BibTex RIS Kaynak Göster

A method for hydrogen sulfide removal in air of submarine by Lewatit TP 208Denizaltı havasında hidrojen sülfitin Lewatit TP 208 ile giderilmesi için bir metot

Yıl 2009, Cilt: 15 Sayı: 2, 87 - 98, 01.08.2009

Öz

Abstract In this paper is proposed a method to remove the hydrogen sulfide in air of submarine. This method is based on the absorption of hydrogen sulfide by Lewatit TP 208. Soda lime cartilage is commonly used in submarine for removing of moisture and carbon dioxide in air. In this process soda lime cartilage was combined with Lewatit TP 208. The amount of Lewatit TP 208 required for 710 m3 air of submarine was 11 kg. The problem for submarine is hydrogen sulfide contents of seawater during in submerged condition. The proposal technique can remove of moisture and hydrogen sulfide in air of submarine. This process is the first record to remove the hydrogen sulfide in air of submarine.

Kaynakça

  • Bagarinao, T. and Vetter, R.D. (1989). Sulfide tolerance and detoxification in shallow-water marine fishes. Marine Biol. 103: 291-302.
  • Beaver, W.C. (1958). General Biology, C.V. Mosby Comp. St. Louis. p.651.
  • Cohn, P.D., Cox, M. and Berger, P.S. Health and a esthetic aspects of water quality. In: Water Quality and Treatment (ed. R. Letterman) Technical ed. Fifth edition. Mc Graw- Hill. Inc NewYork, 1999. Chapter 2, p.70.
  • Danilchenko and Chigirin (1926). Cited by A.E. Kriss In: Marine Microbiology, (Translated by J.M.Shewan and Z. Kabata). Oliver & Boyd. Edinburg 1963, p.258.
  • Ehret, W. E. (1960). College Chemistry. Appleton-Century- Crafts, Inc. New York. p.494.
  • Fisher, U. (1988). Sulfur in Biotechnology. In: Biotechnology (H-J. Rehm. ed.). Vol. 6 b. Chapter 15. Special Microbial Process. VCH Verlagsgesellschaft mbH, Weinheim, Germany. pp 463-495.
  • Fukushi, K. and Hiiro, K. (1987). Determination of sulfide in sea water by capillary isotachophoresis. J. Chromatogr. 393: 433-440.
  • Ichinose, N., Nakomura, K. and Shimizu, C. (1984). Gas chromatographic determination of hydrogen sulphide in anoxic waters. J. Chromatogr. 292: 393- 401.
  • Klaassen, C.D., Amdur, M.O. and Doull, J. (1986). Casarett and Doull`s Toxicology. MacMillan Publ. Comp. Toronto, London. pp 241-242.
  • Kriss, A.E. (1963). Marine Microbiology (Translated by J.M.Shewan and Z. Kabata). Oliver and Boyd, Edinburg p. 51.
  • Metcalf and Eddy (2004). Waste water engineering, Mc Graw-Hill. Boston, pp 1662-1666.
  • Neretin, L.N. (1996). Contemporary state of hydrogen sulfide zone in the Black Sea. Ph. D. Moscow, cited in ref. (Neretin 2003).
  • Neretin, L.N. (2003). The Black Sea sulfide inventory, distribution, sources and budget. Workshop. A glance to the Black Sea. The Black Sea Foundation for Education Culture and Protection of Nature, 31 Oct., Istanbul.
  • Neretin, L.N. and Volkov, I.I. (1995 a). On the vertical distribution of hydrogen sulfide in deep waters of the Black Sea. Okeanologiya 35: 60-65.
  • Neretin, L.N. and Volkov, I.I. (1995 b). The calculation of hydrogen sulfide production in the Black Sea based on total inorganic carbon content. Doklady Earth Sciences 365 A: 398-401.
  • Sax, N.I. (1984). Dangerous properties of industrial materials. Van Nostrand- Reinhold, New York. p.1552
  • Sorokin, Yu, I. (1972). The bacterial population and the process of hydrogen sulfide oxidation in the Black Sea. J. Conseil. Intern. expl. Mer. 34: 423-464.
  • Sorokin, Yu, I. (1983). The Black Sea In: Ecosystem of the world. Vol. 26. Estuaries and Enclosed Seas. Elsevier, Armsterdam, pp 253-292.
  • Standard Methods (1995).19th Edition. (A. D. Eaton, L. S. Celesceri, A.E. Greenberg, Eds.) American Public Health Ass. Washington, D.C., U.S.A.
  • Volkov, I.I. (1991). Hydrogen sulfide problem in the Black Sea In: Proceeding of the Black Sea Symposium 16-18 September (ed. K.C. Güven) Published by the Black Sea Foundation for Education, Culture and Protection of Nature. Printed in 1994 Istanbul, Turkey. pp 361-362.
  • Vyazilov, E. and Mikhailov, N. (1999). History of expeditionary studies and information resources for the Black Sea and Mediterranean Seas. Inter. Conference Oceanography of the Eastern Mediterranean and the Black Sea, 23- 26 Feb. Athene, Greece, pp 118-199.
Yıl 2009, Cilt: 15 Sayı: 2, 87 - 98, 01.08.2009

