BIbliografie
1.Vaicum L., Chimia si biologia apei, p: 32 – 33,Editura Tehnică, București,1974.
2. NTPA-013/2002 Normele de calitate pe care trebuie să le îndeplinească apele utilizate pentru potabilizare.
3.US Environmental Protection Agency, Methods for chemical analysis of water and wastes. EPA 660/4-79-020. Cincinnati, OH:US Environmental Protection Agency,1979.
4. Manescu S, Chimia sanitara a mediulu, Editura Medicală, București p:20- 36,1994.
5. NTPA-014/2002 Normativul privind metodele de măsurare și frecvența de prelevare și analizăa probelor din apele de suprafață destinate producerii de apă potabilă.
6. Fernanfez N., Ramirez A.,Solano F.,”Physico-chemical water quality –indices, a comparative rewiew”Bistua:Revista de la Facultad de Ciencias Basicas, 2, (1), p: 19 -30, 2004.
7. STAS 1342/1991 privind indicatorii chimici generali ai apei potabile în România.
8. Legea 458/2002 Legea Calitatii Apei în România.
9. Legea 311/2004, Modificare și completare la legea 458/2002.
10.STAS 6329/1990 Determinarea calitativăși cantitativă a organismelor în apele de suprafață.
11. Paslarasu I., „Alimentarea cu apă a orașului Iasi” ,Hidrotehnica, București, nr.5,p :16 1958.
12.ApaVital SA–Iași, Alimentarea cu apă a municipiului Iași,on line: www.apavital.ro,2010
13.Teodosiu C.,"Tehnologia apei potabile și industriale”,ed. Matrix Rom,București, 2001.
14.Stevenson D.G.,”Water Treatment Unit Processes”, Imperial Colleg Press London, UK, p:35,1997.
15.Gregory J.,”Particles in water: properties and processes”, Taylor & Francis, 2006.
16. Somasundaran P.,"Encyclopedia of surface and colloid science,” nr.7, p: 4980-4982,2006.
17. Hunter R.J.,”Zeta Potential in Colloid Science”, Academic Press, New York,1981
18. American Society for Testing and Materials, Zeta Potential of Colloids in Water and Waste Water", ASTM Standard Journal, nr.3,p:9,1999.
19.Cheremisinoff, N.P.,Handbook of water and wastewater treatment technologies, Woburn, MA: Butterworth-Heinemann, p:48-57, 2002.
20.J. Duan, J. Gregory ,“Advances in Colloid and Interface Science”, Elsevier Science, p:100 –102, 475–502,2003.
21. X.Tang,Z.K. Luan,”The Differences Between Inorganic Polymer coagulants and Traditional Coagulants”, Chemical Water and Watewater Treatment Journal, Gothenburg, Edinburgh, Scotland, nr.4,p:145, 1996.
22.Kurenkov V.F, Hartan H.G.,Fedor. Lobanov I.,”Application of polyacrylamide flocculants for water treatment”, “Stockhausen Eurasia Symposium. Technics and an Environment”, Russia, 2002.
23.Bratby J.,”Coagulation and Flocculation in Water and Wastewater Treatment”,IWA Publishing, Alliance House, p:220,228-238,250-253, 2006.
24.MWH,Water,Treatment: Principles and Design, Water Quality Management Strategies. Water Treatment Processes. Water Treatment Technology and Systems. Water purifiers, p:146,2009.
25. Ghawi A., Kriš J.,”A CFD methodology for the design of rectangular sedimentation tanks in potable water treatment plants”, Journal of Water Supply: Research and Technology--AQUA. IWA Publishing, 58, (3), p: 212–220, 2009.26
26. Karnaningroem N., Hidayah E.N.,”Model of hydridynamic for settling flocs in rectangular sedimentation ”,Journal of Mathematics and Technology,nr. 3, 2010.
27. Dobrica L., Logican I., Nistor A., Tehnologii de tratare a apei, Rotaprint Iasi, p:76,1998.
28. Bourke N., Carty G., Crowe M., Lambert M.,Water Treatment Manuals – Filtration,Environmental protection Agency, p:10 – 44, 1995.
29. Al-Rawi S.M. , “Filtration for Drinking WaterTreatment” EPCRS Symposium on new trends in water purification,Mosu/Iraq, 2009
30. Engber D., “How Does Activated Carbon Work?”. Slate. Retrieved September 23, 2008.
31.Roop C. B. , Meenakshi G.,“Activated Carbon”,Francis&taylor Group,capVII, p: 433-470,2005.
32. Venkobachar L. I. , Prabhakara A.V.S.,“Mechanism of disinfection, Environmental Engineering Laboratory”, I.I.T.Kanpur 208016. India,Water Research, 9, (1), p : 119-124, 2003.
