The Basic Processes of Wastewater Treatment

Water is a precious commodity. To protect our natural waters and to support drinking water production, all wastewater is therefore first cleansed of containments and pollutants before it is returned to the water cycle. To treat the water and to achieve the best possible, natural water quality, different processes are used. Generally, the treatment of wastewater can be divided into two basic types . Firstly, problematic substances are removed from the water. This is done with cleaning, iron removal, manganese removal, sterilisation, desalination or softening. Secondly, substances are specifically supplemented to improve the quality and influence parameters such as pH value or conductivity.


The stages of water treatment

Several processes are at your disposal for implementing the various preparation stages of water treatment:

  • Physical processes for mechanical preparation such as aeration, sedimentation or thermal influence. This also includes the use of screens, filters and sieves.
  • Biological processes such as anaerobic wastewater treatment, biochemical oxidation or sludge digestion
  • Chemical processes such as neutralisation, disinfection, flocculation and precipitation
  • Membrane processes such as filtration, osmosis and nanofiltration

The highest volume of wastewater to be treated is in municipal wastewater treatment plants, which is why a more diverse combination and more effective procedure is necessary here. The procedures used depend on the type of wastewater treatment plant.

The treatment processes in wastewater treatment plants can be divided into different stages.


Stage 1: mechanical water treatment

In the first stage, the still completely untreated wastewater is mechanically treated; this removes about 20 - 30% of the contained solids. To achieve this, the wastewater is guided into a screening plant, where a screen or sieve drum filters out coarse impurities such as leaves, paper or textiles. Various screens, from coarse screens with several centimetres gap width, to fine screens with a gap width of a few millimetres, through which the water flows at different speeds, filter out the coarse materials step-by-step. The mechanically-recovered screen debris is dewatered and disposed of in an incineration plant.

The pre-purified water then passes into what is called a sand collector. In wastewater treatment technology, a sedimentation tank is used to remove coarse particles, such as stones, glass splinters or sand, as well as coarse organic material that has not been separated out by the screens. This happens with a relatively high flow velocity of about 0.3 m/s. A distinction is made between the non-aerated long sand collector, the aerated long sand collector – also called a cylindrical sand collector –, and the round sand collector.

The aerated sand collector removes additional fats and oils from the wastewater, and the following occurs: the introduced process air produces a rolling motion in the water, which carries lighter substances, such as oils and fats, to the surface. They can be easily removed from the water here.

A round sand collector separates substances from the waste water with centrifugal force and sucks them away. After cleaning in the sand collector, the sand collector debris is washed and freed from organic substances. This improves the dewatering of the collected inorganic material, which can, for example, be reused in road construction. If further recycling is not possible, the sand collector debris must be disposed of properly; it is landfilled or destroyed in waste incineration plants.

The primary wastewater treatment tank is the next stage of wastewater treatment. The speed of the wastewater is approx. 1.5 cm/s, significantly slower than in the sand collector. The reduction of the flow velocity is achieved by widening the basin. A low flow velocity is necessary so that the finer dirt particles can, depending on their nature, settle on the bottom or on the water surface. The sludge produced by sedimentation (settling to the bottom) is called primary sludge. It usually consists of organic material. The primary sludge is pushed from the bottom into a fresh sludge hopper by a scraper. The floating substances are transferred to a floating sludge duct. A pump transports the fresh sludge to what is known as a digestion tower.

In the digestion tower, methane gas is produced in four phases (hydrolysis, acidification, acetone gene and methanogene phase); it is converted into electricity in a block heating plant and can be used to supply the plant with energy. The digestion process in the digestion tower is completed after approximately four weeks. What remains is an odourless sludge, which is often used in agriculture after dewatering by centrifuge or filter.

The mechanical cleaning stage ends here. On average, 30% to 40% of the pollution is removed from the wastewater in this phase. On its way through the wastewater treatment plant, the wastewater now reaches the next stage of wastewater treatment.


Stage 2: biological cleaning

In most wastewater treatment plants, the water pre-purified in the mechanical treatment stage now reaches what are known as aeration tanks, which are often designed as circulation tanks. This is where the biological cleaning takes place.

