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Mohammad Hossain Bhuiyan

Forsker

Mohammad Hossain Bhuiyan

Forsker

Mohammad Hossain Bhuiyan
Telefon: 974 83 962
E-post:
Avdeling: Petroleum
Kontorsted: Trondheim

Publikasjoner og ansvarsområder

Publikasjon
https://www.sintef.no/publikasjoner/publikasjon/1884833/

Different innovative experimental and numerical methods are presented to assess strategies and cementing materials aiming to improve well cementing, remediation of fractured cement sheaths and permanent well plugging. The work presented here shows that with minor adjustments, current cement...

Publikasjon
https://www.sintef.no/publikasjoner/publikasjon/1884817/

Different innovative experimental and numerical methods are presented to assess strategies and cementing materials aiming to improve well cementing, remediation of fractured cement sheaths and permanent well plugging. The work presented here shows that with minor adjustments, current cement...

Publikasjon
https://www.sintef.no/publikasjoner/publikasjon/1800479/

In carbon storage activities, and in shale oil and gas extraction (SOGE) with carbon dioxide (CO2) stimulation fluid, CO2 comes into contact with shale rock and its pore fluid. As a reactive fluid, the injected CO2 displays a large potential to modify the shale’s chemical, physical, and...

År 2020
Type Vitenskapelig oversiktsartikkel/review
Publikasjon
https://www.sintef.no/publikasjoner/publikasjon/1602341/

Since shales are the far most abundant overburden formation, understanding the geomechanical and rock physics behavior of shales is essential. We discuss a particular deep overburden shale in light of a thorough static and dynamic multi-directional data acquisition, as a basis for complete static...

Forfattere Audun Bakk Jørn Fredrik Stenebråten Serhii Lozovyi Andreas Bauer Eyvind Frode Sønstebø Erling Fjær Mohammad Hossain Bhuiyan Samarjit Chakraborty Rune Martin Holt
År 2018
Type Vitenskapelig Kapittel/Artikkel/Konferanseartikkel
Publikasjon
https://www.sintef.no/publikasjoner/publikasjon/1611800/

Shale rock physics may be used for improved monitoring of subsurface changes in and around a depleting reservoir. It is shown how rock physics plays a key role in interpreting time-lapse (4D) seismic into geomechanical attributes as changed stresses, strains and pore pressure. This knowledge is...

Forfattere Audun Bakk Jørn Fredrik Stenebråten Serhii Lozovyi Andreas Bauer Mohammad Hossain Bhuiyan Erling Fjær Rune Martin Holt Eyvind Frode Sønstebø
År 2018
Type Vitenskapelig foredrag