Caracterización estática de rocas por medio de tomografía computarizada de Rayos-X TAC

The discovery Situche Central Field in Block 64, was a big step in the Petroleum Industry of Peru history, because it is the most important discovered place of light oil in the last 25 years in the Maranon Basin, also the technological challenges like: the drilling deep wells, the handling of reserv...

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Main Author: Victor Alexei Huerta Quiñonez
Format: Article
Language:Spanish
Published: Universidad Industrial de Santander 2015-06-01
Series:Revista Fuentes El Reventón Energético
Subjects:
Online Access:https://doi.org/10.18273/revfue.v13n1-2015005
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spelling doaj-5f230899d3f34deb9eb4126fc05258322020-11-25T01:30:38ZspaUniversidad Industrial de SantanderRevista Fuentes El Reventón Energético1657-65272145-85022015-06-01131520https://doi.org/10.18273/revfue.v13n1-2015005Caracterización estática de rocas por medio de tomografía computarizada de Rayos-X TACVictor Alexei Huerta Quiñonez0Universidad Nacional de IngenieríaThe discovery Situche Central Field in Block 64, was a big step in the Petroleum Industry of Peru history, because it is the most important discovered place of light oil in the last 25 years in the Maranon Basin, also the technological challenges like: the drilling deep wells, the handling of reservoirs growers formation pressure and high temperature background, make it a defiance. The characterization of the thermodynamic behavior of hydrocarbons from a reservoir located deep, under high pressure and temperature background, is an extremely important task which requires: verify the stability of the operating conditions during sampling (separator pressure , temperature separator, GOR), verify the representativeness of the samples collected in background and/or in surface, and validate the consistency of the laboratory tests , flash release , differential and testing of separators. After verifying the consistency, the phase diagram is constructed to identify whether the site is high or low shrinkage, and if necessary use a state equation or a set of tables of properties for dynamic modeling. The construction of the phase diagram required to apply the best practices of the industry in terms of the grouping of the heavier components (C7 + ) , considering its high incidence in the thermodynamic behavior in the hydrocarbon mixture; trial and error procedures and numerical regression were defined to achieve the best fit of the prediction equation of state ( EOS ) and in the observations of experiments flash and differential release ; finally, once calibrated the EOS and exported the PVT table, predictions were made in the dynamic numerical simulation model.https://doi.org/10.18273/revfue.v13n1-2015005Computed tomographystatic characterizationRock properties
collection DOAJ
language Spanish
format Article
sources DOAJ
author Victor Alexei Huerta Quiñonez
spellingShingle Victor Alexei Huerta Quiñonez
Caracterización estática de rocas por medio de tomografía computarizada de Rayos-X TAC
Revista Fuentes El Reventón Energético
Computed tomography
static characterization
Rock properties
author_facet Victor Alexei Huerta Quiñonez
author_sort Victor Alexei Huerta Quiñonez
title Caracterización estática de rocas por medio de tomografía computarizada de Rayos-X TAC
title_short Caracterización estática de rocas por medio de tomografía computarizada de Rayos-X TAC
title_full Caracterización estática de rocas por medio de tomografía computarizada de Rayos-X TAC
title_fullStr Caracterización estática de rocas por medio de tomografía computarizada de Rayos-X TAC
title_full_unstemmed Caracterización estática de rocas por medio de tomografía computarizada de Rayos-X TAC
title_sort caracterización estática de rocas por medio de tomografía computarizada de rayos-x tac
publisher Universidad Industrial de Santander
series Revista Fuentes El Reventón Energético
issn 1657-6527
2145-8502
publishDate 2015-06-01
description The discovery Situche Central Field in Block 64, was a big step in the Petroleum Industry of Peru history, because it is the most important discovered place of light oil in the last 25 years in the Maranon Basin, also the technological challenges like: the drilling deep wells, the handling of reservoirs growers formation pressure and high temperature background, make it a defiance. The characterization of the thermodynamic behavior of hydrocarbons from a reservoir located deep, under high pressure and temperature background, is an extremely important task which requires: verify the stability of the operating conditions during sampling (separator pressure , temperature separator, GOR), verify the representativeness of the samples collected in background and/or in surface, and validate the consistency of the laboratory tests , flash release , differential and testing of separators. After verifying the consistency, the phase diagram is constructed to identify whether the site is high or low shrinkage, and if necessary use a state equation or a set of tables of properties for dynamic modeling. The construction of the phase diagram required to apply the best practices of the industry in terms of the grouping of the heavier components (C7 + ) , considering its high incidence in the thermodynamic behavior in the hydrocarbon mixture; trial and error procedures and numerical regression were defined to achieve the best fit of the prediction equation of state ( EOS ) and in the observations of experiments flash and differential release ; finally, once calibrated the EOS and exported the PVT table, predictions were made in the dynamic numerical simulation model.
topic Computed tomography
static characterization
Rock properties
url https://doi.org/10.18273/revfue.v13n1-2015005
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