Abstract

Many years of research in oil films and background formations on a sea surface, using IR apparatus for remote probing, have made it possible to establish a method for round-the-clock monitoring of the ecological safety of ocean drilling towers and to work out the requirements on an apparatus complex in order to implement the method.

© 2013 Optical Society of America

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  1. G. S.  Mel’nikov, S. S.  Zenchenko, V. I.  Povarkov, V. M.  Samkov, “Experimental studies of the dependence of thermal radiation of a wavy water surface on the observation angle,” in Collection. Optical Methods of Studying Oceans and Inland Water Areas (Izd. Akad. Nauk SSSR, Tallin, 1980), pp. 40–45.
  2. G. S.  Mel’nikov, E. N.  Mineev, A. S.  Tibilov, “The effect of surface-active substances on the radiative temperature of a sea surface,” in First Congress of Soviet Oceanologists. Abstracts of Reports, No. 1, Physics of the Ocean (Morskaya Tekh., Moscow, 1977), p. 157.
  3. G. S.  Mel’nikov, “Determining the surface temperature drop at the sea–atmosphere interface,” in Optical Methods of Studying the Oceans and Inland Water Areas (Nauka, Novosibirsk, 1979).
  4. N. A.  Ivanova, “Radar probing of surface contaminants of the sea from space: model investigations and some applications,” Author’s Abstract of a Dissertation for Candidate of Physicomathematical Sciences, Russian State Hydrometeorological University, St. Petersburg, 2008, http://www.rshu.ru/files/2008_ivanova.pdf .
  5. V. I.  Solov’ev, A. B.  Uspenski?, “Modern status and prospects of development of remote methods of determining the surface temperature of the ocean from space,” Issled. Zemli iz Kosmosa No. 1, 102 (1998).
  6. Yu. I.  Belousov, D. V.  Ivanov, A. B.  Utenkov, “Model of the IR radiation of the wavy surface of the sea,” Opt. Zh. 65, No. 11, 59 (1998) [J. Opt. Technol. 65, 816 (1998)].
  7. A. Z.  Zurabyan, “Optical method of remote measurement of the thickness of a petroleum film on the surface of a body of water,” Opt. Zh. 65, No. 11, 67 (1998) [J. Opt. Technol. 65, 924 (1998)].
  8. E. G.  Andreev, G. I.  Akhapkin, V. Yu.  Vytyaganets, A. V.  Kozar’, G. G.  Pirogov, Yu. A.  Khundzhua, “Selective IR radiometer for measuring the temperature gradient in a thin surface film of the sea,” in Optical Methods of Studying the Oceans and Inland Water Areas (Akad. Nauk SSSR, Tallin, 1980), pp. 257–260.
  9. E. F.  Demidov, E. V.  Lukina, “Quantitative estimates of thermal nonuniformities on a wavy sea surface,” Opt. Zh. 59, No. 2, 29 (1992) [J. Opt. Technol. 59, 88 (1992)].
  10. Yu. A.  Byakov, Yu. I.  Soldatov, R. P.  Kruglyakova, V. M.  Samkov, V. I.  Solov’ev, S. I.  Kotyashkin, Patent on a useful modelNo. 200413 4674/22 (037723) (2004).
  11. I. T.  Bubukin, K. S.  Stankevich, “Radiometry of the thermal film of the sea surface,” Usp. Sovrem. Radioélek. No. 11, 39 (2006).
  12. V. M.  Zolotarev, V. N.  Morozov, E. V.  Smirnova, Optical Constants of Natural and Technical Media (Khimiya, Leningrad, 1984).

2006

I. T.  Bubukin, K. S.  Stankevich, “Radiometry of the thermal film of the sea surface,” Usp. Sovrem. Radioélek. No. 11, 39 (2006).

1998

V. I.  Solov’ev, A. B.  Uspenski?, “Modern status and prospects of development of remote methods of determining the surface temperature of the ocean from space,” Issled. Zemli iz Kosmosa No. 1, 102 (1998).

Yu. I.  Belousov, D. V.  Ivanov, A. B.  Utenkov, “Model of the IR radiation of the wavy surface of the sea,” Opt. Zh. 65, No. 11, 59 (1998) [J. Opt. Technol. 65, 816 (1998)].

A. Z.  Zurabyan, “Optical method of remote measurement of the thickness of a petroleum film on the surface of a body of water,” Opt. Zh. 65, No. 11, 67 (1998) [J. Opt. Technol. 65, 924 (1998)].

1992

E. F.  Demidov, E. V.  Lukina, “Quantitative estimates of thermal nonuniformities on a wavy sea surface,” Opt. Zh. 59, No. 2, 29 (1992) [J. Opt. Technol. 59, 88 (1992)].