Öz

Kaynakça

  • Bagarinao, T. and Vetter, R.D. (1989). Sulfide tolerance and detoxification in shallow-water marine fishes. Marine Biol. 103: 291-302.
  • Beaver, W.C. (1958). General Biology, C.V. Mosby Comp. St. Louis. p.651.
  • Cohn, P.D., Cox, M. and Berger, P.S. Health and a esthetic aspects of water quality. In: Water Quality and Treatment (ed. R. Letterman) Technical ed. Fifth edition. Mc Graw- Hill. Inc NewYork, 1999. Chapter 2, p.70.
  • Danilchenko and Chigirin (1926). Cited by A.E. Kriss In: Marine Microbiology, (Translated by J.M.Shewan and Z. Kabata). Oliver & Boyd. Edinburg 1963, p.258.
  • Ehret, W. E. (1960). College Chemistry. Appleton-Century- Crafts, Inc. New York. p.494.
  • Fisher, U. (1988). Sulfur in Biotechnology. In: Biotechnology (H-J. Rehm. ed.). Vol. 6 b. Chapter 15. Special Microbial Process. VCH Verlagsgesellschaft mbH, Weinheim, Germany. pp 463-495.
  • Fukushi, K. and Hiiro, K. (1987). Determination of sulfide in sea water by capillary isotachophoresis. J. Chromatogr. 393: 433-440.
  • Ichinose, N., Nakomura, K. and Shimizu, C. (1984). Gas chromatographic determination of hydrogen sulphide in anoxic waters. J. Chromatogr. 292: 393- 401.
  • Klaassen, C.D., Amdur, M.O. and Doull, J. (1986). Casarett and Doull`s Toxicology. MacMillan Publ. Comp. Toronto, London. pp 241-242.
  • Kriss, A.E. (1963). Marine Microbiology (Translated by J.M.Shewan and Z. Kabata). Oliver and Boyd, Edinburg p. 51.
  • Metcalf and Eddy (2004). Waste water engineering, Mc Graw-Hill. Boston, pp 1662-1666.
  • Neretin, L.N. (1996). Contemporary state of hydrogen sulfide zone in the Black Sea. Ph. D. Moscow, cited in ref. (Neretin 2003).
  • Neretin, L.N. (2003). The Black Sea sulfide inventory, distribution, sources and budget. Workshop. A glance to the Black Sea. The Black Sea Foundation for Education Culture and Protection of Nature, 31 Oct., Istanbul.
  • Neretin, L.N. and Volkov, I.I. (1995 a). On the vertical distribution of hydrogen sulfide in deep waters of the Black Sea. Okeanologiya 35: 60-65.
  • Neretin, L.N. and Volkov, I.I. (1995 b). The calculation of hydrogen sulfide production in the Black Sea based on total inorganic carbon content. Doklady Earth Sciences 365 A: 398-401.
  • Sax, N.I. (1984). Dangerous properties of industrial materials. Van Nostrand- Reinhold, New York. p.1552
  • Sorokin, Yu, I. (1972). The bacterial population and the process of hydrogen sulfide oxidation in the Black Sea. J. Conseil. Intern. expl. Mer. 34: 423-464.
  • Sorokin, Yu, I. (1983). The Black Sea In: Ecosystem of the world. Vol. 26. Estuaries and Enclosed Seas. Elsevier, Armsterdam, pp 253-292.
  • Standard Methods (1995).19th Edition. (A. D. Eaton, L. S. Celesceri, A.E. Greenberg, Eds.) American Public Health Ass. Washington, D.C., U.S.A.
  • Volkov, I.I. (1991). Hydrogen sulfide problem in the Black Sea In: Proceeding of the Black Sea Symposium 16-18 September (ed. K.C. Güven) Published by the Black Sea Foundation for Education, Culture and Protection of Nature. Printed in 1994 Istanbul, Turkey. pp 361-362.
  • Vyazilov, E. and Mikhailov, N. (1999). History of expeditionary studies and information resources for the Black Sea and Mediterranean Seas. Inter. Conference Oceanography of the Eastern Mediterranean and the Black Sea, 23- 26 Feb. Athene, Greece, pp 118-199.
Toplam 21 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Articles
Yazarlar

