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2,261 to 2,270 of 11,140 Results

Figure_9_(continued).jpg Oct 16, 2020 - Replication data for: Devonian–Carboniferous collapse and segmentation of the Billefjorden Trough, and Eurekan inversion–overprint and strain partitioning and decoupling along inherited WNW–ESE-striking faults JPEG Image - 42.8 MB - MD5: c7526c5c8efb150f99b68409a35e9b1d Figure 9 (second part) from Koehl et al. (2020).
Figure_9.jpg Oct 16, 2020 - Replication data for: Devonian–Carboniferous collapse and segmentation of the Billefjorden Trough, and Eurekan inversion–overprint and strain partitioning and decoupling along inherited WNW–ESE-striking faults JPEG Image - 101.9 MB - MD5: 55b44b82ab0e071e7c7d3d48b0f15aa0 Figure 9 (first part) from Koehl et al. (2020).
S1.jpg Oct 16, 2020 - Replication data for: Devonian–Carboniferous collapse and segmentation of the Billefjorden Trough, and Eurekan inversion–overprint and strain partitioning and decoupling along inherited WNW–ESE-striking faults JPEG Image - 69.8 MB - MD5: 1f1f7ea0eff6cc0e70ec893f544de9e6 Supplement 1 from Koehl et al. (2020).
S2.jpg Oct 16, 2020 - Replication data for: Devonian–Carboniferous collapse and segmentation of the Billefjorden Trough, and Eurekan inversion–overprint and strain partitioning and decoupling along inherited WNW–ESE-striking faults JPEG Image - 37.5 MB - MD5: f537627ecbb69374b9263e0286309ecc Supplement 2 from Koehl et al. (2020).
S3.jpg Oct 16, 2020 - Replication data for: Devonian–Carboniferous collapse and segmentation of the Billefjorden Trough, and Eurekan inversion–overprint and strain partitioning and decoupling along inherited WNW–ESE-striking faults JPEG Image - 37.2 MB - MD5: 60eef43eaeaa8e8a633840e0e34056a8 Supplement 3 from Koehl et al. (2020).
S5.jpg Oct 16, 2020 - Replication data for: Devonian–Carboniferous collapse and segmentation of the Billefjorden Trough, and Eurekan inversion–overprint and strain partitioning and decoupling along inherited WNW–ESE-striking faults JPEG Image - 36.0 MB - MD5: 756219e55f7365725537d67229bd4613 Supplement 5 from Koehl et al. (2020).
S6.jpg Oct 16, 2020 - Replication data for: Devonian–Carboniferous collapse and segmentation of the Billefjorden Trough, and Eurekan inversion–overprint and strain partitioning and decoupling along inherited WNW–ESE-striking faults JPEG Image - 177.4 MB - MD5: efc9ae835cf8fa569b7e504f3b3eac91 Supplement 6 from Koehl et al. (2020).
Demonstrating the dynamic wing technology at real sea conditions using 10-12m long, self-propelled ship model Oct 11, 2023 Belibassakis, Kostas; Perera, Lokukaluge Prasad; Adnan, Muhammad, 2023, "Demonstrating the dynamic wing technology at real sea conditions using 10-12m long, self-propelled ship model", https://doi.org/10.18710/VXGPII, DataverseNO, V1 The Seatech project is devoted to the demonstration of the dynamic using large scale models tested wing at sea and the engine technology testing in relevant environment. The project tasks include the design of full-size wing, the system Life-cycle cost analysis (LCCA) and using t...
00_README.txt Oct 11, 2023 - Demonstrating the dynamic wing technology at real sea conditions using 10-12m long, self-propelled ship model Plain Text - 17.2 KB - MD5: b56b70ed61a5ac5e6a412585d8f84ca0
with_Aset_1_Frequency_wave_spectrum.dat Oct 11, 2023 - Demonstrating the dynamic wing technology at real sea conditions using 10-12m long, self-propelled ship model Fixed Field Text Data - 68.1 KB - MD5: de9ed0d71e3254a98fe3aec8a54b758e

Figure_9_(continued).jpg

Oct 16, 2020 - Replication data for: Devonian–Carboniferous collapse and segmentation of the Billefjorden Trough, and Eurekan inversion–overprint and strain partitioning and decoupling along inherited WNW–ESE-striking faults

JPEG Image - 42.8 MB -

Figure 9 (second part) from Koehl et al. (2020).

Figure_9.jpg

JPEG Image - 101.9 MB -

Figure 9 (first part) from Koehl et al. (2020).

S1.jpg

JPEG Image - 69.8 MB -

Supplement 1 from Koehl et al. (2020).

S2.jpg

JPEG Image - 37.5 MB -

Supplement 2 from Koehl et al. (2020).

S3.jpg

JPEG Image - 37.2 MB -

Supplement 3 from Koehl et al. (2020).

S5.jpg

JPEG Image - 36.0 MB -

Supplement 5 from Koehl et al. (2020).

S6.jpg

JPEG Image - 177.4 MB -

Supplement 6 from Koehl et al. (2020).

Demonstrating the dynamic wing technology at real sea conditions using 10-12m long, self-propelled ship model

Oct 11, 2023

Belibassakis, Kostas; Perera, Lokukaluge Prasad; Adnan, Muhammad, 2023, "Demonstrating the dynamic wing technology at real sea conditions using 10-12m long, self-propelled ship model", https://doi.org/10.18710/VXGPII, DataverseNO, V1

The Seatech project is devoted to the demonstration of the dynamic using large scale models tested wing at sea and the engine technology testing in relevant environment. The project tasks include the design of full-size wing, the system Life-cycle cost analysis (LCCA) and using t...

00_README.txt

Oct 11, 2023 - Demonstrating the dynamic wing technology at real sea conditions using 10-12m long, self-propelled ship model

Plain Text - 17.2 KB -

with_Aset_1_Frequency_wave_spectrum.dat

Oct 11, 2023 - Demonstrating the dynamic wing technology at real sea conditions using 10-12m long, self-propelled ship model

Fixed Field Text Data - 68.1 KB -

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