Colloidal Dispersion Gels (CDG) to improve volumetric sweep efficiency in waterflooding processes

Aviable option for the sustainability of hydrocarbon supply in the short and medium term is increasing the expected ultimate oil recovery factor through Enhanced Oil Recovery processes (EOR). The purpose of this paper is to describe a methodology to evaluate EOR technologies developed at the Institu...

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Vydáno v:	C T & F : ciencia, tecnología y futuro Ročník 5; číslo 3; s. 61 - 78
Hlavní autoři:	Castro García, Rubén Hernán, Maya Toro, Gustavo Adolfo, Sandoval Muñoz, Jorge Eduardo, Cohen Paternina, Lia Margarita
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Bucaramanga Instituto Colombiano del Petróleo 01.12.2013 Instituto Colombiano del Petróleo (ICP) - ECOPETROL S.A Instituto Colombiano del petróleo y energías de la Transición - ICPET
Témata:	Applied sciences Chemical injection Colloidal Dispersion Gels (CDG) Colombia Crude oil, natural gas and petroleum products Crude oil, natural gas, oil shales producing equipements and methods Dispersions Energy ENGINEERING, MULTIDISCIPLINARY Enhanced oil recovery Enhanced Oil Recovery (EOR) Enhanced oil recovery methods Exact sciences and technology Fuels Geles de dispersión coloidal Gels Inyección de químicos Mathematical models Methodology Numerical simulation Pilots Polymer Polímero Prospecting and production of crude oil, natural gas, oil shales and tar sands Recobro mejorado de petróleo Simulación numérica Sustainability Volumetric efficiency Colombia Colloidal Dispersion Gels (CDG) Enhanced Oil Recovery (EOR) Numerical simulation Polymer Chemical injection Inyección de químicos Recobro mejorado de petróleo Simulação numérica Simulación numérica Polímero Geles de dispersión coloidal Géis de dispersão coloidal Recuperação melhorada de petróleo Injeção de químicos
ISSN:	0122-5383, 2382-4581, 2382-4581
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Abstract	Aviable option for the sustainability of hydrocarbon supply in the short and medium term is increasing the expected ultimate oil recovery factor through Enhanced Oil Recovery processes (EOR). The purpose of this paper is to describe a methodology to evaluate EOR technologies developed at the Instituto Colombiano del Petroleo (ICP) of ECOPETROL S.A. in 2012. The methodology includes theoretical evaluation, design (geological analysis, engineering analysis, laboratory static and dynamic tests and numerical simulation, among others), field implementation and surveillance of Colloidal Dispersion Gels (CDG) injection. CDG is an EOR method that consists in the co-injection of high molecular weight polymer and a cross-linker, to generate microgels in the reservoir. This technology has become an alternative to polymer flooding. This paper describes a field application in Dina Cretaceos Field (Dina) supported by the proposed methodology, which corresponds to the first chemical enhanced oil recovery pilot implemented in Colombia by ECOPETROL S.A. Results of this study show an increase in volumetric sweep efficiency due the improvement of the mobility ratio, increasing in oil production and decreasing in water production. Based on the results of this pilot, which started in June 2011, the feasibility of expanding the use of CDG technology in Dina and others fields of Colombia is being assessed at present.Original Abstract: Una opcion viable para garantizar la sustentabilidad del suministro de hidrocarburos a corto y mediano plazo es el incremento del factor de recobro ultimo de los yacimientos, mediante la implementacion de metodos de recobro mejorado (EOR, por sus siglas en ingles). Este articulo tiene como objetivo describir una metodologia para evaluar tecnologias EOR desarrollada en el Instituto Colombiano del Petroleo (ICP) de ECOPETROL S.A. en el ano 2012. La metodologia comprende una evaluacion teorica, diseno (anolisis geologico, analisis de ingenieria, pruebas estaticas y dinamicas a nivel de laboratorio y simulacion numerica), ejecucion en campo y monitoreo de procesos de inyeccion de geles de dispersion coloidal (CDG, de sus siglas en ingles), CDG es un metodo EOR que consiste en la co-inyeccion de polimero de alto peso molecular con un agente entrecruzador que permite la generacion de microgeles en la formacion. Esta tecnologia se ha convertido en una alternativa a los procesos de inyeccion de polimero. En este trabajo se incluye un caso de aplicacion en el Campo Dina Cretaceo (Dina) de la metodologia propuesta, que corresponde al primer piloto de recobro quimico en Colombia realizado por ECOPETROL S.A. Los resultados de este estudio muestran un incremento en la eficiencia volumetrica de barrido debido a la mejora de la relacion de movilidad, dando lugar a un aumento en la produccion de petroleo y una disminucion de la produccion de agua. Con base en los resultados de este piloto, que inicio su ejecucion en Junio de 2011, actualmente se evalua la factibilidad de expandir el uso de la tecnologia CDG en Dina y otros campos de Colombia.
