Presentation is loading. Please wait.

Presentation is loading. Please wait.

Black Sea Methane Hydrate Stability Zone Contribution 11, by: L. Dimitrov and A. Vassilev Adapted from: Vassilev, A. and L. Dimitrov, 2000. Spatial and.

Published byRandolf Hall Modified over 9 years ago

Similar presentations

Presentation on theme: "Black Sea Methane Hydrate Stability Zone Contribution 11, by: L. Dimitrov and A. Vassilev Adapted from: Vassilev, A. and L. Dimitrov, 2000. Spatial and."— Presentation transcript:

1 Black Sea Methane Hydrate Stability Zone Contribution 11, by: L. Dimitrov and A. Vassilev Adapted from: Vassilev, A. and L. Dimitrov, 2000. Spatial and qualitative evaluation of methane hydrates in the Black Sea. Geology & Geophysics. 43(7): 672-684.

2 The average water depth from which methane hydrate start to forms runs from 620 m to 700 m embracing a prone area of 288,100 km 2. The average thickness of the MHSZ is 303 m with a bulk of sediment running from 85,310 to 100,280 km 3. Generalized methods of estimation set the total methane content on 10-50x10 12 m 3 and more precise evaluations suggest 0.1-1.0x10 12 m 3 of methane are trapped within the Black Sea gas hydrates.

3 Black Sea Gas Hydrate Shows Core of the first gas hydrate finding in the Black Sea on the slope of Danube fan at water depth of 1950 m (43 o 35’ N - 31 o 08’ E) in 1971. (Dgigchenko, B.P., 1984. Hydrocarbon Gases. Nedra, Moscow, 112 p.) Core of the first gas hydrate finding in the Black Sea on the slope of Danube fan at water depth of 1950 m (43 o 35’ N - 31 o 08’ E) in 1971. (Dgigchenko, B.P., 1984. Hydrocarbon Gases. Nedra, Moscow, 112 p.)

4 Black Sea Gas Hydrate Shows ? ?

5 Several gas hydrate samples in the mud volcano area of Sorokin Trough (separate mud volcanoes are named). (Bouryak & Akhmetjanov, 1998. Marine Geology, 137: 215-222 Bohrman et al., 2002. 7 th Conference “Gas in Marine Sediments”, 7-12 October, Baku, Azerbaijan) Several gas hydrate samples in the mud volcano area of Sorokin Trough (separate mud volcanoes are named). (Bouryak & Akhmetjanov, 1998. Marine Geology, 137: 215-222 Bohrman et al., 2002. 7 th Conference “Gas in Marine Sediments”, 7-12 October, Baku, Azerbaijan)

6 BSRs observed along the northern Caucasian margin and eastern part of Cuban fan where Meisner and co-workers (1998) reported that more than 200 km 2 of continuous BSR.

7 Side-scan sonar image of supposed gas hydrate mounds on the seafloor (dark patches) and corresponding subbottom profiler section. (after Kruglyakova et al., 2002. Geology and Geophysics, 43 (7): 706-711).

8 Lump of gas hydrate from the bottom of the core from the same location. (after Gibsburg and Soloviev, 1998)

9 Plates of gas hydrates in deformed muds from a mud volcano, offshore Crimea (44 o 17’40’’ N – 34 o 58’39’’). (Gibsburg, G. & V. Soloviev, 1998. Submarine Gas Hydrates. VNIIOkeangeologia, St.Petersburg) Plates of gas hydrates in deformed muds from a mud volcano, offshore Crimea (44 o 17’40’’ N – 34 o 58’39’’). (Gibsburg, G. & V. Soloviev, 1998. Submarine Gas Hydrates. VNIIOkeangeologia, St.Petersburg)

10 Two cores with gas hydrate finding taken in the Bulgarian zone of the continental slope in 1990. (C193 - water depth of 1970 m (42 o 53.6’ N - 29 o 10.2’ E; (C211 - water depth of 2100 m (42 o 09.4’ N - 29 o 32.7’ E) Institute of Oceanology, Varna, Bulgaria Two cores with gas hydrate finding taken in the Bulgarian zone of the continental slope in 1990. (C193 - water depth of 1970 m (42 o 53.6’ N - 29 o 10.2’ E; (C211 - water depth of 2100 m (42 o 09.4’ N - 29 o 32.7’ E) Institute of Oceanology, Varna, Bulgaria

11 4 gas hydrate findings sampled from two mud volcanoes in the abyssal plain in 1988. Konyuhov et al., 1990. Mud volcanoes and gas hydrates in the deep water parts of the Black Sea. (in Russian) Lithology and Mineral Resources, 137: 215-222. 4 gas hydrate findings sampled from two mud volcanoes in the abyssal plain in 1988. Konyuhov et al., 1990. Mud volcanoes and gas hydrates in the deep water parts of the Black Sea. (in Russian) Lithology and Mineral Resources, 137: 215-222.