The water is put into circulation by supplying oxygen and with the help of propellers. More or less ventilated areas are created in which different milieu conditions are created for bacteria and microorganisms. These microorganisms feed on the organic contaminants still present in the water and convert them into inorganic substances. The bacteria form activated sludge flocks that float freely in the water. The supply of oxygen stimulates the multiplication of bacteria and thus promotes the formation of activated sludge. This process of biological wastewater treatment is therefore also referred to as the activated sludge process.

The wastewater with the activated sludge is discharged into the secondary wastewater treatment tank. The flow velocity of the wastewater stream is reduced again here. Sedimentation takes place: The activated sludge settles at the bottom of the purified water, where it can be separated from the clear water by mechanical clearing devices at the bottom. Part of it is transferred to the digestion tower as additional biomass. The other part of the sludge, also known as "return sludge" is returned to the aeration tank to ensure that there are enough microorganisms in the aeration tank to break down the dirt. After biological treatment, approximately 90% of the wastewater is cleaned of biodegradable substances. As oxygen is supplied by compressors, the biological cleaning stage is the most energetic phase in the entire cleaning process. Once the water has reached the legally prescribed quality, it can be returned to the water cycle – for example, to a river.

In many other cases, biological cleaning is not sufficient. In these cases, further wastewater treatment processes are necessary – for example, preparation in the form of a chemical treatment. Here, chemical additives are also used.


Stage 3: chemical wastewater treatment

In this stage of wastewater treatment, chemical processes are used for wastewater treatment. To this end, chemical compounds are used to achieve legally prescribed water standard values. Chemical treatment in wastewater treatment plants includes neutralisation, disinfection, phosphate precipitation, nitrogen elimination, deicing and manganese removal.

Neutralisation is used to produce the prescribed pH value, which is achieved by adding an acid, e.g. HCL, or a base, e.g. milk of lime.

During disinfection , pathogens are killed by adding chlorine or chlorine dioxide. The irradiation of the wastewater with UV light is a good alternative to adding chemicals, but it is used less frequently. Phosphate elimination: Our wastewater is frequently contaminated with phosphates from detergents, fertilisers, food additives and faeces. If they remain in the wastewater, they lead to overfertilisation of water bodies and enrichment with nutrients, which can lead to useless plant growth (eutrophication) harmful to the ecosystem.

Phosphates are removed with a chemical precipitation or flocculation process. The phosphate precipitation is partly triggered by the addition of aluminium or iron salts in the sand collector or in the secondary wastewater treatment tank. The metal-phosphate flocks that are formed during this secondary clarification are then taken out of the wastewater together with the activated sludge. Depending on the mode of operation, the phosphate can also be "fished" with the help of microorganisms from the wastewater. In this case we speak of a biological phosphorus elimination, which is, however, still rarely used.

Chemical water purification also includes nitrogen elimination: it is used to remove nitrogen compounds that are harmful to water, such as ammonia and ammonium, from waste water. Nitrogen compounds remove the vital oxygen from the water and can even cause fish to die when discharged into water bodies.

Nitrogen is eliminated by nitrification and denitrification: During nitrification, ammonium is converted to nitrite with the addition of anaerobic bacteria and oxygen – and then to nitrate in a second stage. The subsequent denitrification is also triggered by the addition of anaerobic microorganisms. These decompose the nitrate to nitrogen gas via enzymatic activities, which then is returned to the atmosphere.

Deferrisation: To reduce the iron content of the wastewater to the prescribed value, iron (II) cations are oxidised by the addition of oxygen. To trigger the oxidation process, caustic soda must also be added to the wastewater.

Manganese removal: Manganese is usually present in wastewater as manganese hydrogen carbonate. The addition of oxygen forms poorly-soluble manganese IV compounds, which can be easily removed from the water.


4. Stage: Membrane processes / Nanofiltration

In the fourth and final cleaning stage, membrane and filter processes are used. In part, this purification stage is combined with the chemical processes of precipitation and flocculation. This creates, for example, the method of flocculation filtration. Precipitants and flocculants are added to the wastewater, which causes flocculation of the substances that will be separated. The wastewater with the flocculated material is then passed through a cloth or sand filter.