AbstractList	A viable option for the sustainability of hydrocarbon supply in the short and medium term is increasing the expected ultimate oil recovery factor through Enhanced Oil Recovery processes (EOR). f . The purpose of this paper is to describe a methodology to evaluate EOR technologies developed at the Instituto Colombiano del Petróleo (ICP) of ECOPETROL S.A. in 2012. The methodology includes theoretical evaluation, design (geological analysis, engineering analysis, laboratory static and dynamic tests and numerical simulation, among others), field implementation and surveillance of Colloidal Dispersion Gels (CDG) injection. CDG is an EOR method that consists in the co-injection of high molecular weight polymer and a crosslinker, to generate microgels in the reservoir. This technology has become an alternative to polymer flooding. This paper describes a field application in Dina Cretáceos Field (Dina) supported by the proposed methodology, which corresponds to the first chemical enhanced oil recovery pilot implemented in Colombia by ECOPETROL S.A. Results of this study show an increase in volumetric sweep efficiency due the improvement of the mobility ratio, increasing in oil production and decreasing in water production. Based on the results of this pilot, which started in June 2011, the feasibility of expanding the use of CDG technology in Dina and others fields of Colombia is being assessed at present. Uma opção viável para garantir a sustentabilidade do fornecimento de hidrocarbonetos a curto e médio prazo é o aumento do fator de recuperação última das jazidas, mediante a implantação de métodos de recuperação melhorada (EOR, por suas siglas em inglês). Este artigo tem como objetivo descrever uma metodologia para avaliar tecnologias EOR desenvolvida no Instituto Colombiano do Petróleo (ICP) de ECOPETROL S.A., em 2012. A metodologia compreende uma avaliação teórica, desenho (análise geológica, análise de engenharia, provas estáticas e dinâmicas em nível de laboratório e simulação numérica), execução em campo e monitoramento de processos de injeção de géis de dispersão coloidal (CDG, de suas siglas em inglês), CDG é um método EOR que consiste na coinjeção de polímero de alto peso molecular com um agente entrecruzador que permite a geração de micro géis na formação. Esta tecnologia converteu-se em uma alternativa aos processos de injeção de polímero. Neste trabalho inclui-se um caso de aplicação no Campo Dina Cretáceo (Dina) da metodologia proposta, que corresponde ao primeiro piloto de recuperação química na Colômbia realizado por ECOPETROL S.A. Os resultados deste estudo mostram um aumento na eficiência volumétrica de varrido devido à melhoria da relação de mobilidade, dando lugar a um aumento na produção de petróleo e uma diminuição da produção de água. Com base nos resultados deste piloto, que iniciou sua execução em junho de 2011, atualmente avalia-se a factibilidade de expandir o uso da tecnologia CDG em Dina e em outros campos da Colômbia. Una opción viable para garantizar la sustentabilidad del suministro de hidrocarburos a corto y mediano plazo es el incremento del factor de recobro último de los yacimientos, mediante la implementación de métodos de recobro mejorado (EOR, por sus siglas en inglés). Este artículo tiene como objetivo describir una metodología para evaluar tecnologías EOR desarrollada en el Instituto Colombiano del Petróleo (ICP) de ECOPETROL S.A. en el año 2012. La metodología comprende una evaluación teórica, diseño (análisis geológico, análisis de ingeniería, pruebas estáticas y dinámicas a nivel de laboratorio y simulación numérica), ejecución en campo y monitoreo de procesos de inyección de geles de dispersión coloidal (CDG, de sus siglas en inglés), CDG es un método EOR que consiste en la co-inyección de polímero de alto peso molecular con un agente entrecruzador que permite la generación de microgeles en la formación. Esta tecnología se ha convertido en una alternativa a los procesos de inyección de polímero. En este trabajo se incluye un caso de aplicación en el Campo Dina Cretáceo (Dina) de la metodología propuesta, que corresponde al primer piloto de recobro químico en Colombia realizado por ECOPETROL S.A. Los resultados de este estudio muestran un incremento en la eficiencia volumétrica de barrido debido a la mejora de la relación de movilidad, dando lugar a un aumento en la producción de petróleo y una disminución de la producción de agua. Con base en los resultados de este piloto, que inició su ejecución en Junio de 2011, actualmente se evalúa la factibilidad de