Data Integration and Scale Changes in Shared Earth Models.
Emmanuel Fetel and Jef Caers and Guillaume Caumon and Hamdi Tchelepi. ( 2007 )
in: Proc. 27th Gocad Meeting, Nancy
Abstract
This paper proposes to develop a new reservoir modeling workflow extending the parallel modeling approach
[Tureyen and Caers, 2005] to the GeoChron framework [Mallet, 2004]. Integrating both frameworks
has several advantages and opens new perspectives for reservoir characterization, uncertainty assessment
and history matching. On one hand, a GeoChron model is a flexible representation of reservoirs in which
the geometry, the layering and the properties are modeled and can be altered almost independently one
from each other. On the other hand, the parallel approach is closed-loop history matching method aiming
at building both a static high resolution model and a coarse dynamic model consistently with each other.
It achieves thus a better and easier integration of all the relevant sources of information into the reservoir
model. Hence, contrary to the current modeling practice, this workflow aims at extending the type and
number of perturbed parameters during history matching to the reservoir geometry, either global or internal,
while producing consistent models with all the relevant information whatever their scales. However
developing and implementing the proposed framework introduces new research challenges in the flow simulation,
history matching and reservoir characterization domains that need to be tackled and are presented
here.
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BibTeX Reference
@inproceedings{101_Caumon,
abstract = { This paper proposes to develop a new reservoir modeling workflow extending the parallel modeling approach
[Tureyen and Caers, 2005] to the GeoChron framework [Mallet, 2004]. Integrating both frameworks
has several advantages and opens new perspectives for reservoir characterization, uncertainty assessment
and history matching. On one hand, a GeoChron model is a flexible representation of reservoirs in which
the geometry, the layering and the properties are modeled and can be altered almost independently one
from each other. On the other hand, the parallel approach is closed-loop history matching method aiming
at building both a static high resolution model and a coarse dynamic model consistently with each other.
It achieves thus a better and easier integration of all the relevant sources of information into the reservoir
model. Hence, contrary to the current modeling practice, this workflow aims at extending the type and
number of perturbed parameters during history matching to the reservoir geometry, either global or internal,
while producing consistent models with all the relevant information whatever their scales. However
developing and implementing the proposed framework introduces new research challenges in the flow simulation,
history matching and reservoir characterization domains that need to be tackled and are presented
here. },
author = { Fetel, Emmanuel AND Caers, Jef AND Caumon, Guillaume AND Tchelepi, Hamdi },
booktitle = { Proc. 27th Gocad Meeting, Nancy },
title = { Data Integration and Scale Changes in Shared Earth Models. },
year = { 2007 }
}