc. We do following treatments:

SEWAGE TREATMENT PLANT

We offer complete solution for sewage water treatment on turnkey basis right from conceptualization to

commissioning. The solutions are developed according to the pollution control guidelines enforced for

commercial and industrial establishments. The systems are manufactured using stainless steel, mild steeland FRP, in accordance with international quality standards. Sewage treatment systems are available in

various capacities, specificationns and technologies.


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EXTENDED AERATION OR ACTIVATED SLUDGE PROCES

The basic technology generally used for the treatment of Sewage is activated sludge process. This applies

to both small and large processing plants and the difference lies in the arrangement and enhancement of

the various sections of the process. The activated sludge process is a natural process and nature offers us

a unique solution to treat sewage. Nature has provided a special balance in this process in that the micro

organisms present when the food levels are high, will also consume the largest amount. This allows the

quick breakdown of the BOD levels to more reasonable levels. Once these levels are reached, other

microorganisms, which are heavier and less mobile, will reduce the BOD levels further, until the final

acceptable standards are obtained The fact that the last organisms are large and heavy, allows us inpractical terms to settle these organisms out very efficiently, producing a clear liquor.

To balance the process, we can identify four major sections in a activated sewage plant system:

Collection and anaerobic storage

Aeration of the Sludge

Recirculation of Activated Sludge to maintain MLSS.

Setting of the sludge removing all solids

Chlorination and phosphorus removal to bring the final effluent up to the required standard.


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SUBMERGED AERATED FIXED FILM (SAFF) TECHNOLOGY

SAFF MEDIA SAFF PROCESS FLOW

Submerged Aerated Fixed Films (SAFF) technology is a process used to reduce the organic loading of

residential and commercial sewage / waste water, and in doing so will reduce the Biological Oxygen

Demand (BOD) and a significant quantity of Suspended Solids (SS) which if otherwise untreated would

contaminate river and sea outfalls, in other words it is used to substantially improve effluent discharge

quality.

As with traditional sewage treatment, Submerged Aerated Fixed Films technology uses three stages

of dealing with commercial and residential sewage / waste water

Primary Settlement

o Where larger solids settle into the bottom of the primary tank and are removed periodically as

sludge, and where other buoyant materials float upwards to be removed usually by a

scraping/screening method.

Secondary Treatment

o Where larger solids settle into the bottom of the primary tank and are removed periodically as

sludge, and where other buoyant materials float upwards to be removed usually by a

scraping/screening method

Final Settlement / Clarification

o Where remaining solids (Humus) are settled out of the biological treated effluent.

Discharge QualityThe usual design criteria is to produce an effluent quality typically better than BOD 30 mg/l & SS better

than 100 mg/l. Without additional nitrification and treating, normal domestic sewage ammoniadischarges are around 10 mg/l.


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MOVING BED BIOFILM REACTOR (MBBR) TECHNOLOGY

Moving Bed Biofilm Reactor (MBBR) processes improve reliability, simplify operation, and require less

space than traditional wastewater treatment systems.

MBBR technology employs thousands of polyethylene

biofilm carriers operating in mixed motion within an aerated

wastewater treatment basin. Each individual biocarrier

increases productivity through providing protected surface

area to support the growth of heterotrophic and autotrophic

bacteria within its cells. It is this high-density population of

bacteria that achieves high-rate biodegradation within the

system, while also offering process reliability and ease of

operation.

This technology provides cost-effective treatment with minimal maintenance since MBBR processes self-

maintain an optimum level of productive biofilm. Additionally, the biofilm attached to the mobile

biocarriers within the system automatically responds to load fluctuations.

Fresh MBBR media Bacterial Colonies on MBBR media


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PROCESS BENEFITS

Compact DesignA fraction of the size of conventional systems

ExpandableCapacity can be easily upgraded by simply increasing the fill fraction of biofilm carriers

Single Pass ProcessNo return activated sludge stream required

Load ResponsiveActively sloughed biofilm automatically responds to load fluctuations

Minimal MaintenanceNo F/M ratios or MLSS levels to maintain

MBBR processes are an excellent solution for common wastewater applications including:

BOD Reduction

Nitrification

Total Nitrogen Removal

Moving Bed Bio-film Reactor systems deliver a flexible, cost-effective, and easy-to-operate means to

address current wastewater requirements and the expandability to meet future loads or more stringent

discharge requirements within a compact design.


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SEQUENTIAL BATCH REACTORThe Sequential Batch Reactor combines. The efficiency of activated sludge aeration and batch treatment

to provide exceptional efficient quality even under extreme loadings.

Benefits and FeaturesReduces main pollutants including ammonia by 95% Reduces phosphates by 99% Batching system

eliminates peak surges Fully recyclable All components easily accessible The SBR uses an aerationprocess known as activated sludge but operates on a storage and batch treatment cycle Which ensures full

treatment of all the effluent even under pack flow conditions. Raw sewage enters the primary Settlement

Tank where gross solids settle out and the supernatant liquor. Remaining near the surface can be drawn off.

Substantial buffer storage volume is provided to cope with even the most extreme peak flow loadings and

aerated by a powerful air bubble diffusers for a period of 4 to 6 hours. During this aeration cycle efficient

Oxygen transfer cultures of bacteria (the active sludge) which feeds on the sewage liquor thereby removing

most of the organic pollutants. After carnation, the bubble diffuser is switched off and three is a setting

period of two hours during which the dense activated sludge sinks to the bottom leaving behind the

clarified effluent, which is then discharged in to the drain.

The SBR is an advanced biological aeration type treatment plant designed to produce a very high quality of

final effluent in addition to overcoming several of the common problems

Common problems, which normally occur, in other treatment plants are : Peak surges flow (i.e.Mornings and evenings) can force effluent through the

Plant before it has had sufficient treatment time.

Fixed film, types, which have a media matrix, can suffer from media blockage because of

excessive bacteria growth. Replacement / maintenance of the media material may be required at

regular intervals.

Mechanical / electrical components within the tanks are difficult to maintain and can be a safety

risk.

The liquor is not spread evenly over the available bacteria preventing an adequate Oxygen supply.

The SBR overcomes these problems by : Operating on a storage and batching system storing the

effluent at peak times in the primary settlement tank and treating in a small batches throughout

rest of the day thereby ensuring that each batch receives the full treatment time.

There is no fixed media within the SBR to become blocked up it operates on the activated

sludge, principal where by the bacteria float in suspension in the reactor and form an active

mixed liquor.


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TECHNOLOGIES USED FOR SLUDGE HANDLING

SLUDGE DRYING BED FILTER PRESS

INDUSTRIAL R.O. PLANT

R.O. PLANT (CAP:8000 LPH) INSTALLED AT AGRA R.O. PLANT (CAP:15000 LPH) INSTALLED AT FARIDABAD

SWIMMING POOL


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OUR INSTALLATION FOR WASTE WATER TREATMENT

SEWAGE TREATMENT PLANT HAVING CAPACITY EFFLUENT TREATMENT PLANT INSTALLED ATACTION 600 KLD (OBEROI HOTEL (DELHI) TEASA, SITARGANJ HAVING CAPACITY OF200 KLD

SEWAGE TREATMENT PLANT HAVING CAPACITY EFFLUENT TREATMENT PLANT SHOWINGELECTRICAL

5 KLD( SAINIK FARM) PANEL, MGF, ACF & BLOWER

EFFLUENT TREATMENT PLANT SEWAGE TREATMENT PLANT

(NEEMRANA RAJASTHAN) (NEEMRANA RAJASTHAN)


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ro, effluent, sewage treatment plant manufacturer

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