expandir el uso de la tecnología CDG en Dina y otros campos de Colombia. ABSTRACT A viable option for the sustainability of hydrocarbon supply in the short and medium term is increasing the expected ultimate oil recovery factor through Enhanced Oil Recovery processes (EOR). The purpose of this paper is to describe a methodology to evaluate EOR technologies developed at the Instituto Colombiano del Petróleo (ICP) of ECOPETROL S.A. in 2012. The methodology includes theoretical evaluation, design (geological analysis, engineering analysis, laboratory static and dynamic tests and numerical simulation, among others), field implementation and surveillance of Colloidal Dispersion Gels (CDG) injection. CDG is an EOR method that consists in the co-injection of high molecular weight polymer and a crosslinker, to generate microgels in the reservoir. This technology has become an alternative to polymer flooding. This paper describes a field application in Dina Cretáceos Field (Dina) supported by the proposed methodology, which corresponds to the first chemical enhanced oil recovery pilot implemented in Colombia by ECOPETROL S.A. Results of this study show an increase in volumetric sweep efficiency due the improvement of the mobility ratio, increasing in oil production and decreasing in water production. Based on the results of this pilot, which started in June 2011, the feasibility of expanding the use of CDG technology in Dina and others fields of Colombia is being assessed at present. Aviable option for the sustainability of hydrocarbon supply in the short and medium term is increasing the expected ultimate oil recovery factor through Enhanced Oil Recovery processes (EOR). The purpose of this paper is to describe a methodology to evaluate EOR technologies developed at the Instituto Colombiano del Petroleo (ICP) of ECOPETROL S.A. in 2012. The methodology includes theoretical evaluation, design (geological analysis, engineering analysis, laboratory static and dynamic tests and numerical simulation, among others), field implementation and surveillance of Colloidal Dispersion Gels (CDG) injection. CDG is an EOR method that consists in the co-injection of high molecular weight polymer and a cross-linker, to generate microgels in the reservoir. This technology has become an alternative to polymer flooding. This paper describes a field application in Dina Cretaceos Field (Dina) supported by the proposed methodology, which corresponds to the first chemical enhanced oil recovery pilot implemented in Colombia by ECOPETROL S.A. Results of this study show an increase in volumetric sweep efficiency due the improvement of the mobility ratio, increasing in oil production and decreasing in water production. Based on the results of this pilot, which started in June 2011, the feasibility of expanding the use of CDG technology in Dina and others fields of Colombia is being assessed at present.Original Abstract: Una opcion viable para garantizar la sustentabilidad del suministro de hidrocarburos a corto y mediano plazo es el incremento del factor de recobro ultimo de los yacimientos, mediante la implementacion de metodos de recobro mejorado (EOR, por sus siglas en ingles). Este articulo tiene como objetivo describir una metodologia para evaluar tecnologias EOR desarrollada en el Instituto Colombiano del Petroleo (ICP) de ECOPETROL S.A. en el ano 2012. La metodologia comprende una evaluacion teorica, diseno (anolisis geologico, analisis de ingenieria, pruebas estaticas y dinamicas a nivel de laboratorio y simulacion numerica), ejecucion en campo y monitoreo de procesos de inyeccion de geles de dispersion coloidal (CDG, de sus siglas en ingles), CDG es un metodo EOR que consiste en la co-inyeccion de polimero de alto peso molecular con un agente entrecruzador que permite la generacion de microgeles en la formacion. Esta tecnologia se ha convertido en una alternativa a los procesos de inyeccion de polimero. En este trabajo se incluye un caso de aplicacion en el Campo Dina Cretaceo (Dina) de la metodologia propuesta, que corresponde al primer piloto de recobro quimico en Colombia realizado por ECOPETROL S.A. Los resultados de este estudio muestran un incremento en la eficiencia volumetrica de barrido debido a la mejora de la relacion de movilidad, dando lugar a un aumento en la produccion de petroleo y una disminucion de la produccion de agua. Con base en los resultados de este piloto, que inicio su ejecucion en Junio de 2011, actualmente se evalua la factibilidad de expandir el uso de la tecnologia CDG en Dina y otros campos de Colombia.
