tag:blogger.com,1999:blog-12100979.post5591032199348521373..comments2024-03-02T19:26:58.288+02:00Comments on -- Ilkka Luoma --: Talvivaaran purkuputkessa muhii aikapommi – paikallisille ja valtiollemme!Ilkka Luomahttp://www.blogger.com/profile/10633913470126987503noreply@blogger.comBlogger1125tag:blogger.com,1999:blog-12100979.post-13701686735052089112015-03-18T17:11:16.610+02:002015-03-18T17:11:16.610+02:00Aiheeseen liittyviä lähteitä
Gilmour CC, Henry EA ...Aiheeseen liittyviä lähteitä<br />Gilmour CC, Henry EA ja Mitchell R, Sulfate stimulation of mercury methylation in freshwater sediments, Environ Sci Technol 1992 26 2281 - 2287.<br /><br />Brahmacharimayum B,and Ghosh P Kumar. 2012. A study on efficiency of five different carbon sources on sulfate reduction. Journal of Environmental Research And Development. 7: 1.<br /> <br />Johnson DB. Reductive dissolution of minerals and selective recovery of metals using acidophilic iron- and sulfate-reducing acidophiles. Hydrometallurgy 2012; 127:172-177.<br /><br />Johnson DB & Hallberg KB. Acid mine drainage remediation options: a review. Science of the total environment 2005: 338(1):3-14. <br /><br />Kaksonen AH, Puhakka JA. Sulfate reduction based bioprocesses for the treatment of acid mine drainage and the recovery of metals. Engineering in Life Sciences 2007; 7:541-564.<br /><br />Keränen A, Leiviskä T, Gao BY, Hormi O, Tanskanen J (2013) Preparation of novel anion exchangers from pine sawdust and bark, spruce bark, birch bark, and peat for the removal of nitrate. Chemical Engineering Science 98: 59-68.<br /><br />Kimura S, Hallberg KB, Johnson DB. Sulfidogenesis in low pH (3.8-4.2) media by a mixed population of acidophilic bacteria. Biodegradation 2006; 17:57-65<br /><br />Myuzer G & Stams AJM. The ecology and biotechnology of sulphate-reducing bacteria. Nature Reviews Microbiology 2008; 6, 441-454.<br /><br />Neculita CM, Zagury GJ, Bussiere B. Passive treatment of acid mine drainage in bioreactors using sulfate-reducing bacteria: Critical review and research needs. Journal of Environmental Quality 2007; 36:1-16<br /><br />Nevatalo LM, Bijmans MFM, Lens PNL, Kaksonen AH, Puhakka JA. The effect of sub-optimal temperature on specific sulfidogenic activity of mesophilic SRB in an H-2-fed membrane bioreactor. Process Biochemistry 2010; 45:363-368<br /><br />Nilsen RK, Torsvik T, Lien T. Desulfotomaculum thermocisternum sp nov, a sulfate reducer isolated from a hot North Sea oil reservoir. International Journal of Systematic Bacteriology 1996; 46:397-402.<br />O'Flaherty V, Mahony T, O'Kennedy R, Colleran E. Effect of pH on growth kinetics and sulphide toxicity thresholds of a range of methanogenic, syntrophic and sulphate-reducing bacteria. Process Biochemistry 1998; 33:555-569.<br /><br />Sanos JM, de Sa LM, Reis Junior NC, Horan NJ. Kinetic models of hydrogen sulphide formation in anaerobic bioreactors. Environmental Technology Reviews 2013.<br /><br />Vainionpää N (2013) Teollisuusveden käsittely biopohjaisella vedenkäsittelymateriaalilla (Treatment of industrial wastewater by bio-based water treatment chemical). Bachelor's thesis, University of Oulu. <br />Wang W-Y, Yue Q-Y, Xu X, Gao B-Y, Zhang J, Li Q, Xu J-T (2010) Optimized conditions in preparation of giant reed quaternary amino anion exchanger for phosphate removal. Chemical Engineering Journal 157: 161-167.<br /><br />Xu X, Gao BY, Yue QY, Zhong QQ (2010) Preparation of agricultural by-product based anion exchanger and its utilization for nitrate and phosphate removal. Bioresource Technology 101: 8558-8564.<br /><br />Yamaguchi T, Harata H, Hisano T, Yamazaki S, Tseng IC. Process behavior of UASB reactor treating a wastewater containing high strength sulfate. Water Research 1999; 33:3182-3190.<br />Ilkka Luomahttps://www.blogger.com/profile/10633913470126987503noreply@blogger.com