Usuwanie i odzyskiwanie fosforu ze ścieków i odpadów zwierzęcych

• Autorzy: Szustakowski M.

Warianty tytułu

EN

Removal and recovery of phosphorus from sewage and animal wastes

• Języki publikacji: PL

Abstrakty

PL

Przedstawiono aktualne problemy występowania fosforu w ściekach i odpadach oraz warunki jego odzyskiwania i wykorzystania jako surowca, wtórnego w przemyśle chemicznym i w nawożeniu pól, prezentowane podczas II Międzynarodowej Konferencji nt. "Odzyskiwanie fosforanów ze ścieków i odpadów zwierzęcych" (Noordwijkerhout, 12-14 marca 2001 r., Holandia).

EN

Problems of occurrence of phosphorus in sewage and animal wastes and methods of its removal, recovering and utilisation for manure and as a secondary raw material in chemical industry were presented basing on the contributions presented during the Second International Conference on: Recovery of Phosphates from Sewage and Animal Wastes (Noordwijkerhout, 12-14 March 2001, Holland).

Słowa kluczowe

PL

ścieki; odpady zwierzęce; fosfor; odzyskiwanie

EN

sewage; animal wastes; phosphorus; recovery

• Wydawca: Towarzystwo Chemii i Inżynierii Ekologicznej
• Czasopismo: Chemia i Inżynieria Ekologiczna
• Rocznik: 2001
• Tom: Vol. 8, nr 12
• Strony: 1249--1255
• Opis fizyczny: Bibliogr. 46 poz., tab.

Twórcy

autor

Szustakowski M.

• Uniwersytet Zielonogórski, Instytut Inżynierii Środowiska, ul. Podgórna 50, 65-246 Zielona Góra.