Akhapkin, G. I.

E. G.  Andreev, G. I.  Akhapkin, V. Yu.  Vytyaganets, A. V.  Kozar’, G. G.  Pirogov, Yu. A.  Khundzhua, “Selective IR radiometer for measuring the temperature gradient in a thin surface film of the sea,” in Optical Methods of Studying the Oceans and Inland Water Areas (Akad. Nauk SSSR, Tallin, 1980), pp. 257–260.

Andreev, E. G.

E. G.  Andreev, G. I.  Akhapkin, V. Yu.  Vytyaganets, A. V.  Kozar’, G. G.  Pirogov, Yu. A.  Khundzhua, “Selective IR radiometer for measuring the temperature gradient in a thin surface film of the sea,” in Optical Methods of Studying the Oceans and Inland Water Areas (Akad. Nauk SSSR, Tallin, 1980), pp. 257–260.

Belousov, Yu. I.

Yu. I.  Belousov, D. V.  Ivanov, A. B.  Utenkov, “Model of the IR radiation of the wavy surface of the sea,” Opt. Zh. 65, No. 11, 59 (1998) [J. Opt. Technol. 65, 816 (1998)].

Bubukin, I. T.

I. T.  Bubukin, K. S.  Stankevich, “Radiometry of the thermal film of the sea surface,” Usp. Sovrem. Radioélek. No. 11, 39 (2006).

Byakov, Yu. A.

Yu. A.  Byakov, Yu. I.  Soldatov, R. P.  Kruglyakova, V. M.  Samkov, V. I.  Solov’ev, S. I.  Kotyashkin, Patent on a useful modelNo. 200413 4674/22 (037723) (2004).

Demidov, E. F.

E. F.  Demidov, E. V.  Lukina, “Quantitative estimates of thermal nonuniformities on a wavy sea surface,” Opt. Zh. 59, No. 2, 29 (1992) [J. Opt. Technol. 59, 88 (1992)].

Ivanov, D. V.

Yu. I.  Belousov, D. V.  Ivanov, A. B.  Utenkov, “Model of the IR radiation of the wavy surface of the sea,” Opt. Zh. 65, No. 11, 59 (1998) [J. Opt. Technol. 65, 816 (1998)].

Ivanova, N. A.

N. A.  Ivanova, “Radar probing of surface contaminants of the sea from space: model investigations and some applications,” Author’s Abstract of a Dissertation for Candidate of Physicomathematical Sciences, Russian State Hydrometeorological University, St. Petersburg, 2008, http://www.rshu.ru/files/2008_ivanova.pdf .

Khundzhua, Yu. A.

E. G.  Andreev, G. I.  Akhapkin, V. Yu.  Vytyaganets, A. V.  Kozar’, G. G.  Pirogov, Yu. A.  Khundzhua, “Selective IR radiometer for measuring the temperature gradient in a thin surface film of the sea,” in Optical Methods of Studying the Oceans and Inland Water Areas (Akad. Nauk SSSR, Tallin, 1980), pp. 257–260.

Kotyashkin, S. I.

Yu. A.  Byakov, Yu. I.  Soldatov, R. P.  Kruglyakova, V. M.  Samkov, V. I.  Solov’ev, S. I.  Kotyashkin, Patent on a useful modelNo. 200413 4674/22 (037723) (2004).

Kozar’, A. V.

E. G.  Andreev, G. I.  Akhapkin, V. Yu.  Vytyaganets, A. V.  Kozar’, G. G.  Pirogov, Yu. A.  Khundzhua, “Selective IR radiometer for measuring the temperature gradient in a thin surface film of the sea,” in Optical Methods of Studying the Oceans and Inland Water Areas (Akad. Nauk SSSR, Tallin, 1980), pp. 257–260.

Kruglyakova, R. P.

Yu. A.  Byakov, Yu. I.  Soldatov, R. P.  Kruglyakova, V. M.  Samkov, V. I.  Solov’ev, S. I.  Kotyashkin, Patent on a useful modelNo. 200413 4674/22 (037723) (2004).

Lukina, E. V.

E. F.  Demidov, E. V.  Lukina, “Quantitative estimates of thermal nonuniformities on a wavy sea surface,” Opt. Zh. 59, No. 2, 29 (1992) [J. Opt. Technol. 59, 88 (1992)].

Mel’nikov, G. S.

G. S.  Mel’nikov, “Determining the surface temperature drop at the sea–atmosphere interface,” in Optical Methods of Studying the Oceans and Inland Water Areas (Nauka, Novosibirsk, 1979).