It slowly seeps through the filter layer. Even the smallest organic suspended solids are removed.

Nanofiltration works in very similar way. In contrast to normal filtration, however, the water is passed under pressure through a membrane that retains even the smallest dissolved particles, such as molecules or heavy metal ions. The same happens with reverse osmosis, in which even higher working pressures and finer membranes are used.

The pollutants retained during filtration, nanofiltration and reverse osmosis are filtered into the sludge treatment in the form of filter sludge via the primary wastewater treatment tank.

The water now reaches the last area of the wastewater treatment plant, the treated water storage tank. Water samples are taken again here and the water quality is checked. The purified water is only returned to the water cycle when the legally prescribed parameters have been met.

Information & documents

You have questions? LET'S TALK

Find your regional contact and get personal advice.

Aerzener Maschinenfabrik GmbH (Headquarter)

Reherweg 28

31855 Aerzen

Phone: +49 5154 81-0

Fax: +49 5154 81-9191

Emmerthaler Apparatebau GmbH

Langes Feld 4

31860 Emmerthal

Phone: +49 5155 622-0

Fax: +49 5155 622-11

Aerzen Turbo Europe GmbH

Freibusch 2-4

31789 Hameln

Phone: +49 5151 92384 0

Aerzen Digital Systems GmbH

Hefehof 26

31785 Hameln

Phone: +49 5151 40302660

AERZEN Deutschland GmbH & Co. KG (Sales)

Reherweg 28

31855 Aerzen

Phone: +49 5154 81 4000

AERZEN Deutschland GmbH & Co. KG (Service)

Reherweg 28

31855 Aerzen

Phone: +49 1516 110 2901

Aerzen do Brasil Ltda

Rua Dionysio Rito, n° 300, Distrito Industrial III, L14 Q D

13213-189 Jundiaí

Phone: +55 11 4612-4021

Fax: +55 11 4612 0232

AERZEN SLOVAKIA, s.r.o.

Pezinská 18

901 01 Malacky

Phone: +421 34772 5531

Fax: +421 34772 5529

- Sales Office South West

Brückenstraße 2a

66740 Saarlouis-Fraulautern

Phone: +49 6831 76828 0

Fax: +49 5154 81 716410

Aerzen Argentina SRL

Domingo de Acassuso 4743

B1605BFO Munro, Buenos Aires

Phone: +54 11 47622351

Aerzen France S.A.S

Zone Industrielle 10, Avenue Léon Harmel

92168 Antony Cedex

Phone: +33 1 46741300

Fax: +33 1 46660061

Aerzen Belgium N.V.

A.De. Coninckstraat 11

3070 Kortenberg

Phone: +32 2 757 22 78

Fax: +32 2 7572283

Aerzen Schweiz AG

Gewerbepark Morgenstern Im Alexander 4

8500 Frauenfeld

Phone: +41 52725-0060

Fax: +41 527250066

AERZEN Nederland B.V.

Fotograaf 3

6921 RR Duiven

Phone: +31 882379361

AERZEN INTERNATIONAL RENTAL B.V.

Typograaf 5

6921 VB Duiven

Phone: +31 88 9100050

ASP AERZEN Special Products B.V.

Bedrijventerrein Nieuwgraaf Fotograaf 3

6921 RL Duiven

Phone: +31 26 4463432

Fax: +31 26 4463049

Aerzen Finland OY AB

Teollisuustie 15

FI-02880 Veikkola

Phone: +358 9 8194720

Aerzen Colombia S.A.S.

Centro Empresarial Metropolitano, Bodega 27, Módulo 2 (Autopista a Medellín, km 3,4) Cota, Cundinamarca,

Código Postal 250017 Código

Phone: +57 601 841 5730

Fax: +57 601 841 5730

Aerzen Austria Handelsges.m.b.H.

Gewerbepark Tresdorf II/1

2111 Tresdorf

Phone: +43 2262 74388

Fax: +43 2262 74399

AERZEN POLSKA Sp. z.o.o.

