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Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Struvite - physicochemical properties and application
Języki publikacji
Abstrakty
Przedstawiono dane fizykochemiczne, a zwłaszcza krystalograficzne, dotyczące kryształów struwitu. Podano warunki i czynniki korelujące z powstawaniem kryształów struwitu, prześledzono proces jego wytrącania w strumieniu ścieków w oczyszczalni. Omówiono dane dotyczące kinetyki strącania struwitu, podano także dane literaturowe dotyczące właściwości nawozowych produkowanego struwitu.
In the paper, presented are physicochemical, esp. crystallographic data concerning struvite crystals. Process conditions and factors correlating with the formation of struvite crystals are given and their precipitation from a stream off effluents in the treatment plant are followed. Besides, the data concerning the kinetics of struvite precipitation are discussed, as well as its fertilizing properties.
Czasopismo
Rocznik
Tom
Strony
8--13
Opis fizyczny
Bibliogr. 27 poz., 5 tab., 1 wykr., 1 rys.
Twórcy
autor
- Politechnika Krakowska, Instytut Chemii i Technologii Nieorganicznej, Kraków
autor
- Politechnika Krakowska, Instytut Chemii i Technologii Nieorganicznej, Kraków
autor
- Politechnika Krakowska, Instytut Chemii i Technologii Nieorganicznej, Kraków
autor
- Politechnika Krakowska, Instytut Chemii i Technologii Nieorganicznej, Kraków
Bibliografia
- 1. Booram C.V., Smith R.J., Hazen T.E.: Crystalline phosphate precipitation from anaerobic animal waste treatment lagoon liquors, Am. Soc. Civ. Engrs. Trans, 1975, 18, 340-334.
- 2. Nelson B., Struble J., Mccarthy G.: In vitro production of struvite by Bacillus pumilus, Can. J. Microbiol., 1991, 37, 978-983.
- 3. Abbona F., Boistelle R., Lundager H.E.: Crystallization of two magnesium phosphates, struvite and newberyite: effect of pH and concentration, Journal of Crystal Growth, 1982, 57, nr 1, 6-14.
- 4. Suzuki T.M., Yano M., Sumi S., Honda M., Hosoya: Study of the structure of struvite stones with scanning electron microscopy and energy-dispersive X-ray microanalysis, Urologia Internatuonalis, 1997, 58, 88-92.
- 5. Borgerding J.: Phosphate deposits in digestion system, Journal of Water Pollution Control Federation, 1972, 44, 813-819.
- 6. Acta Crystollagraphica, 1986, B42, 253.
- 7. Durrant A.E., Scrimshaw M.D., Stratfuland I., Leter J.N.: Review of the feasibility of recovering phosphate from wastewater for use as a raw material by the phosphate industry, Environmental Technology, 1999, 20, nr 7, 749-758.
- 8. Perez Rodrigues J.L., Magueda C., Lebrato J., Carretero M.I.: Influence of clay minerals used as a supports in anaerobic digestors, in the precipitation of struvite, Water Research, 1992, 26, nr 4, 497-506.
- 9. Perez Rodrigues J.L., Magueda C., Lebrato J.: Study of struvite precipitation in anaerobic digestors, Water Research, 1994, 28, nr 2, 411-416.
- 10. Abbona F., Boistelle R.: Growth morphology and crystal habit of struvite crystals, Journal of Crystal Growth, 1979, 46, nr 3, 339-254.
- 11. Schulze-Rettmer R.: The simultaneous chemical precipitation of ammonium and phosphate in the form of magnesium-ammonium-phosphate, Water Science and Technology, 1991, 23, 659-667.
- 12. Seckler M.M., Van Leeuwen M.L.J., Bruinsma O.S.L., Van Rosmalen G.M.: Phosphate removal in fluidized bed-v.II. Process optimization, Water Research, 1996, 30, nr 7, 1589-1596.
- 13. Parsons S., Doyle J.: Struvite - problem or recourse, CEEP Scope Newsletter, 2000, nr 38, 17-19.
- 14. Parsons S.: Struvite precipitation, CEEP Scope Newsletter, Special Edition, 2001, nr 41, 15-22.
- 15. Gatwrell M.: An economic and environmental evaluation of P-recovery, CEEP Scope Newsletter, 2000, nr 40, 10-11.
- 16. Ries K., Dunseth M., Salutsky M., Shapiro J.: Ultimate disposal from waste water by recovery as fertilizer-phaze 1. Final report. WR Grace&Co.-Dearborn Chemical Division. Prepared for The US Department of the Interior, Federal Water Pollution Control Administration, July 15 1996, CEEP Scope Newsletter, 2000, nr 38, 2-5.
- 17. Ochlinger K.N., Young T.M., Schroeder E.D.: Predicting struvite formation in digestion, Water Research, 1998, 32, nr 12, 3607-3614.
- 18. Webb K.M.: Struvite: Water Science and Technology, 1992, 26, 2229-2232.
- 19. Buchman J.R., Mote C.R. Robinson R.B.: Struvite control by chemical treatment, Water Research, 1996, 31, 1612-1618.
- 20. Ochlinger K.N.: Struvite precipitation kinetics, CEEP Scope Newsletter, 2000, nr 36, 6-8.
- 21. Phosphate recovery experience, CEEP Scope Newsletter, 2001, nr 44, 5-6.
- 22. Rzepecki T., Jodko M., Gorazda K.: Stosowanie metody chemicznego strącania związków fosforu w Tarnowskiej Grupowej Oczyszczalni Ścieków, Chemik 2002, 55, nr 3, 69-74.
- 23. Booker N.A., Pristley A.J., Fraser I.H. : Struvite formation in wastewater treatment plants: opportunities for nutrient recovery, Environmental Technology, 1999, 20, 777-782.
- 24. Bridger G.: Fertiliser value of struvite, CEEP Scope Newsletter, 2001, nr 43, 3-4.
- 25. Ghosh G., Mohan K., Sarkar A.: Characterization of soilfertilizer P reaction products and their evaluation as sources of P from gram Cicerarietinum L., Nutrient cycling in Agrosystems 1996, nr 46, 71-79.
- 26. Liberty L.: Adapting the REM-NUT® process for P-recovery, CEEP Scope Newsletter, Special Edition, 2001, nr 41, 35-36.
- 27. Battistoni P., Fava G., Pacan P., Mussaco A., Cechi F.: Phosphate removal in anaerobic liquors by struvite crystallization without addition of chemicals: preliminary results, Water Research, 1997, 31, nr 11, 2929-2929.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPP1-0034-0095