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Photo 14. - Biofor post-DN – Rostock (Germany) – Output 120 000 m3·d–1

Photo 7. - Series of primary settling tanks - Gaziantep plant (Turkey) - Output 200 000 m3 · d–1

Photo 6. - Circular settling tank with EFA scraper bridge (see § 3.6.2.1.)

Photo 12. - Morton water treatment plant, Jaffray-Harrare (Zimbawe) – 9 Pulsator, 1,850 m2

Photo 13. - 8 Pulsatubes –Kota Tinggy (supplying Singapore) – Output: 450 000 m3 · d–1

Photo 16. - Burlington plant (Vermont, USA). Output: 36 000 m3 · d–1. Two Superpulsators built into old tanks

Figure 19. - Energy recycling using the Pelton type turbine: statement for 40 m3· h–1 product, Y = 40 %

Photo 11. - Work exchanger: Dweer linear system – 250 m3· h–1 (in the foreground: the distribution system) (Dweer photo)

Photo 20. - SV clarifier with cantilevered bridge – Limoges plant – Output: 120 000 m3 · d–1

Photo 6. - Pertusillo (Italy) plant. Output: 16,200 m3· h–1. Battery of 14 Aquazur V double filterss

Photo 7. - Aquazur V – Sydney (Australia) – Output 3,000,000 m3· d–1

Figure 18. - Illustration of the impact of the Evaporis™ LE's 1st and 2nd levels combination on thermal consumption savings

Figure 29. - Changes in oxygen requirements in each of the cells during a dry weather day (1st or 2nd day)

Photo 3. - Thickeners and digesters of the Marseilles WWTP (France) – Capacity: 1,500,000 p.e.

Photo 9. - Bahia de Palma – Turbopump (700 m3 · h–1) with Pelton turbine in the foreground

Photo 2. - El Trebal Mapocho – Santiago WWTP (Chile) – Flowrate: 760 000 m3·d–1

Photo 6. - La Morée Covered plant - Flow rate: 52 300 m3·day–1

Photo 7. - Facade of La Morée plant - Flow rate: 52 300 m3·d–1

Photo 18. - Camp Creek – 341 000 m3.dj–1 using a 30 mJ·cm–2 dose

Photo 8. - Centripure system: 2.5 m3· h–1 – Reverse osmosis + Electro-deionisation

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