Al. Niepodleglosci 18

02-653 Warszawa

Phone: +48 22 489 55 22

Fax: +48 22 489 55 27

AERZEN HUNGÁRIA KFT.

Alíz Utca 4

1117 Budapest

Phone: +36 1 4392200

Fax: +36 1 4391922

AERZEN CZ s.r.o.

Hraniční 1356

69141 Břeclav

Phone: +420 519 326 657

Fax: +420 519 326658

Aerzen Ibérica S.A.U

Calle Adaptación 15-17

28906 Getafe (Madrid)

Phone: +34 91 642 4450

AERZEN IBERICA S.A. SUCURSAL EM PORTUGAL

Rua Alfredo Lopes Vilaverde, 15B Escritório 3

2770-009 Paço de Arcos

Phone: +351 21 468 2466

Fax: +351 21 468 2467

AERZEN MACHINES LTD.

Aerzen House, Langston Road

IG10 3SL Loughton, Essex

Phone: +44 2085028100

Fax: +44 2085028102

AERZEN ASIA PTE LTD

61 Woodlands Industrial Park E9 E9 Premium, #07-01

757047 Singapore

Phone: +65 6254 5080

Fax: +65 6254 6935

asia@aerzen.com

company profile

Aerzen Taiwan Machinery

Branch office of Aerzen Asia No.170, Ln. 879, Guangfu Rd., Bade Dist.,

Taoyuan City 33457

Phone: +886 3 366 6660

Fax: +886 3 366 6536

taiwan@aerzen.com

company profile

Aerzen Scandinavia AB

Östra Bangatan 20

19560 Arlandastad

Phone: +46 8 59441880

Fax: +46 8 59117209

Aerzen Scandinavia Norway

Raveien 320

3184 Borre

Phone: +47 91 81 49 00

Aerzen Scandinavia Denmark

Industrivej 2

5550 Langeskov

Phone: +45 33 11 54 54

Aerzen USA Corporation

108 Independence Way

Coatesville, PA 19320

Phone: +1 610 380 0244

Fax: +1 610 380 0278

AERZEN CANADA INC.

980 Rue Valois, Suite 100 Vaudreuil-Dorion

J7V 8P2 Quebec

Phone: +1 450 424 3966

Fax: +1 450 424 3985

canada@aerzen.com

company profile

Aerzen México S.A. de C.V.

Cerrada Uniroyal # 18-A, Col. La Michoacana

Metepec, 52166

Phone: +52 722 235 9400

Fax: +52 722 235 9401

AERZEN MAKINE San. Ve Tic. Ltd. Sti.

IMES Sanayi Sitesi, C Blok, 308. SK, No:14, Y.Dudullu

34776 Ümraniye Istanbul

Phone: +90 216 420 00 32

Fax: +90 216 420 00 79

turkiye@aerzen.com

company profile

AERZEN Machines (India) PVT. LTD.

Plot No. E-115/116, G.I.D.C , Manjusar, Tal. Savli, Dist:

Vadodara-391 775 Gujarat

Phone: +91 2667 264-817

india@aerzen.com

company profile

AERZEN ITALIA SRL

Via Raffaello Sanzio, 52

20021 Bollate (MI)

Phone: +39 02 6707 5277

Fax: +39 02 6707 5003

AERZEN MACHINERY (SHANGHAI) CO., LTD

No. 655 Yuan Dian Road, Min Hang District

Shanghai 201108

Phone: +86 21 3323 9000

Fax: +86 21 3323 9199

Aerzen Romania S.R.L.

Sat Tunari Comuna Tunari Sos. De Centura nr. 25A

RO 077180 Judet Ilfov

Phone: +40 21 243 1883

Fax: +40 21 243 1884

Aerzen ME - FZE

DSO-DDP-Office-A1-222 Dubai Silicon Oasis P.O. Box: 341445

 Dubai

Phone: +971 432 431 66

Aerzen Adria d.o.o.