33. Nieuwenhuijsen M.J., Mireille B T., Eaton N.E., Fawell J.,Elliott P., “Chlorination disinfection byproducts in water and their association with adverse reproductiveout comes: a review”, Occup Environ Med, p:57, 73–85, 2001.
34.Imo T.S., Oomori T., Toshihiko M.,Tamaki M.F.,”The comparative study of trihalomethanes in drinking water”, International. Journal Environmental. Sci. Tech., 4, (4), p: 421-426, 2007.
35.LatifogluA.,” Formation of Trihalomethanes by the Disinfection of Drinking Water”,Environmental Engineering Department,Sage Journal – on line,2006.
36. USEPA , “Alternative Disinfectants and Oxidants GuidanceManual,” EPA/815/R-99/014, 1999.
37. Knapp J.E., Battisti D.L., “Chlorine dioxide. In Disinfection, Sterilization and Preservation”, Edited by S.S. Block. Lippincott Williams and Wilkins, Philadelphia, p: 215-228, 2001.
38. Beltran F.J., “Theoretical Aspects Of The Kinetics Of Competitive Ozone Reactions In Water”, Ozone: Science & Engineering: The Journal of the International Ozone Association, 17, (2), p: 163 – 181,1995.
39.Von Gunten, U. “Ozonation of drinking water: Part I. Oxidation kinetics and product formation”, Water Resources Journal, nr.37, p:1443–1467, 2003.
40. Masschelein W.J., Rice R.G., „Ultraviolet Light in Water and Wastewater Sanitation”, Lewis Publication, p: 81 – 83, 2002.
41.Hijnen W.A.M., Beerendonk E.F., Medema G.J., “Inactivation credit of UV radiation for viruses, bacteria and protozoan, cysts in water” A review Water Research, 40, (1), p: 3-22 ,2006.
42. http://ro.wikipedia.org/wiki/Baterie_electric%C4%83
43. http://ro.wikipedia.org/wiki/Fi%C8%99ier:Von_Koch_curve.gif
44. Lepădatu M., Balan D., Gîrtan M., Expediţie în lumea minunată a chimiei, ed. A92, 2000.
45. Marea carte despre experimente, ed. Deagostini,Bucureşti, 2008
46. http://blog.aquacarpatica.com/leonardo-da-vinci-si-fascinatia-sa-pentru-apa/aqua-carpatica
47. Leonardo’s Machines, Secrets and Inventions in the Da Vinci Codices, Ed. Giunti, 2005.
2. NTPA-013/2002 Normele de calitate pe care trebuie să le îndeplinească apele utilizate pentru potabilizare.
3.US Environmental Protection Agency, Methods for chemical analysis of water and wastes. EPA 660/4-79-020. Cincinnati, OH:US Environmental Protection Agency,1979.
4. Manescu S, Chimia sanitara a mediulu, Editura Medicală, București p:20- 36,1994.
5. NTPA-014/2002 Normativul privind metodele de măsurare și frecvența de prelevare și analizăa probelor din apele de suprafață destinate producerii de apă potabilă.
6. Fernanfez N., Ramirez A.,Solano F.,”Physico-chemical water quality –indices, a comparative rewiew”Bistua:Revista de la Facultad de Ciencias Basicas, 2, (1), p: 19 -30, 2004.
7. STAS 1342/1991 privind indicatorii chimici generali ai apei potabile în România.
8. Legea 458/2002 Legea Calitatii Apei în România.
9. Legea 311/2004, Modificare și completare la legea 458/2002.
10.STAS 6329/1990 Determinarea calitativăși cantitativă a organismelor în apele de suprafață.
11. Paslarasu I., „Alimentarea cu apă a orașului Iasi” ,Hidrotehnica, București, nr.5,p :16 1958.
12.ApaVital SA–Iași, Alimentarea cu apă a municipiului Iași,on line: www.apavital.ro,2010
13.Teodosiu C.,"Tehnologia apei potabile și industriale”,ed. Matrix Rom,București, 2001.
14.Stevenson D.G.,”Water Treatment Unit Processes”, Imperial Colleg Press London, UK, p:35,1997.
15.Gregory J.,”Particles in water: properties and processes”, Taylor & Francis, 2006.
16. Somasundaran P.,"Encyclopedia of surface and colloid science,” nr.7, p: 4980-4982,2006.
17. Hunter R.J.,”Zeta Potential in Colloid Science”, Academic Press, New York,1981
18. American Society for Testing and Materials, Zeta Potential of Colloids in Water and Waste Water", ASTM Standard Journal, nr.3,p:9,1999.
19.Cheremisinoff, N.P.,Handbook of water and wastewater treatment technologies, Woburn, MA: Butterworth-Heinemann, p:48-57, 2002.
