High-End Seismic Imaging Solves Shallow Gas Challenges

By CGG
Wednesday, October 17, 2018

The latest Q modeling, and Q-compensating imaging techniques bring greater clarity to Northern Viking Graben

CGG has recently completed seismic depth imaging of its entire Northern Viking Graben multi-client survey, in the Norwegian North Sea. The latest visco-acoustic (“Q”) velocity modeling and seismic imaging technologies have been applied to BroadSeis broadband variable-depth streamer field data, acquired between 2014 and 2016. The final output forms a contiguous data volume covering 35,400 km².

The Northern Viking Graben, like many other areas around the globe, contains a wide range of localized near-surface geological anomalies – with shallow gas being a particular feature in this area. In fact, some of the shallow gas accumulations are identified gas fields, including Frigg and Peon.

Shallow gas anomalies typically exhibit anomalously high absorption, associated with amplitude attenuation and phase distortion of seismic data. These challenging issues cause unwanted effects during imaging, such as dim zones, uneven image illumination and migration artifacts. Another absorption feature specific to the area is the large body associated with the Norwegian trench, which crosses the entire survey area from north-west to south-east.

Pre-processing for the imaging consisted notably of a noise attenuation flow targeting swell noise, seismic interference and post-critical energy, as well as broadband de-ghosting, short- and long-period free-surface multiple attenuation, common-offset binning and regularization.

The model building phase used both Q tomography and Q full-waveform inversion (FWI) to create a Q model which defined the location and extent of absorption anomalies. Advanced tomographic inversion and both refraction and reflection FWI were used alongside the Q work to derive the velocities and anisotropic parameters. This model building encompassed the full 35,400 km² area.

Imaging used advanced Q-compensating migration algorithms, which took full advantage of the velocity, anisotropy and Q models to correct for amplitude loss and phase dispersion and thus delivered improved resolution and continuity.

The final reprocessing delivers outstanding results, clearly highlighting near-surface features such as the Peon gas field (illustrated). A better model and understanding of the shallow geology also lead to clearer images of the deeper structures.

The Northern Viking Graben data set is complemented by a well study of 100 reinterpreted wells that have been integrated with the seismic results. A southern extension of 8,000 km² is currently being acquired, which will be processed through the same sequence and seamlessly merged.

The Q modeling and imaging techniques are widely applicable elsewhere in the world. For example, CGG’s 35,000 km² Cornerstone survey in the Central North Sea is currently being processed through a similar sequence, with impressive high-resolution images of the Forties channels already having been achieved.

Further research is ongoing, testing the benefits of Q least-squares migration algorithms. Least-squares migration inherently favors amplification of signal over noise, thus reducing the risk that the Q-compensation will over-boost noise. This is of practical relevance in areas of low signal-to-noise ratio, such as beneath the kind of shallow gas anomalies discussed earlier.

Categories: Offshore Surveyors Offshore Energy Seismic Vessel Tech Hydrographic Geoscience Subsea Europe

Related Stories

Fugro Names Annabelle Vos Director for Middle East & India

CNOOC Starts Production from Deepwater Gas Project in South China Sea

TotalEnergies Extends LNG Supply Agreement with CNOOC Until 2034

Shelf Drilling to Consolidate Jack-Up Fleet and Resolve Funding Gaps via Triangular Merger

China's First Purpose-built Offshore Wind SOVs Delivered

IK Group Spins Off Norclamp

SLB, Palo Alto Networks Expand Cyber Connection

Environmental Group Backs Out of Scarborough Litigation

South Korea's KOMIPO Cancels Plans for LNG Import Terminal

Solar, Wind Uptake to Reach 5.4 TWac from 2024 to 2033, Says Wood Mackenzie

Current News

Valeura Energy Consolidates Thai Oil and Gas Assets

TotalEnergies Inks 15-Year LNG Supply Deal with China’s Sinopec

Shelf Drilling Secures $200M Contract Extensions with Chevron for Thailand Ops

Floating Wind and the Taming of Subsea Spaghetti

Impending Shortage of Jackups within Ageing Asia Pacific Fleet

Equinor Tries Again for a Japan Offshore Wind Lease

Yinson Production Concludes Minority Stake Sale in FPSO Anna Nery

Sunda Energy Pushes Back Chuditch-2 Appraisal Well Drilling Date

CNOOC Starts Production at Another Oil Field in South China Sea

ABS Takes Charge of Digital Twin Project for Petrobras’ FPSOs

Subscribe for AOG Digital E‑News

AOG Digital E-News is the subsea industry's largest circulation and most authoritative ENews Service, delivered to your Email three times per week

https://accounts.newwavemedia.com