G. S.  Mel’nikov, E. N.  Mineev, A. S.  Tibilov, “The effect of surface-active substances on the radiative temperature of a sea surface,” in First Congress of Soviet Oceanologists. Abstracts of Reports, No. 1, Physics of the Ocean (Morskaya Tekh., Moscow, 1977), p. 157.

G. S.  Mel’nikov, S. S.  Zenchenko, V. I.  Povarkov, V. M.  Samkov, “Experimental studies of the dependence of thermal radiation of a wavy water surface on the observation angle,” in Collection. Optical Methods of Studying Oceans and Inland Water Areas (Izd. Akad. Nauk SSSR, Tallin, 1980), pp. 40–45.

Mineev, E. N.

G. S.  Mel’nikov, E. N.  Mineev, A. S.  Tibilov, “The effect of surface-active substances on the radiative temperature of a sea surface,” in First Congress of Soviet Oceanologists. Abstracts of Reports, No. 1, Physics of the Ocean (Morskaya Tekh., Moscow, 1977), p. 157.

Morozov, V. N.

V. M.  Zolotarev, V. N.  Morozov, E. V.  Smirnova, Optical Constants of Natural and Technical Media (Khimiya, Leningrad, 1984).

Pirogov, G. G.

E. G.  Andreev, G. I.  Akhapkin, V. Yu.  Vytyaganets, A. V.  Kozar’, G. G.  Pirogov, Yu. A.  Khundzhua, “Selective IR radiometer for measuring the temperature gradient in a thin surface film of the sea,” in Optical Methods of Studying the Oceans and Inland Water Areas (Akad. Nauk SSSR, Tallin, 1980), pp. 257–260.

Povarkov, V. I.

G. S.  Mel’nikov, S. S.  Zenchenko, V. I.  Povarkov, V. M.  Samkov, “Experimental studies of the dependence of thermal radiation of a wavy water surface on the observation angle,” in Collection. Optical Methods of Studying Oceans and Inland Water Areas (Izd. Akad. Nauk SSSR, Tallin, 1980), pp. 40–45.

Samkov, V. M.

G. S.  Mel’nikov, S. S.  Zenchenko, V. I.  Povarkov, V. M.  Samkov, “Experimental studies of the dependence of thermal radiation of a wavy water surface on the observation angle,” in Collection. Optical Methods of Studying Oceans and Inland Water Areas (Izd. Akad. Nauk SSSR, Tallin, 1980), pp. 40–45.

Yu. A.  Byakov, Yu. I.  Soldatov, R. P.  Kruglyakova, V. M.  Samkov, V. I.  Solov’ev, S. I.  Kotyashkin, Patent on a useful modelNo. 200413 4674/22 (037723) (2004).

Smirnova, E. V.

V. M.  Zolotarev, V. N.  Morozov, E. V.  Smirnova, Optical Constants of Natural and Technical Media (Khimiya, Leningrad, 1984).

Soldatov, Yu. I.

Yu. A.  Byakov, Yu. I.  Soldatov, R. P.  Kruglyakova, V. M.  Samkov, V. I.  Solov’ev, S. I.  Kotyashkin, Patent on a useful modelNo. 200413 4674/22 (037723) (2004).

Solov’ev, V. I.

V. I.  Solov’ev, A. B.  Uspenski?, “Modern status and prospects of development of remote methods of determining the surface temperature of the ocean from space,” Issled. Zemli iz Kosmosa No. 1, 102 (1998).

Yu. A.  Byakov, Yu. I.  Soldatov, R. P.  Kruglyakova, V. M.  Samkov, V. I.  Solov’ev, S. I.  Kotyashkin, Patent on a useful modelNo. 200413 4674/22 (037723) (2004).

Stankevich, K. S.

I. T.  Bubukin, K. S.  Stankevich, “Radiometry of the thermal film of the sea surface,” Usp. Sovrem. Radioélek. No. 11, 39 (2006).

Tibilov, A. S.

G. S.  Mel’nikov, E. N.  Mineev, A. S.  Tibilov, “The effect of surface-active substances on the radiative temperature of a sea surface,” in First Congress of Soviet Oceanologists. Abstracts of Reports, No. 1, Physics of the Ocean (Morskaya Tekh., Moscow, 1977), p. 157.

Uspenskii, A. B.

V. I.  Solov’ev, A. B.  Uspenski?, “Modern status and prospects of development of remote methods of determining the surface temperature of the ocean from space,” Issled. Zemli iz Kosmosa No. 1, 102 (1998).

Utenkov, A. B.

Yu. I.  Belousov, D. V.  Ivanov, A. B.  Utenkov, “Model of the IR radiation of the wavy surface of the sea,” Opt. Zh. 65, No. 11, 59 (1998) [J. Opt. Technol. 65, 816 (1998)].