Varazdinska ulica, II odvojak 3

42000 Varazdin

Phone: +385 42 370 808

Fax: +385 42 370 018

Aerzen Australia Pty Ltd

57-59 Rodeo Drive

3175 Dandenong

Phone: +61 3 97067702

Fax: +61 3 9706 8584

Aerzen Chile SPA

Limache 3363 – Bodega 13

CP: 2520642 Viña del Mar

Phone: +56 32 235 8900

Aerzen Perú SAC

Carr. Panamericana Sur Km. 29.5 Almacenes F-08 y F-09 ZI Megacentro – Altura Puente Vidu

 Lurin – Lima

Phone: +51 1 434 3831

AERZEN NORTH AFRICA LLC

Sheraton Housing 35 el moltaka el araby, Nozha elgedida. Appt - 7, 8, 9.

 Cairo

Phone: +20 2 22698855

Fax: +20 2 22696611

Aerzen AIRGAS (PTY) Ltd.

175 Domkrag Street, Robertville Ext. 1

Roodepoort, Johannesburg

Phone: +27 0 11 474 2193

Fax: +27 0 11 474 2321

SHIPSHORE (CYPRUS) LTD

Patraikou 21-23, Flat 101, Palouriotisa TK 1048, P.O. Box 25283

1308 Nicosia

Phone: +357 22441222

Fax: +357 22490641

L.A Engineering & Consulting Ltd

PO Box 2907, 25 Ha‘ela Street

40500 Even Yehuda

Phone: +972 9 8996544

Fax: +972 9 8996547

Airgas Compressors (PTY) Nigeria Limited

3, Adebukola Omolabake Street, Off Eric Omobude Street, Ifako Bus Stop, Along Oworonsoki - Ogudu Expressway

 Lagos

Phone: +234 201 295 7871

Aerzen Thailand Co., Ltd

36/60 Village No. 5, Phlu Ta Luang, Subdistrict, Sattahip District

20180 Chonburi

Phone: +66 0 38 020 090

Fax: +66 86 664 1337

AERZEN VIETNAM

Representative office of AERZEN ASIA PTE. LTD Floor 8th, Unit 802A, Dai Minh Convention Tower, 77 Hoang Van Thai, Tan Phu Ward, District 7, Vietnam

 Ho Chi Minh City

Phone: +84 28 3535 2760

Aerzen Turbo Co, Ltd

800 Jeongjung-ri, Osong-eup, Heungdeok-gu, Cheongju-si,

Chungcheongbuk-28220 Korea

Phone: +82-43-238-6500

Fax: +82 70 4170 4567

local partner: DEWA Projekt OÜ

Väike-Ameerika 15

10129 Tallinn

Phone: +372 50 39239

Aerzen Finland OY AB

Teollisuustie 15

FI-02880 Veikkola

Phone: +358 9 8194720

Aerzen Australia - New Zealand Office

Unit 17a Hobill Avenue Wiri

2104 Auckland

Aerzen Australia Pty Ltd

57-59 Rodeo Drive

3175 Dandenong

Phone: +61 3 97067702

Fax: +61 3 9706 8584

AERZEN MACHINES LTD.

Unit 6a, Castlecomer Business Park, Kilkenny Rd, Ballyhimmin

R95 Castlecomer, Co. Kilkenny

Phone: + 353 567807085

Aerzen Korea Ltd

Hyundai Terrace Tower, E-dong #608, 7, Yeonmujang 5ga-gil, Seongdong-gu,

04782 Seoul

Phone: +82 2 6463 0063

Fax: +82 2 6463 0064

Aerzen Turbo Co, Ltd

800 Jeongjung-ri, Osong-eup, Heungdeok-gu, Cheongju-si,

Chungcheongbuk-28220 Korea

Phone: +82-43-238-6500

Fax: +82 70 4170 4567

Aerzen Arabia Ltd.

Abed Al-Mis’hal Tower 9th Floor, office 907, Building 3958, District 35514 Al Jubail, Kingdom of Saudi Arabia

 

Phone: +966 13 362 8826

Service Centre - Aerzen Arabia Ltd.

Rezayat Group Dammam Port Area, Dammam Kingdom of Saudi Arabia