Methane Production through Combined Depressurization + Hydrate Swapping method in the Sandy Porous Medium under Permafrost Temperature Conditions

Research output: Non-textual formSound/Visual production (digital)Communication

8 Downloads (Pure)
Original languageEnglish
Publication date2019
Media of outputPowerpoint presentation
Publication statusPublished - 2019
Event33rd Annual Symposium of Society of Core Analysts - Pau, France
Duration: 26 Aug 201931 Aug 2019

Conference

Conference33rd Annual Symposium of Society of Core Analysts
CountryFrance
CityPau
Period26/08/201931/08/2019

Cite this

@misc{66082fc8c4f641e7891c9df74b431f26,
title = "Methane Production through Combined Depressurization + Hydrate Swapping method in the Sandy Porous Medium under Permafrost Temperature Conditions",
author = "Pandey, {Jyoti Shanker}",
year = "2019",
language = "English",

}

Methane Production through Combined Depressurization + Hydrate Swapping method in the Sandy Porous Medium under Permafrost Temperature Conditions. Pandey, Jyoti Shanker (Author). 2019. Event: 33rd Annual Symposium of Society of Core Analysts, Pau, France.

Research output: Non-textual formSound/Visual production (digital)Communication

TY - ADVS

T1 - Methane Production through Combined Depressurization + Hydrate Swapping method in the Sandy Porous Medium under Permafrost Temperature Conditions

A2 - Pandey, Jyoti Shanker

PY - 2019

Y1 - 2019

M3 - Sound/Visual production (digital)

ER -