12 That’s all for now… Lyobomir Dimitrov(geo@io-bas.bg) That’s all for now… Lyobomir Dimitrov(geo@io-bas.bg)

Download ppt "Black Sea Methane Hydrate Stability Zone Contribution 11, by: L. Dimitrov and A. Vassilev Adapted from: Vassilev, A. and L. Dimitrov, 2000. Spatial and."

Similar presentations

Christian Berndt oceansurv, Cowes, Isle of Wight

Christian Berndt oceansurv, Cowes, Isle of Wight
Draw and Label the Parts of a Wave

Draw and Label the Parts of a Wave
7th Shallow Gas Group Meeting Baku, Azerbaijan, 07.10. – 11.10.2002 STRUCTURE AND DISTRIBUTION OF GAS HYDRATES IN MARINE SEDIMENTS Contribution 4, by:

7th Shallow Gas Group Meeting Baku, Azerbaijan, – STRUCTURE AND DISTRIBUTION OF GAS HYDRATES IN MARINE SEDIMENTS Contribution 4, by:
Chapter 14 The Ocean Floor.

Chapter 14 The Ocean Floor.
1 Guangsheng Gu 1 Advisors: George J. Hirasaki 1, Walter G. Chapman 1 Collaborators: Colin A. Zelt 2, Priyank Jaiswal 2 1 Dept. of Chemical & Biomolecular.

1 Guangsheng Gu 1 Advisors: George J. Hirasaki 1, Walter G. Chapman 1 Collaborators: Colin A. Zelt 2, Priyank Jaiswal 2 1 Dept. of Chemical & Biomolecular.
Tim Horner CSUS Geology Department The Sea Floor Physical Geology, Chapter 18.

Tim Horner CSUS Geology Department The Sea Floor Physical Geology, Chapter 18.
The sea floor. seafloor water covers 70% of Earth’s surface.

The sea floor. seafloor water covers 70% of Earth’s surface.
Exploring the Ocean Since ancient times people have studied the ocean such as waters and ocean floor It provides food and services, and serves as a route.

Exploring the Ocean Since ancient times people have studied the ocean such as waters and ocean floor It provides food and services, and serves as a route.
Place these notes in your Notebook.

Place these notes in your Notebook.
The Deep Oceans. Take-Away Points 1.The earth has two kinds of crust 2.Continents have thick, light, granitic crust, Oceans have thin, dense, basaltic.

The Deep Oceans. Take-Away Points 1.The earth has two kinds of crust 2.Continents have thick, light, granitic crust, Oceans have thin, dense, basaltic.
Marine Provinces.

Marine Provinces.
Features of the Ocean Floor

Features of the Ocean Floor
Near-Bottom Sedimentation Offshore Southwestern Taiwan from Echo Character Study Jui-kun Chiu, Cher-Shine Liu Institute of Oceanography National Taiwan.

Near-Bottom Sedimentation Offshore Southwestern Taiwan from Echo Character Study Jui-kun Chiu, Cher-Shine Liu Institute of Oceanography National Taiwan.
Bathymetry of the Ocean Floor The ocean floor is mapped by SONAR. (Sound navigation and ranging) Depth = (time x 1500 m/sec)/2 (round trip) At 25 degrees.

Bathymetry of the Ocean Floor The ocean floor is mapped by SONAR. (Sound navigation and ranging) Depth = (time x 1500 m/sec)/2 (round trip) At 25 degrees.
The Ocean Floor Chapter 14. What is Oceanography?  Oceanography  science that draws on the methods and knowledge of geology, chemistry, physics, and.

The Ocean Floor Chapter 14. What is Oceanography?  Oceanography  science that draws on the methods and knowledge of geology, chemistry, physics, and.
Lecture Outlines Physical Geology, 14/e Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Plummer, Carlson &

Lecture Outlines Physical Geology, 14/e Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Plummer, Carlson &
Geology 12 Presents.

Geology 12 Presents.
Methane Hydrates Jake Ross and Yuliana Proenza

Methane Hydrates Jake Ross and Yuliana Proenza
History Darwin and the hms Beagle 1831-1836 Studied barnacles.

History Darwin and the hms Beagle Studied barnacles.
A. D. C. B. Draw and Label the Parts of a Wave. How is the ocean floor studied??

A. D. C. B. Draw and Label the Parts of a Wave. How is the ocean floor studied??

Similar presentations

Ads by Google