About This Item

Share This Item

The AAPG/Datapages Combined Publications Database

AAPG Bulletin

Abstract


Volume: 67 (1983)

Issue: 11. (November)

First Page: 2157

Last Page: 2157

Title: Rocks, Pores, and Enhanced Oil Recovery--A Geological Challenge: ABSTRACT

Author(s): Norman C. Wardlaw

Article Type: Meeting abstract

Abstract:

The efficiency with which oil can be recovered during the advance of injected fluids is affected by a large number of variables which fall into three main categories: the properties of the rock-Previous HitporeNext Hit Previous HitsystemNext Hit, the properties of fluids, and the forces acting on the Previous HitsystemNext Hit. Of these, the rock-Previous HitporeNext Hit Previous HitsystemNext Hit is the most poorly known. Although the constituents of rocks have been studied thoroughly, little quantitative information is available on the topology or geometry of Previous HitporeNext Hit systems. It is these systems which affect multiphase fluid flow and influence the volume of oil which can be recovered economically.

Important Previous HitporeNext Hit properties include aspect ratio (Previous HitporeNext Hit to throat size ratio), connectivity (number of throats per Previous HitporeNext Hit), surface characteristics of the Previous HitporeNext Hit walls, and heterogeneity (degree of order or disorder).

Increasing order affects displacement efficiency adversely and a major difficulty of reservoir description is quantifying the degree and types of order-disorder on scales from a few Previous HitporeNext Hit diameters to dimensions approaching processes, as in stratification, but more commonly is related to diagenesis.

The relative importance of various Previous HitporeNext Hit characteristics can be assessed in relation to fluid properties and properties such as wettability which are the result of fluid-rock interactions. Previous HitPoreNext Hit systems are best seen as Previous HitporeNext Hit casts following dissolution of the host rock. Selected characteristics of Previous HitporeNext Hit systems can be replicated, singly or in combinations, in transparent glass micromodels. Fluid displacements then can be conducted to determine a hierarchy of fluid and Previous HitporeTop variables which affect displacement efficiency. Furthermore, displacements can be conducted in reservoir rocks with fluid properties and wettability similar to those of the reservoir but using fluids which can be solidified at residual saturations. Thin sections can be prepared and the form and distribution of multipha e fluids (water, oil, and gas) can be examined in relation to the mineralogical and textural properties of the rock. Conventional fluid displacement tests on core have provided data on the amount of residual oil but not on the size, shape, or arrangement of populations of residual blobs. This information is required to understand processes of oil entrapment and mobilization, and provides a link between the petrographic observations of the geologist and the fluid displacement tests of the engineer.

Fluids injected during enhanced oil recovery may react with solutions or minerals in reservoir systems and fluid compatibility and formation damage problems can be minimized by use of geochemical-mineralogical information. This is another area where geologists can make an important contribution to reservoir production.

End_of_Article - Last_Page 2157------------

Copyright 1997 American Association of Petroleum Geologists