20.J. Duan, J. Gregory ,“Advances in Colloid and Interface Science”, Elsevier Science, p:100 –102, 475–502,2003.
21. X.Tang,Z.K. Luan,”The Differences Between Inorganic Polymer coagulants and Traditional Coagulants”, Chemical Water and Watewater Treatment Journal, Gothenburg, Edinburgh, Scotland, nr.4,p:145, 1996.
22.Kurenkov V.F, Hartan H.G.,Fedor. Lobanov I.,”Application of polyacrylamide flocculants for water treatment”, “Stockhausen Eurasia Symposium. Technics and an Environment”, Russia, 2002.
23.Bratby J.,”Coagulation and Flocculation in Water and Wastewater Treatment”,IWA Publishing, Alliance House, p:220,228-238,250-253, 2006.
24.MWH,Water,Treatment: Principles and Design, Water Quality Management Strategies. Water Treatment Processes. Water Treatment Technology and Systems. Water purifiers, p:146,2009.
25. Ghawi A., Kriš J.,”A CFD methodology for the design of rectangular sedimentation tanks in potable water treatment plants”, Journal of Water Supply: Research and Technology--AQUA. IWA Publishing, 58, (3), p: 212–220, 2009.26
26. Karnaningroem N., Hidayah E.N.,”Model of hydridynamic for settling flocs in rectangular sedimentation ”,Journal of Mathematics and Technology,nr. 3, 2010.
27. Dobrica L., Logican I., Nistor A., Tehnologii de tratare a apei, Rotaprint Iasi, p:76,1998.
28. Bourke N., Carty G., Crowe M., Lambert M.,Water Treatment Manuals – Filtration,Environmental protection Agency, p:10 – 44, 1995.
29. Al-Rawi S.M. , “Filtration for Drinking WaterTreatment” EPCRS Symposium on new trends in water purification,Mosu/Iraq, 2009
30. Engber D., “How Does Activated Carbon Work?”. Slate. Retrieved September 23, 2008.
31.Roop C. B. , Meenakshi G.,“Activated Carbon”,Francis&taylor Group,capVII, p: 433-470,2005.
32. Venkobachar L. I. , Prabhakara A.V.S.,“Mechanism of disinfection, Environmental Engineering Laboratory”, I.I.T.Kanpur 208016. India,Water Research, 9, (1), p : 119-124, 2003.
33. Nieuwenhuijsen M.J., Mireille B T., Eaton N.E., Fawell J.,Elliott P., “Chlorination disinfection byproducts in water and their association with adverse reproductiveout comes: a review”, Occup Environ Med, p:57, 73–85, 2001.
34.Imo T.S., Oomori T., Toshihiko M.,Tamaki M.F.,”The comparative study of trihalomethanes in drinking water”, International. Journal Environmental. Sci. Tech., 4, (4), p: 421-426, 2007.
35.LatifogluA.,” Formation of Trihalomethanes by the Disinfection of Drinking Water”,Environmental Engineering Department,Sage Journal – on line,2006.
36. USEPA , “Alternative Disinfectants and Oxidants GuidanceManual,” EPA/815/R-99/014, 1999.
37. Knapp J.E., Battisti D.L., “Chlorine dioxide. In Disinfection, Sterilization and Preservation”, Edited by S.S. Block. Lippincott Williams and Wilkins, Philadelphia, p: 215-228, 2001.
38. Beltran F.J., “Theoretical Aspects Of The Kinetics Of Competitive Ozone Reactions In Water”, Ozone: Science & Engineering: The Journal of the International Ozone Association, 17, (2), p: 163 – 181,1995.
39.Von Gunten, U. “Ozonation of drinking water: Part I. Oxidation kinetics and product formation”, Water Resources Journal, nr.37, p:1443–1467, 2003.
40. Masschelein W.J., Rice R.G., „Ultraviolet Light in Water and Wastewater Sanitation”, Lewis Publication, p: 81 – 83, 2002.
41.Hijnen W.A.M., Beerendonk E.F., Medema G.J., “Inactivation credit of UV radiation for viruses, bacteria and protozoan, cysts in water” A review Water Research, 40, (1), p: 3-22 ,2006.
42. http://ro.wikipedia.org/wiki/Baterie_electric%C4%83
43. http://ro.wikipedia.org/wiki/Fi%C8%99ier:Von_Koch_curve.gif
44. Lepădatu M., Balan D., Gîrtan M., Expediţie în lumea minunată a chimiei, ed. A92, 2000.
45. Marea carte despre experimente, ed. Deagostini,Bucureşti, 2008
46. http://blog.aquacarpatica.com/leonardo-da-vinci-si-fascinatia-sa-pentru-apa/aqua-carpatica
47. Leonardo’s Machines, Secrets and Inventions in the Da Vinci Codices, Ed. Giunti, 2005.