Bibliografia

• [1] Corbridge D.E.C.: Phosphorus, Elsevier Scientific Publishing Company Amsterdam, Oxford, New York 1978.
• [2] Driver J., Lijmbach D. i Steen I.: Why recover phosphorus for recycling, and how? Environ. Technol., 1999, 20(7), 651-662.
• [3] Schipper W.: Phosphate recycling in the phosphorus industry, [in] II International Conference on: Recovery of Phosphates from Sewage and Animal Wastes, Noordwijekerhout (Holland), 12-14 March 2001.
• [4] Phosphate, Published by CEFIC i CEEP, Brussels 1997.
• [5] Stratful I., Breitt S., Scrimshaw M.B. i Lester J.N.: Biological phosphorus removal, its role in phosphorus recycling. Environ. Technol., vol. 1999, 20(7), 681-695.
• [6] Brandse F. i Van Loosdrecht M.: Sewage treatment and methods for phosphate recovery in BCFS processes, [in] II International Conference on: Recovery of Phosphates from Sewage and Animal Wastes, Noordwijekerhout (Holland), 12-14 March 2001.
• [7] Heizmann B.: Phosphorus recovery in wastewater treatment plants, [in:] ibid.
• [8] Kvarnstrom E., Morel Ch. i Guivarch A.: Potential aqricultural use of iron phosphate recovered from FeSO4 — precipitated sewage sludge, [in:] ibid.
• [9] Hogan F., McHogh M. i Morton S.: Phosphorus availability for beneficial use in biosolids products, [in:] ibid.
• [10] Karlsson I.: Full scale plant recovering iron phosphate from sewage at Helsingborg Sweden, [in:] ibid.
• [11] Hultman B., Levlin E., Mossakowska A. i Stark K.: Effects of wastewater treatment technology on phosphorus recovery from sludges and ashes, [in:] ibid.
• [12] Suschka J., Machnicka A. i Popławski S.: Phosphates recovery from iron phosphates sludge, [in:] ibid.
• [13] Carliell-Marquet C.M., Weatley A.D. i Churchley L.: Anaerobic digestion of phosphorus rich sludge, [in:] ibid.
• [14] Jardin N. i Popel H.J.: Relaxation of phosphates released during bio-P sludge handling as struvite or aluminium phosphate, [in:] ibid.
• [15] Evans T.: Implication of within wwtp P-recovery for biosolids management: Biosolids volumes, N:P ratio and recycling, [in:] ibid.
• [16] Klapwijk B., Rulkens W. i Temmnik H.: Recovery of phosphorus from sewage, [in:] ibid.
• [17] Muller G. i Ludwig A.: P-Speciation in sewage sludge from different stages of municipal wastewater treatment — first results, [in:] ibid.
• [18] Walher F.R., Burus R.T., Moody L.B. i Ramon D.J.: In-situ reduction of soluble phosphorus in swine waste, [in:] ibid.
• [19] Burns R.T., Moody L.B., Walker F.R. i Raman D.R.: Laboratory and in-situ reductions of soluble phpsphorus in liquid swine waste slurries, [in:] ibid.
• [20] Tunay O. i Kabdasli I.: Struvite precipitation from industrial and landfill waste streams, [in:] ibid.
• [21] Schultze-Rettmer R., Metzen P., Alfter P. i von Firchs R.: MAP precipitation — pilot plant investigation in Germany manure as the most important phosphate resources, [in:] ibid.
• [22] Parsons S.A., Wall F., Doyle J., Oldring K. i Chuchley J.: Assessing the potential for strutive fouling & recovery at sewage treatment works, [in:] ibid.
• [23] Jaffer Y., Clark T.A., Pearce P. i Parsons S.A.: Assessing the potential of full scale phosphorus recovery by struvite formation, [in:] ibid.
• [24] Webb K.M. i Ho G.E.: Characterisation of waste solutions to determine optimised P recovery, [in:] ibid.
• [25] Matysek D. i Raclavska H.: Problems of dissolution and crystallisation of struvite, [in:] ibid.
• [26] Ohlinger K.N., Young T.M. i Schroeder E.D.: Struvite characterisation and control, [in:] ibid.
• [27] Stratful I.: Conditions influencing the precipitation of magnesium ammonium phosphate, [in:] ibid.
• [28] Kumashhiro K., Ishiwatari H. i Nawamura Y.: A pilot plant study on using seawater as a magnesium source for struvite precipitation, [in:] ibid.
• [29] Battistoni P., Boccadro R., Pavan P. i Cecchi F.: Struvite crystallisation in sludge dewatering supernatant using air stripping: The new-full scale plant at Treviso (Italy) sewage works, [in:] ibid.
• [30] Koutsoukos P.G.: Current knowledge of calcium phosphate chemistry and in particular solid surface-water interface interaction, [in:] ibid.
• [31] Song Y., Hahn H.H. i Hofmann E.: The effects of pH and Ca/P ratio on the precipitation of calcium phosphate, [in:] ibid.
• [32] Van der Houwen J.A.M. i Valsami-Jones E.: Influence of organic ligands on the precipitation of calcium phosphates, [in:] ibid.
• [33] Plant L.J. i House W.A.: Precipitation of calcite in the presence of inorganic phosphate, [in:] ibid.
• [34] Kalyuzhnyi S., Sklyar V., Epov A., Arkhipchenko I., Barboulina O. i Klapwijk A.: Phosphate recovery via precipitation from anaerobically treated pig manure wastewater, [in:] ibid.
• [35] Moriyama K., Kojima T., Minawa Y., Matsumoto S. i Nakamachi K.: Development of artificial seed crystal for crystallisation of calcium phosphate, [in:] ibid.
• [36] Piekema P. i Giesen A.: Phosphate recovery by the crystallisation process: Experience and developments, [in:] ibid.
• [37] Hohn K.: Mobile plant for animal wastes (membrane separation — struvite precipitation), [in:] ibid.
• [38] Ong H.K. i Suhaimi M.: Prospects for recovery of excess livestock phosphate production in Malaysia, [in:] ibid.
• [39] Greaves J.: Treatment of pig manures, [in:] ibid.
• [40] Górecki H. i Pawełczyk A.: Phosphorus, micronutrients and heavy metals in plant farming wastes; the utilisation of fosphorus from animal farming wastes and harvesting residues for mineral-organic fertiliser manufacture, [in:] ibid.
• [41] Mikkelsen R.: Phosphorus accumulation on dairy, poultry and swine farms: can struvite recovery help?, [in:] ibid.
• [42] Wilsenach J.A.: An overview of initiatives in Europe to recover from source separated urine, [in:] ibid.
• [43] Liberti L., Petruzzelli D. i de Florio L.: Rem Nut ion exchange plus strutive precipitation process, [in:] ibid.
• [44] SenGupta A.K.: Ultimate removal and recovery of phosphate from wastewater with a new class of polymeric sorbent, [in:] ibid,
• [45] Munch E.V., Benesovsky-Scott A., Josey J. i Barr K.: Making a business from struvite crystallisation for wastewater treatment: Turning waste into gold, [in:] ibid.
• [46] Gaterell M.R., Gay R., Wilson R. i Lester J.N.: An economic and environmental evaluation of the opportunities for substituting phosphorus recovered from wastewater treatment works in existing UK fertilisers markets, [in:] ibid.