REOLOGICAL DESIGN OF SUSTAINABLE FLUIDS IMPROVED WITH NANOPARTICULAE FOR DRILLING AND IMPROVED RECOVERY OF OIL AND GAS (Q3144035): Difference between revisions
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(Created claim: summary (P836): DEEP DEPOSITS DRILLING AND IMPROVED OIL RECOVERY (EOR) AND GAS (EGR) DRILLING OPERATIONS REQUIRE A CONTINUOUS SEARCH FOR SUITABLE FLUIDS TO OVERCOME EXTREME PRESSURE AND TEMPERATURE (HP/HT) CONDITIONS. MOREOVER, REDUCING THE ENVIRONMENTAL IMPACT OF THESE OPERATIONS IS A MAJOR CONCERN FOR GOVERNMENTS AND INDUSTRY. In CONSEQUENCY, the current TENDENCE in this area leads to the development of sustainable and environmentally friendly FLUIDs with hig...) |
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REOLOGICAL DESIGN OF SUSTAINABLE FLUIDS IMPROVED WITH NANOPARTICULAE FOR DRILLING AND IMPROVED RECOVERY OF OIL AND GAS |
Revision as of 13:51, 12 October 2021
Project Q3144035 in Spain
Language | Label | Description | Also known as |
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English | REOLOGICAL DESIGN OF SUSTAINABLE FLUIDS IMPROVED WITH NANOPARTICULAE FOR DRILLING AND IMPROVED RECOVERY OF OIL AND GAS |
Project Q3144035 in Spain |
Statements
159,720.0 Euro
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199,650.0 Euro
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80.0 percent
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1 January 2015
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30 September 2018
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UNIVERSIDAD DE HUELVA
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21041
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LAS OPERACIONES DE PERFORACION DE YACIMIENTOS PROFUNDOS Y RECUPERACION MEJORADA DE PETROLEO (EOR) Y GAS (EGR) REQUIEREN UNA BUSQUEDA CONTINUA DE FLUIDOS ADECUADOS PARA SUPERAR LAS CONDICIONES EXTREMAS DE PRESION Y TEMPERATURA (HP/HT). ADEMAS, LA REDUCCION DEL IMPACTO AMBIENTAL DE ESTAS OPERACIONES ES UNA GRAN PREOCUPACION PARA GOBIERNOS E INDUSTRIA. EN CONSECUENCIA, LA TENDENCIA ACTUAL EN ESTE CAMPO CONDUCE AL DESARROLLO DE FLUIDOS SOSTENIBLES Y MEDIOAMBIENTALMENTE AMIGABLES CON ALTAS PRESTACIONES DE EFICIENCIA Y BAJO COSTE, CON EL OBJETIVO DE REDUCIR SU IMPACTO AMBIENTAL A CERO._x000D_ LAS CARACTERISTICAS FISICOQUIMICAS DE ESTOS FLUIDOS VARIAN DESDE SUSPENSIONES SIMPLES, COMPUESTOS DE ARCILLAS Y UNA FASE LIQUIDA (AGUA O ACEITE), HASTA EMULSIONES ESTABILIZADAS CON SURFACTANTES O PARTICULAS. ES BIEN CONOCIDO QUE, ENTRE OTRAS PROPIEDADES, ESTOS FLUIDOS ESTAN CARACTERIZADOS POR SU COMPORTAMIENTO REOLOGICO Y SUS PROPIEDADES INTERFACIALES. ASI, EL ESTUDIO DE LA RELACION PROCESADO-ESTRUCTURA-PROPIEDADES PUEDE SER LA MEJOR METODOLOGIA PARA DESARROLLAR FLUIDOS NANOESTRUCTURADOS SOSTENIBLES PARA APLICACIONES EN PERFORACION, RECUPERACION MEJORADA DE HIDROCARBUROS Y ALMACENAMIENTO GEOLOGICO DE CO2._x000D_ LA HIPOTESIS PRINCIPAL ES QUE PODEMOS DESARROLLAR FLUIDOS ADECUADOS PARA PERFORACION/EOR/EGR USANDO MATERIALES BIODEGRADABLES Y SOSTENIBLES COMO COMPONENTES PRINCIPALES. ADEMAS, LAS PROPIEDADES REOLOGICAS Y LA ESTABILIDAD DE ESTOS FLUIDOS PUEDEN SER MEJORADAS USANDO NANOPARTICULAS. _x000D_ ESTE PROYECTO SE CENTRA EN EL ESTUDIO DEL EFECTO QUE EJERCEN LAS NANOPARTICULAS DE SILICE Y ARCILLA, ENTRE OTRAS, SOBRE EL COMPORTAMIENTO REOLOGICO Y LAS PROPIEDADES INTERFACIALES DE DIFERENTES FLUIDOS BASE TALES COMO SUSPENSIONES DE BIOPOLIMEROS, DISOLUCIONES VISCOELASTICAS DE SURFACTANTES Y EMULSIONES DE ACEITES VEGETALES Y RECICLADOS, CUANDO SON SOMETIDAS A AMBIENTES EXTREMOS DE PRESION Y TEMPERATURA, CON EL FIN DE DISEÑAR FORMULACIONES CON IMPACTO AMBIENTAL MINIMO O CERO. _x000D_ ESTE PROYECTO ESTA DIVIDIDO EN CUATRO TAREAS PRINCIPALES._x000D_ 1. DESARROLLO DE SISTEMAS EXPERIMENTALES. EL OBJETIVO PRINCIPAL DE ESTA TAREA ES DESARROLLAR DISPOSITIVOS PRESURIZADOS PARA REALIZAR ENSAYOS REOLOGICOS, MEDIDAS DE TENSION INTERFACIAL Y ESTUDIOS DE FLUJO EN MEDIOS POROSOS BAJO CONDICIONES EXTREMAS DE PRESION Y TEMPERATURA (2000BAR/300ºC)._x000D_ 2. PROCESADO Y CARACTERIZACION DE FLUIDOS BASE. EN ESTA ETAPA ESTUDIAREMOS EL PROCESADO, EL COMPORTAMIENTO REOLOGICO Y LA ESTRUCTURA DE LOS FLUIDOS BASE (SUSPENSIONES Y EMULSIONES DE BIOPOLIMEROS, ACEITES VEGETALES, SURFACTANTES, ETC.) CUANDO SON SOMETIDOS A CONDICIONES EXTREMAS TP. _x000D_ 3. MODIFICACION DEL COMPORTAMIENTO REOLOGICO DE LOS FLUIDOS BASE CON NANOPARTICULAS. EN ESTA TAREA NOS CENTRAREMOS EN EL ESTUDIO DEL EFECTO QUE EJERCEN LA NATURALEZA Y LA CONCENTRACION DE NANOPARTICULAS SOBRE LAS PROPIEDADES DE LOS FLUIDOS BASE EN FUNCION DE LA PRESION Y LA TEMPERATURA, CON EL OBJETIVO DE DISEÑAR FLUIDOS MODELO CON PROPIEDADES MEJORADAS._x000D_ 4. FINALMENTE, LA ULTIMA TAREA ABARCA EL ESTUDIO DE LA INTERACCION DE LOS FLUIDOS MODELO CON LOS MATERIALES DE LA FORMACION, INCLUYENDO ESTUDIOS DE FLUJO CAPILAR Y EN MEDIOS POROSOS._x000D_ LA CONTRIBUCION PRINCIPAL DE ESTE PROYECTO ES GENERAR EL CONOCIMIENTO NECESARIO PARA DESARROLLAR FLUIDOS MEJORADOS PARA PERFORACION/EOR/EGR. ESTE CONOCIMIENTO PUEDE SER USADO POR LA INDUSTRIA PARA EL DESARROLLO DE TECNOLOGIAS Y PRODUCTOS AMIGABLES CON EL MEDIO AMBIENTE. (Spanish)
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DEEP DEPOSITS DRILLING AND IMPROVED OIL RECOVERY (EOR) AND GAS (EGR) DRILLING OPERATIONS REQUIRE A CONTINUOUS SEARCH FOR SUITABLE FLUIDS TO OVERCOME EXTREME PRESSURE AND TEMPERATURE (HP/HT) CONDITIONS. MOREOVER, REDUCING THE ENVIRONMENTAL IMPACT OF THESE OPERATIONS IS A MAJOR CONCERN FOR GOVERNMENTS AND INDUSTRY. In CONSEQUENCY, the current TENDENCE in this area leads to the development of sustainable and environmentally friendly FLUIDs with high levels of efficiency and low-cost risks, with the task of redirecting their environmental impact to CERO._x000D_ the