The Effect of Heterogeneity on Matrix Acidizing of Carbonate Rocks

Keys, Ryan S.

2009 December 1900

In matrix acidizing, the goal is to dissolve minerals in the rock to increase well productivity. This is accomplished by injecting an application-specific solution of acid into the formation at a pressure between the pore pressure and fracture pressure. A hydrochloric acid solution is used in carbonate reservoirs, which actually dissolves the calcite rock matrix in the form of conductive channels called wormholes. These wormholes propagate from the wellbore out into the reservoir, bypassing the damaged zone. In matrix acidizing of carbonates, there are four parameters that affect performance: the concentration of calcite present, injection rate of the acid, reaction type, and heterogeneity. Of these parameters, this paper will focus on how rock heterogeneity affects performance. To do this, a coreflood and acidizing apparatus was used to acidize heterogeneous limestone core samples. Rock characterizations and volumetric measurements were considered with the results from these experiments, which made it possible to correlate and quantify the results with rock and volume parameters. It was found that the core samples with more and larger heterogeneities generally required less acid (measured in pore volumes) to achieve breakthrough, that is, a wormhole created axially from one end of the core to the other. This value for pore volumes to breakthrough was one to two orders of magnitude less than more homogeneous samples. The general procedure and best practices for acidizing the core samples is also detailed in this thesis. This procedure was followed for preparation, coreflooding, and acidizing for all core samples.

Carbonates

Matrix Acidizing

Characterization of the Drosophila Scaffold Attachment Factor B (SAFB)

Alfonso Parra, Catalina

2010 August 1900

Gene expression is a process that involves changes in chromatin organization and structure. Chromatin is thought to be organized in a structure consisting of looped domains, which are fixed at their bases to the nuclear matrix or scaffold. SAFB has been identified as a nuclear matrix binding protein in humans. Human SAFBs contain an N-terminal DNA-binding SAP-Box, and an RNA recognition motif (RRM). However it is unknown how the features of SAFB are linked to gene expression and chromatin organization. I have identified a single homologue of SAFB in Drosophila. To understand the role of SAFB in gene expression and nuclear structure, I have begun to characterize Drosophila SAFB. I found two SAFB splice forms, a full length SAFB containing DNA and RNA binding domains, and a smaller splice form lacking the RNA binding domain. I have showed that SAFB is expressed throughout embryogenesis, in adult testis and ovaries, and larval and adult brains. In addition, I made SAFBGFP constructs to characterize the cellular localization of SAFB. In S2 cells, embryos and neuroblasts, GFP-SAFB was found throughout the nucleus and in nuclear speckles and is retained in the matrix after soluble proteins and DNA are removed. Using larval polytene chromosomes, I show that GFP-SAFB binds to specific DNA bands, some of them overlapping with RNA Polymerase II. After heat shock, GFP-SAFB is recruited to the highly expressed heat shock genes. Treatment of polytene chromosomes with RNAse caused the majority of bands to disappear, meaning that the binding of most of SAFB to chromosomes was mostly through RNA. To distinguish binding of SAFB to DNA from protein-protein interaction, I constructed a GFP-tagged version of SAFB lacking the SAP domain, which binds to fewer sites in the genome. RNAse treatment abolished nearly all binding. Together, my data show that Drosophila SAF-B is a component of the nuclear matrix, that localized to specific loci in the chromosomes, and is recruited to actively-transcribed genes.

Nuclear Matrix

SAFB

chromatin

A Systematic Study of Matrix Acidizing Treatments Using Skin Monitoring Method

Pandya, Nimish

2012 May 1900

The goal of this work was to evaluate matrix acidizing treatments of vertical and horizontal wells in carbonate reservoirs. Twenty field cases for acidizing treatments were analyzed by evaluating the skin factor evolution from on-site rate/pressure data during the treatment. A skin monitoring method based on the concept of inverse injectivity (Hill and Zhu, 1996) was used to calculate the skin factor evolution. Viscous diversion techniques were analyzed by using the viscous diversion skin model that accounts for viscosity contrast between the reservoir fluid and the injected fluid. The estimated skin evolution during the treatment was validated using the post-treatment well performance. From the post-treatment analysis, it was observed that emulsified acid was not an efficient viscous diverter because only 27% of the wells treated with emulsified acid showed evidence of viscous diversion. Therefore, other viscous diversion techniques are needed to ensure uniform acid coverage. In addition, treatments that involved diversion techniques such as foam, associative-polymers, and viscoelastic surfactants were also evaluated. Thus, the post-treatment evaluation was used to improve and optimize the acid treatment designs. This study was beneficial to diagnose if excess acid volumes were used, or effective diversion was achieved during the acid treatment.

Matrix Acidizing

Skin Monitoring

Jordan isomorphisms of triangular matrix algebras with characteristic 2

Chen, Li-Fang

29 June 2004

Every Jordan isomorphism of triangular n¡Ñn matrices over F with characteristic 2 is either a isomorphism or a antiisomorphism while n is 2. But it is not true for n ¡Ù 3.