Vytyaganets, V. Yu.

E. G.  Andreev, G. I.  Akhapkin, V. Yu.  Vytyaganets, A. V.  Kozar’, G. G.  Pirogov, Yu. A.  Khundzhua, “Selective IR radiometer for measuring the temperature gradient in a thin surface film of the sea,” in Optical Methods of Studying the Oceans and Inland Water Areas (Akad. Nauk SSSR, Tallin, 1980), pp. 257–260.

Zenchenko, S. S.

G. S.  Mel’nikov, S. S.  Zenchenko, V. I.  Povarkov, V. M.  Samkov, “Experimental studies of the dependence of thermal radiation of a wavy water surface on the observation angle,” in Collection. Optical Methods of Studying Oceans and Inland Water Areas (Izd. Akad. Nauk SSSR, Tallin, 1980), pp. 40–45.

Zolotarev, V. M.

V. M.  Zolotarev, V. N.  Morozov, E. V.  Smirnova, Optical Constants of Natural and Technical Media (Khimiya, Leningrad, 1984).

Zurabyan, A. Z.

A. Z.  Zurabyan, “Optical method of remote measurement of the thickness of a petroleum film on the surface of a body of water,” Opt. Zh. 65, No. 11, 67 (1998) [J. Opt. Technol. 65, 924 (1998)].

Issled. Zemli iz Kosmosa

V. I.  Solov’ev, A. B.  Uspenski?, “Modern status and prospects of development of remote methods of determining the surface temperature of the ocean from space,” Issled. Zemli iz Kosmosa No. 1, 102 (1998).

Opt. Zh.

Yu. I.  Belousov, D. V.  Ivanov, A. B.  Utenkov, “Model of the IR radiation of the wavy surface of the sea,” Opt. Zh. 65, No. 11, 59 (1998) [J. Opt. Technol. 65, 816 (1998)].

A. Z.  Zurabyan, “Optical method of remote measurement of the thickness of a petroleum film on the surface of a body of water,” Opt. Zh. 65, No. 11, 67 (1998) [J. Opt. Technol. 65, 924 (1998)].

E. F.  Demidov, E. V.  Lukina, “Quantitative estimates of thermal nonuniformities on a wavy sea surface,” Opt. Zh. 59, No. 2, 29 (1992) [J. Opt. Technol. 59, 88 (1992)].

Usp. Sovrem. Radioélek.

I. T.  Bubukin, K. S.  Stankevich, “Radiometry of the thermal film of the sea surface,” Usp. Sovrem. Radioélek. No. 11, 39 (2006).

Other

V. M.  Zolotarev, V. N.  Morozov, E. V.  Smirnova, Optical Constants of Natural and Technical Media (Khimiya, Leningrad, 1984).

Yu. A.  Byakov, Yu. I.  Soldatov, R. P.  Kruglyakova, V. M.  Samkov, V. I.  Solov’ev, S. I.  Kotyashkin, Patent on a useful modelNo. 200413 4674/22 (037723) (2004).

E. G.  Andreev, G. I.  Akhapkin, V. Yu.  Vytyaganets, A. V.  Kozar’, G. G.  Pirogov, Yu. A.  Khundzhua, “Selective IR radiometer for measuring the temperature gradient in a thin surface film of the sea,” in Optical Methods of Studying the Oceans and Inland Water Areas (Akad. Nauk SSSR, Tallin, 1980), pp. 257–260.

G. S.  Mel’nikov, S. S.  Zenchenko, V. I.  Povarkov, V. M.  Samkov, “Experimental studies of the dependence of thermal radiation of a wavy water surface on the observation angle,” in Collection. Optical Methods of Studying Oceans and Inland Water Areas (Izd. Akad. Nauk SSSR, Tallin, 1980), pp. 40–45.

G. S.  Mel’nikov, E. N.  Mineev, A. S.  Tibilov, “The effect of surface-active substances on the radiative temperature of a sea surface,” in First Congress of Soviet Oceanologists. Abstracts of Reports, No. 1, Physics of the Ocean (Morskaya Tekh., Moscow, 1977), p. 157.

G. S.  Mel’nikov, “Determining the surface temperature drop at the sea–atmosphere interface,” in Optical Methods of Studying the Oceans and Inland Water Areas (Nauka, Novosibirsk, 1979).

N. A.  Ivanova, “Radar probing of surface contaminants of the sea from space: model investigations and some applications,” Author’s Abstract of a Dissertation for Candidate of Physicomathematical Sciences, Russian State Hydrometeorological University, St. Petersburg, 2008, http://www.rshu.ru/files/2008_ivanova.pdf .

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