Author	Maya Toro, Gustavo Adolfo Castro García, Rubén Hernán Cohen Paternina, Lia Margarita Sandoval Muñoz, Jorge Eduardo
AuthorAffiliation	UT UP Consultorias Ecopetrol S. A. - Instituto Colombiano del Petróleo (ICP)
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Keywords	Colloidal Dispersion Gels (CDG) Enhanced Oil Recovery (EOR) Numerical simulation Polymer Chemical injection Inyección de químicos Recobro mejorado de petróleo Simulação numérica Simulación numérica Polímero Geles de dispersión coloidal Géis de dispersão coloidal Recuperação melhorada de petróleo Injeção de químicos
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References_xml	– year: 2010 publication-title: Dina Cretáceos Field chemical EOR: From screening to pilot design – volume: 23 start-page: 475 issue: 3 year: 1983 end-page: 485 article-title: The effects of mechanical degradation and viscoelastic behavior on injectivity of polyacry-lamide solutions publication-title: SPE Journal – volume: 98 start-page: 10119 issue: 40 year: 1994 end-page: 10123 article-title: Kinetics of the cross-linking of polyacrylamide with Cr(III). Analysis of possible mechanisms publication-title: J. Phys. Chem – year: 2010 publication-title: Enhanced Oil Recovery (EOR) Status - Colombia – year: 2000 publication-title: Laboratory studies of in-depth colloidal dispersion gel technology for Daquing Oilfield – year: 1989 publication-title: The transition pressure: a quick method for quantifying polyacrylamide gel strength – volume: 4 issue: 3 year: 1998 article-title: Experimental study of the gelation behavior of a polyacrylamide/aluminum citrate colloidal-dispersion gel system publication-title: SPE Journal – year: 1994 publication-title: Propagation of an aluminum-citrate-HPAM "colloidal-dispersion" gel through Berea sandstone – year: 1999 publication-title: Practical issues with field injection well gel treatments – volume: 14 start-page: 337 issue: 4 year: 1974 end-page: 346 article-title: Analysis of factors influencing mobility and adsorption in the flow of polymer solution through porous media publication-title: PE Journal – year: 2010 publication-title: Nano-Sized Particles for EOR – year: 1997 publication-title: An experimental study of the in situ gelation behavior of a polyacrylamide/aluminum citrate "colloidal dispersion" gel in a porous medium and its aggregate growth during gelation reaction – year: 2006 publication-title: Improving volumetric sweep efficiency with polymer gels in the Cuyo Basin of Argentina – start-page: 219 year: 2011 publication-title: Análisis de un proceso de inyección de Geles de Dispersión Coloidal (CDG) usando ensayos de laboratorio slim tube y simulación numérica Campo Dina Cretáceo – year: 2005 publication-title: Polymers, gels, foams, and resins – year: 1985 publication-title: Permeability modification using aluminum citrate/polymer treatments: Mechanisms of permeability reduction in sandpacks – year: 1994 publication-title: In-depth drive fluid diversion using an evolution of colloidal dispersion gels and new bulk gels: An operational case history of North Rainbow Ranch Unit – year: 2010 publication-title: Propagation of Colloidal Dispersion Gels (CDG) in laboratory corefloods – year: 2010 publication-title: Enhanced oil recovery: Field planning and development strategies – year: 1991 publication-title: Polymer improved oil recovery – year: 2008 publication-title: A new polymer application for North Sea Reservoirs – year: 1995 publication-title: Performance of 18 polymers in aluminum citrate colloidal dispersion gels – year: 1994 publication-title: In-depth colloidal dispersion gels improve oil recovery efficiency – year: 2002 publication-title: Producing more than 75% of Daqing Oilfield's production by IOR, What experiences have been learnt? – volume: 5 start-page: 37 issue: 1 year: 2012 end-page: 44 article-title: Polymer gels for controlling water thief zones in injection wells publication-title: CT & F - Ciencia, Tecnología y Futuro – year: 2013 publication-title: Co-lloidal Dispersion Gels (CDG) in Dina Cretáceos Field: From pilot design to field implementation and performance – volume: 9 start-page: 664 issue: 6 year: 2004 end-page: 673 article-title: Successful field pilot of in-depth Colloidal Dispersion Gel (CDG) technology in Daqing Oilfield publication-title: SPE Reservoir Evaluation & Engineering – year: 1983 publication-title: Chemical interactions of aluminum-citrate solutions with formation minerals
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Snippet	Aviable option for the sustainability of hydrocarbon supply in the short and medium term is increasing the expected ultimate oil recovery factor through... ABSTRACT A viable option for the sustainability of hydrocarbon supply in the short and medium term is increasing the expected ultimate oil recovery factor... A viable option for the sustainability of hydrocarbon supply in the short and medium term is increasing the expected ultimate oil recovery factor through...
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SubjectTerms	Applied sciences Chemical injection Colloidal Dispersion Gels (CDG) Colombia Crude oil, natural gas and petroleum products Crude oil, natural gas, oil shales producing equipements and methods Dispersions Energy ENGINEERING, MULTIDISCIPLINARY Enhanced oil recovery Enhanced Oil Recovery (EOR) Enhanced oil recovery methods Exact sciences and technology Fuels Geles de dispersión coloidal Gels Inyección de químicos Mathematical models Methodology Numerical simulation Pilots Polymer Polímero Prospecting and production of crude oil, natural gas, oil shales and tar sands Recobro mejorado de petróleo Simulación numérica Sustainability Volumetric efficiency
Title	Colloidal Dispersion Gels (CDG) to improve volumetric sweep efficiency in waterflooding processes
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