physicochemical CHARACTERISTICS OF these FLUIDs variate from SIMPLE SUSPENSIONS, bundles of arcles and a clean phase (Water or OIL), stabilised with SURFACTANTS or PARTICULES. IT IS WELL KNOWN THAT, AMONG OTHER PROPERTIES, THESE FLUIDS ARE CHARACTERISED BY THEIR RHEOLOGICAL BEHAVIOR AND THEIR INTERFACIAL PROPERTIES. Thus, THE STUDY OF PROCEDURE-STRUCTURE-PROPERTY RELATIONS CAN BE THE BEST METHODOLOGY FOR DEVELOPMENTS SUSTAINABLE nanostructured FLUIDS FOR PERFORATION APPLICATIONS, Improved HYDROCARBOURS AND CO2._x000D geologic HYPOTESIS we can develop FLUIDED FOR PERFORATION/EOR/EGR use BIODEGRADABLE MATERIALS AND SUSTAINABLE AS PRINCIPLE COMPONENTS. IN ADDITION, THE REOLOGIC PROPERTIES AND STABILITY OF THESE FLUIDS CAN BE IMPROVED USING NANOPARTICULAE. _x000D_ this PROJECT is CENTREED IN THE STUDY OF THE EFFECTION OF THE SILICE AND ARCILLA nanoparticulates, BETTER OTHER, ON THE ROMAL COMPORTATION AND interfacial PROPERTY OF DIFFERENT FLUID BASE TALS AS BIOPOLIMERS SUSPENSIONS, visco-elastic DISOLUTIONS OF SURFACTANTS AND EMPULSIONS OF VEGETAL AND RECICLATE ACEITES, WHEN YOU ARE ARE TO EXTREME AND TEMPERATURE ENVIRONMENTAL ENVIRONMENTS AND TEMPERATURE, WITH THE FIN OF DESIGNING FORMULACIONS WITH MINIMO OR CERROAL IMPACT. _x000D_ this PROJECT IS DIVIDIED IN FOUR PRINCIPAL TAREAS._x000D_ 1. DEVELOPMENT OF EXPERIMENTAL SYSTEMS. The PRINCIPAL OBJECTIVE OF THIS TAREA IS DEVELOPED DISPOSITIVES FOR REOLOGIC ENSAYS, Interfacial TENsion Measurements AND FLUD STUDIES IN Porous Measurements UNDER EXTREME PRESSION AND TEMPERATURE CONDITIONS (2000BAR/300 °C)._x000D_ 2. PROCESSING AND CHARACTERISATION OF BASE FLUIDS. AT THIS STAGE WE WILL STUDY THE PROCESSING, THE RHEOLOGICAL BEHAVIOR AND THE STRUCTURE OF THE BASE FLUIDS (SUSPENSIONS AND EMULSIONS OF BIOPOLIMEROS, VEGETABLE OILS, SURFACTANTS, ETC.) WHEN THEY ARE SUBJECTED TO EXTREME TP CONDITIONS. _x000D_ 3. MODIFICATION OF THE RHEOLOGICAL BEHAVIOR OF BASE FLUIDS WITH NANOPARTICULAE. In this case we will focus on the state of the effectiveness that removes the nature and recognition of nano-particulates on the property rights of the families in the functioning of the PRESSION AND TEMPERATURE, with the OBJECTIVE OF DESIGNING FLUID MODEL WITH IMPROVED PROPERTY._x000D_ 4. Finally, THE ULTIMATE TAREA CALLS THE STUDY OF THE INTERACTION OF THE FLUIDs MODEL WITH THE MATERIALS OF THE FORMATION, INCLUDING STUDIES OF CAPILARY FLUCY AND IN POROSAL MEDIA._x000D_ the primary CONTRIBUTION OF THIS PROJECT is to manage the necessary knowledge to develop improved FLUID FLUIDS FOR PERFORATION/EOR/EGR. THIS KNOWLEDGE CAN BE USED BY INDUSTRY FOR THE DEVELOPMENT OF ENVIRONMENTALLY FRIENDLY TECHNOLOGIES AND PRODUCTS. (English)
12 October 2021
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Huelva
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Identifiers
CTQ2014-56980-R
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