Jordan isomorphism

triangular matrix

Solve some linear matrix equations

Lee, Jun-Kai

21 June 2006

As we know, the theory about the linear equation AX−XB=C has already been well developed in the finite-dimensional cases. In this paper, we will try to extend it to infinite-dimensional cases by using a similar technique developed recently in the finite-dimensional case.

linear matrix equation

A placement model for matrix acidizing of vertically extensive, multilayer gas reservoirs

Nozaki, Manabu

10 October 2008

Design of matrix acidizing treatments of carbonate formation is still a challenge although extensive research has been done on it. It is necessary to estimate acid distribution along the wellbore. This estimation is very important especially for the case where the reservoir properties vary along the wellbore. This work provides development and application of an apparent skin factor model which accounts for both damage and mobility difference between acid and gas. Combining this model with a conventional acid placement model, we develop an acid placement model for vertically extensive, multilayer gas reservoirs. A computer program is developed implementing the acid placement model. The program is used to simulate hypothetical examples of acid placement for vertically extensive, multilayer gas reservoirs. This model will improve matrix acidizing for gas reservoirs and enable realtime monitoring of acid stimulation more accurately.

Gas Reservoirs

Matrix Acidizing

Densification of and constitutive laws for ceramic matrix composites and multilayered systems /

Salamone, Sam.

January 2003

Thesis (Ph. D.)--University of Washington, 2003. / Vita. Includes bibliographical references (leaves 201-210).

Ceramic-matrix composites.

The U-matrix theory and its applications /

Lam, Cheung-ching.

January 1986

Thesis--Ph. D., University of Hong Kong, 1986.

Matrices. Matrix mechanics.

LMI conditions for robust consensus of uncertain nonlinear multi-agent systems

Han, Dongkun, 韓東昆

January 2014

Establishing consensus is a key probleminmulti-agent systems (MASs). This thesis proposes a novel methodology based on convex optimization in the form of linear matrix inequalities (LMIs) for establishing consensus in linear and nonlinear MAS in the presence of model uncertainties, i.e., robust consensus. Firstly, this thesis investigates robust consensus for uncertain MAS with linear dynamics. Specifically, it is supposed that the system is described by a weighted adjacency matrix whose entries are generic polynomial functions of an uncertain vector constrained in a set described by generic polynomial inequalities. For continuous-time dynamics, necessary and sufficient conditions are proposed to ensure the robust first-order consensus and the robust second-order consensus, in both cases of positive and non-positive weighted adjacency matrices. For discrete-time dynamics, necessary and sufficient conditions are provided for robust consensus based on the existence of a Lyapunov function polynomially dependent on the uncertainty. In particular, an upper bound on the degree required for achieving necessity is provided. Furthermore, a necessary and sufficient condition is provided for robust consensus with single integrator and nonnegative weighted adjacency matrices based on the zeros of a polynomial. Lastly, it is shown how these conditions can be investigated through convex optimization by exploiting LMIs. Secondly, local and global consensus are considered in MAS with intrinsic nonlinear dynamics with respect to bounded solutions, like equilibrium points, periodic orbits, and chaotic orbits. For local consensus, a method is proposed based on the transformation of the original system into an uncertain polytopic system and on the use of homogeneous polynomial Lyapunov functions (HPLFs). For global consensus, another method is proposed based on the search for a suitable polynomial Lyapunov function (PLF). In addition, robust local consensus in MAS is considered with time-varying parametric uncertainties constrained in a polytope. Also, by using HPLFs, a new criteria is proposed where the original system is suitably approximated by an uncertain polytopic system. Tractable conditions are hence provided in terms of LMIs. Then, the polytopic consensus margin problem is proposed and investigated via generalized eigenvalue problems (GEVPs). Lastly, this thesis investigates robust consensus problem of polynomial nonlinear system affected by time-varying uncertainties on topology, i.e., structured uncertain parameters constrained in a bounded-rate polytope. Via partial contraction analysis, novel conditions, both for robust exponential consensus and for robust asymptotical consensus, are proposed by using parameter-dependent contraction matrices. In addition, for polynomial nonlinear system, this paper introduces a new class of contraction matrix, i.e., homogeneous parameter-dependent polynomial contraction matrix (HPD-PCM), by which tractable conditions of LMIs are provided via affine space parametrizations. Furthermore, the variant rate margin for robust asymptotical consensus is proposed and investigated via handling generalized eigenvalue problems (GEVPs). For each section, a set of representative numerical examples are presented to demonstrate the effectiveness of the proposed results. / published_or_final_version / Electrical and Electronic Engineering / Doctoral / Doctor of Philosophy

Multiagent systems

Matrix inequalities

Review of the state of the Art of modulation techniques and control strategies for matrix converters

Ehlers, PJ, Richards, CG, Nicolae, DV, Monacelli, E, Hamam, Y

01 May 2008

The reliability and stability of the Matrix Converter has improved during the last years due to the enhanced control algorithms. The traditional direct transfer function control mode has been replaced by more complex – digitally implemented control methodologies. These methodologies allow for real time calculation of the optimal switching interval of each individual switch of the matrix converter. These new switching algorithms allow optimal performances, ensuring sinusoidal outputs at any desired power factor. This paper will first revise the underlying theory of matrix converters, then review the various control limitations and finally review the current control algorithms.

Matrix converter

Modulation