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Glony na oczyszczalniach ścieków

Identyfikatory
Warianty tytułu
EN
Algae on the wastewater treatment plants
Języki publikacji
PL
Abstrakty
PL
Glony są organizmami samożywnymi, fotosyntetyzującymi. Wykorzystują związki biogenne do produkcji swojej biomasy, z tego względu mogą być z powodzeniem wykorzystywane do oczyszczania różnego typu ścieków, bogatych w związki azotu i fosforu. Procesy usuwania zanieczyszczeń i związków biogennych przy pomocy biocenozy glonów określane są jako phykoremediacja. Dodatkową zaletą takiego oczyszczania jest między innymi eliminacja bakterii chorobotwórczych i fekalnych z grupy coli, sorpcja metali ciężkich, a także biologiczna sekwestracja C02.
EN
Algae are fotoautotrophic organisms, which are able to use nutrients like phosphorus and nitrogen compounds to build their biomass. It is the reason why they are successfully used to treat different types of wastewaters. Processes of removing nutrition compounds and other contaminations with algae biocenosis is called phy- coremediation. In addition, advantages of this type of wastewater treatment are also: elimination of pathogenic bacteria and fecal coliforms, metals sorption and biological C02 sequestration.
Czasopismo
Rocznik
Tom
Strony
10--13
Opis fizyczny
Bibliogr. 36 poz., rys.
Twórcy
autor
  • Politechnika Śląska, Wydział Inżynierii Środowiska i Energetyki, Katedra Biotechnologii Środowiskowej, agata.karlo@polsl.pl
Bibliografia
  • [1] Abdel-Raouf N., Al-Homaidan A. A., Ibraheem I. B. M.: Microalgae and wastewater treatment, Saudi Journal of Biological Sciences, 19, 2012
  • [2] Chevalier P., De la Noiie J.: Wastewater nutrient removal with microalgae immobilized in Caraageenan, Enzyme and Microbial Technology, 7,1985a
  • [3] Chevalier P., De la Noiie J.: Efficiency of immobilized hyperconcentrated algae for ammonium and orthophosphate removal from wastewaters, Biotechnology Letters, 7,1985b
  • [4] Darley W. M.: Algal biology: A physiological Approach, Basic Microbiology, 1982
  • [5] Day J. G., Benson E. E., Fleck R. A.: In vitro culture and conservation of microalgae: applications for aquaculture, biotechnology and environmental research, In Vitro Cell, 35,1999
  • [6] De la Noiie J., Laliberete G., Proulx D.: Algae and wastewater, Journal of Applied Phycology, 4,1992
  • [7] El-SikailyA., El Nemr A., Khaled A., Ab- delwehab O.: Removal of toxic chromium from wastewater using green alga Ulva lactuca and its activated carbon, Journal of Hazardous Materials, 148, 2007
  • [8] Fogg G. E.: Algal Cultures and Phytoplankton Ecology, second edition, The University of Wisconsin Press, 175,1975
  • [9] Gutzeit G., Lorch D., Weber A., Engels M., Neis U.: Bioflocculent algal-bacterial biomass improves low-cost wastewater treatment, Water Science and Technology, 52, 2005
  • [10] Jensen A.: Dialysis culture in integrated aquaculture, Harvesting Polluted Waters, Plenum Publishing Corporation, New York, 1976
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  • [13] Kothari R., Pathak V. V., Kumar V., Singh D. P.: Experimental study for growth potential of unicellular alga Chlorella pyreno- idosa on dairy wastewater: An integrated approach for treatment and biofuel production, Bioresource Technology, 116, 2012
  • [14] Li Y., Chen Y.-F., Chen P., Min M., Zhou W., Martinez B., Zhu J., Rúan R.: Characterization of a microalga Chlorella sp. Well adapted to highly concentrated municipal wastewater for nutrient removal and biodiesel production, Bioresource Technology, 102, 2011a
  • [15] Li Y., Zhou W., Hu B., Min M., Chen P., Rúan R. R.: Integration of algae cultivation as biodiesel production feedstock with municipal wastewater treatment: Strains screening and significance evaluation of environmental factors, Bioresource Technology, 102, 2011b
  • [16] Lincoln E. P., Hill D. T.: An integrated microalgae system, Algae Biomass, 1980
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  • [18] Meron A., Rebhum M., Sless B.: Quality changes as a function of detention time in wastewater stabilization ponds, Journal of Water Pollution Control Federation, 37,1965
  • [19] Moawad S. K.: Inhibition of coliform bacteria by algal population in microoxidation ponds, Environmental Health, 10,1968
  • [20] Mohamed N. A.: Application of algal ponds for wastewater treatment and algal production, M. Sc. Thesis, Faculty of Science, Cairo University, 1994
  • [21] Muñoz R., Guieysse B.: Algal-bacterial processes for the treatment of hazardous contaminants: A review, Water Research, 40, 2006
  • [22] Nurdogan Y., Oswald W. J.: Enhanced nutrient removal in high rate ponds, Water Science and Technology, 31,1995
  • [23] Oh H.-M., Lee S. J., Park M.-H., Kim H.- S., Yoon J.-H., Kwon G.-S., Yoon B.-D.: Harvesting of Chlorella vulgaris using a bioflocculant from Paenibacillus sp. AM49, Biotechnology Letters, 23, 2001
  • [24] Oswald W. J., Gotaas H. B.: Photosynthesis in sewage treatment, Transactions of the American Society of Civil Engineers, 122,1957
  • [25] Palmer C. M.: A composite rating of algae tolerating organic pollution, Journal of Phycology, 5,1969
  • [26] Rawat I., Ranjith Kumar R., Mutanda T., Bux F.: Dual role of microalgae: Phy- coremediation of domestic wastewater and biomass production for sustainable biofuels production, Applied Energy, 88, 2011
  • [27] Su Y., Mennerich A., Urban B.: Synergistic cooperation between wastewater- born algae and activated sludge for wastewater treatment: Influence of algae and sludge inoculation ratios, Bioresource Technology, 105, 2012
  • [28] Travieso L., Benitez F., Dupeiron R.: Sewage treatment using immobilized microalgae, Bioresource Technology, 40, 1992
  • [29] Rubber Industry. Special coordination Meeting of the working group on environmental biotechnology, 1990
  • [30] Zhang E., Wang B., Wang Q., Zhang S., Zhao B.: Ammonia-nitrogen and orthophosphate removal by immobilized Sce- nedesmus sp., isolated from municipal wastewater for potential use in tertiary treatment, Bioresource Technology, 99,2008
  • [31] wwwi: http://protist.i.hosei.ac.jp/pdb/ images/mastigophora/euglena/viridis/ sp_07.html
  • [32] www2:http://www.microscopy-uk.org. uk/mag/indexmag.html?http://www. microscopy-uk.org.uk/mag/artocto5/ mmdesmid.html
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  • [34] WWW4: http://www.diatomloir.eu/ Site%20Diat0m/Marinedeux.html
  • [35] WWW5: http://www.electricitybook.com/ algae-biodiesel/
  • [36] www6: http://algae-energy.co.uk/ biofuel_production/cultivation/
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPC2-0018-0002
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