Ero sivun ”Vedenkäsittelyn tehokkuus” versioiden välillä

Opasnet Suomista
Siirry navigaatioon Siirry hakuun
Rivi 114: Rivi 114:
==Katso myös==
==Katso myös==


 
http://www.who.int/water_sanitation_health/dwq/en/watreatpath2.pdf


==Viitteet==
==Viitteet==

Versio 8. marraskuuta 2011 kello 11.39




Rajaus

Yleisimmät Suomessa käytetyt vedenpuhdistusprosessit ja niiden mikrobiologinen puhdistusteho ilmoitettuna log-vähenemänä.

Määritelmä

Data

Patogeeni Perinteinen puhdistus Hyvin toimiva puhdistus Tehostettu puhdistus Hidas hiekkasuodatus Kalkkikivisuodatus Aktiivihiilisuodatus UV
Kampylobakteeri [1] [2] [3] [4] 0 0 0
E.coli O157:H7 [5] [6] [7] [8] 0 0 0
Rotavirus [9] [10] [11] [12] 0 0 [13]
Norovirus [14] [15] [16] [17] 0 0 [18]
Cryptosporidium [19] [20] [21] [22] 0 [23] 0
Giardia [24] [25] [26] [27] 0 [28] 0

Kausaliteetti

Yksikkö

log-vähenemä

Kaava

Tulokset

Vedenkäsittelyprosessit

Koagulaatio/Flotaatio
Koagulaatio toimii hyvin
Tehostettu koagulaatio
Hiekkasuodatus
Kalkkisuodatus
Aktiivihiili
UV
Ero sivun ”Vedenkäsittelyn tehokkuus” versioiden välillä(log-vähenemä)
ObsPatogeeniPerinteinen puhdistusHyvin toimiva puhdistusTehostettu puhdistusHidas hiekkasuodatusKalkkikivisuodatusAktiivihiilisuodatusUV
1Kampylobakteeri2.1132.7000
2E.coli O157:H72.1132.7000
3Rotavirus31.242.2008.0784
4Norovirus31.242.2008.3952
5Cryptosporidium3.21.44.24.801.10
6Giardia3.41.44.44.9020

Katso myös

http://www.who.int/water_sanitation_health/dwq/en/watreatpath2.pdf

Viitteet

  1. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  2. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  3. Abbaszadegan, M., Mayer, B. K., Ryu, H. and Nwachuku, N. (2007). "Efficacy of removal of CCL viruses under enhanced coagulation conditions." Environ Sci Technol 41(3): 971‐7.
  4. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  5. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  6. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  7. Abbaszadegan, M., Mayer, B. K., Ryu, H. and Nwachuku, N. (2007). "Efficacy of removal of CCL viruses under enhanced coagulation conditions." Environ Sci Technol 41(3): 971‐7.
  8. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  9. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  10. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  11. Abbaszadegan, M., Mayer, B. K., Ryu, H. and Nwachuku, N. (2007). "Efficacy of removal of CCL viruses under enhanced coagulation conditions." Environ Sci Technol 41(3): 971‐7.
  12. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  13. Hijnen et al. 2006: Inactivation credit of UV radiation for viruses, bacteria and protozoan (oo)cyst in water: a review. Water Research 40(1) p3-22
  14. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  15. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  16. Abbaszadegan, M., Mayer, B. K., Ryu, H. and Nwachuku, N. (2007). "Efficacy of removal of CCL viruses under enhanced coagulation conditions." Environ Sci Technol 41(3): 971‐7.
  17. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  18. Hijnen et al. 2006: Inactivation credit of UV radiation for viruses, bacteria and protozoan (oo)cyst in water: a review. Water Research 40(1) p3-22
  19. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  20. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  21. Abbaszadegan, M., Mayer, B. K., Ryu, H. and Nwachuku, N. (2007). "Efficacy of removal of CCL viruses under enhanced coagulation conditions." Environ Sci Technol 41(3): 971‐7.
  22. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  23. Hijnen, W. A., Suylen, G. M. H., Bahlman, J. A., Brouwer‐Hanzens, A. and Medema, G. J. (2010). "GAC adsorption filters as barriers for viruses, bacteria and protozoan (oo)cysts in water treatment." Water research 44: 1224‐123
  24. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  25. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  26. Abbaszadegan, M., Mayer, B. K., Ryu, H. and Nwachuku, N. (2007). "Efficacy of removal of CCL viruses under enhanced coagulation conditions." Environ Sci Technol 41(3): 971‐7.
  27. Hijnen, W. A. and Medema, G. (2007). Elimination of micro‐organisms by water treatment processes, KWR Watercycle Research Institute.
  28. Hijnen, W. A., Suylen, G. M. H., Bahlman, J. A., Brouwer‐Hanzens, A. and Medema, G. J. (2010). "GAC adsorption filters as barriers for viruses, bacteria and protozoan (oo)cysts in water treatment." Water research 44: 1224‐123