Kasım Cemal Güven And Nazım Çubukçu Bu kişi benim

Yayımlanma Tarihi 1 Ağustos 2009
Yayımlandığı Sayı Yıl 2009 Cilt: 15 Sayı: 2

Kaynak Göster

APA Çubukçu, K. C. G. A. N. . (2009). A method for hydrogen sulfide removal in air of submarine by Lewatit TP 208Denizaltı havasında hidrojen sülfitin Lewatit TP 208 ile giderilmesi için bir metot. Journal of Black Sea / Mediterranean Environment, 15(2), 87-98.
AMA Çubukçu KCGAN. A method for hydrogen sulfide removal in air of submarine by Lewatit TP 208Denizaltı havasında hidrojen sülfitin Lewatit TP 208 ile giderilmesi için bir metot. Journal of Black Sea / Mediterranean Environment. Ağustos 2009;15(2):87-98.
Chicago Çubukçu, Kasım Cemal Güven And Nazım. “A Method for Hydrogen Sulfide Removal in Air of Submarine by Lewatit TP 208Denizaltı havasında Hidrojen sülfitin Lewatit TP 208 Ile Giderilmesi için Bir Metot”. Journal of Black Sea / Mediterranean Environment 15, sy. 2 (Ağustos 2009): 87-98.
EndNote Çubukçu KCGAN (01 Ağustos 2009) A method for hydrogen sulfide removal in air of submarine by Lewatit TP 208Denizaltı havasında hidrojen sülfitin Lewatit TP 208 ile giderilmesi için bir metot. Journal of Black Sea / Mediterranean Environment 15 2 87–98.
IEEE K. C. G. A. N. . Çubukçu, “A method for hydrogen sulfide removal in air of submarine by Lewatit TP 208Denizaltı havasında hidrojen sülfitin Lewatit TP 208 ile giderilmesi için bir metot”, Journal of Black Sea / Mediterranean Environment, c. 15, sy. 2, ss. 87–98, 2009.
ISNAD Çubukçu, Kasım Cemal Güven And Nazım. “A Method for Hydrogen Sulfide Removal in Air of Submarine by Lewatit TP 208Denizaltı havasında Hidrojen sülfitin Lewatit TP 208 Ile Giderilmesi için Bir Metot”. Journal of Black Sea / Mediterranean Environment 15/2 (Ağustos 2009), 87-98.
JAMA Çubukçu KCGAN. A method for hydrogen sulfide removal in air of submarine by Lewatit TP 208Denizaltı havasında hidrojen sülfitin Lewatit TP 208 ile giderilmesi için bir metot. Journal of Black Sea / Mediterranean Environment. 2009;15:87–98.
MLA Çubukçu, Kasım Cemal Güven And Nazım. “A Method for Hydrogen Sulfide Removal in Air of Submarine by Lewatit TP 208Denizaltı havasında Hidrojen sülfitin Lewatit TP 208 Ile Giderilmesi için Bir Metot”. Journal of Black Sea / Mediterranean Environment, c. 15, sy. 2, 2009, ss. 87-98.
Vancouver Çubukçu KCGAN. A method for hydrogen sulfide removal in air of submarine by Lewatit TP 208Denizaltı havasında hidrojen sülfitin Lewatit TP 208 ile giderilmesi için bir metot. Journal of Black Sea / Mediterranean Environment. 2009;15(2):87-98.