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1. Numerical Modeling of Thermal EOR: Comprehensive Coupling of an AMR-Based Model of Thermal Fluid Flow and Geomechanics Modélisation numérique d’EOR thermique : couplage complet entre un modèle d’écoulement thermique basé sur une discrétisation adaptative et la géomécanique

Author

Guy N., Enchéry G., and Renard G.

Subjects
Chemical technology, TP1-1185, Energy industries. Energy policy. Fuel trade, HD9502-9502.5
Abstract

Modeling Steam Assisted Gravity Drainage (SAGD) can involve significant CPU (Central Processing Unit) time when both thermal fluid flow and geomechanics are coupled in order to take into account variations of permeability and porosity inside the reservoir due to stress changes. Here, a numerical procedure that performs thermo-hydro-mechanical simulations, in an efficient way, is presented. This procedure relies on an iterative coupling between a thermal reservoir simulator based on a finite volume method and a geomechanical one based on a finite element method. A strong feature of this procedure is that it allows handling the case when the reservoir simulations are performed using Adaptive Mesh Refinements (AMR). It thus provides an accurate description of the steam front evolution and allows taking geomechanical effects into account without performing the geomechanical simulations on a refined mesh. The efficiency of this coupling procedure is illustrated on a synthetic but realistic SAGD test case. La modélisation du procédé SAGD (Steam Assisted Gravity Drainage) peut impliquer un temps de calcul important lorsque l’écoulement thermique et la géomécanique sont couplés pour tenir compte des variations de perméabilité et de porosité à l’intérieur du réservoir induites par l’évolution des contraintes. Une procédure numérique qui effectue des simulations thermo-hydro-mécaniques, d’une manière efficace, est présentée. Cette procédure repose sur un processus de couplage itératif entre un simulateur réservoir thermique basé sur la méthode des volumes finis et un simulateur géomécanique basé sur une discrétisation par éléments finis. Une caractéristique forte de cette procédure est qu’elle permet de traiter des cas où les simulations de réservoir sont réalisées en utilisant un raffinement de maillage adaptatif. Elle fournit ainsi une description précise de l’évolution du front de vapeur d’eau et permet de prendre en compte les effets géomécaniques sans effectuer les simulations géomécaniques sur un maillage raffiné. L’efficacité de cette procédure de couplage est illustrée sur un cas SAGD synthétique mais réaliste.

Published
2013
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2. Monitoring of SAGD Process: Seismic Interpretation of Ray+Born Synthetic 4D Data Monitoring de procédé SAGD : interprétation sismique de données 4D synthétiques ray+Born

Author

Joseph C., Etienne G., Forgues E., Lerat O., Baroni A., Renard G., and Bathellier E.

Subjects
Chemical technology, TP1-1185, Energy industries. Energy policy. Fuel trade, HD9502-9502.5
Abstract

The objective of this study is to evaluate which production information can be deduced from a 4D seismic survey during the Steam-Assisted Gravity Drainage (SAGD) recovery process. Superimposed on reservoir heterogeneities of geological origin, many factors interact during thermal production of heavy oil and bitumen reservoirs, which complicate the interpretation of 4D seismic data: changes in oil viscosity, in fluid saturations, in pore pressure and so on. This study is based on the real Hangingstone field case of the McMurray formation in the Athabasca region (Canada). In previous works, an initial static model (geology, petroacoustic and geomechanical) has been constructed and a thermal production of heavy oil with two coupled fluid-flow and geomechanical models has been simulated. Seismic parameters (density, compression velocity and shear velocity) of the saturated rocks have then been computed from mechanical and reservoir parameters at several stages of the production. A repeated acquisition survey is modelled at different stages of SAGD production. This is performed using a 3D seismic modelling approach. To focus on the reflections generated within the reservoir zone, a target-oriented modelling is chosen. It is based on the ray+Born approach which permits to compute the P-wave elastic response by correctly handling the seismic amplitudes as a function of source-receiver offset. Real incoherent noise is added to the zero-phase synthetic data to produce a more realistic result. The noise-free and the noisy synthetic data are processed to get stacked and time migrated images. A simple processing workflow leads to image the steam chamber development, in particular its V-shape in radial section, and to observe time-lapse in the reservoir zone. An interpretation work is then carried out. Some seismic attributes like RMS values of amplitude changes between stages, energy, time differences of reservoir bottom between stages, etc. are computed from the synthetic (noise-free and noisy) seismic data. Some of these attributes prove to be robust to the noise and to show some production effect. Possible trends between these attributes and the modelled reservoir/geomechanical properties (lithofacies, pressure, temperature, steam saturation, etc.) are also evaluated. Finally, geobodies are extracted from the seismic attributes. L’objectif de cette étude est d’évaluer quelle information de production peut être déduite d’une campagne sismique 4D durant le procédé de récupération par injection de vapeur SAGD (Steam- Assisted Gravity Drainage). En plus des hétérogénéités réservoir d’origine géologique, de nombreux facteurs interagissent pendant la production thermique d’huile lourde et de bitume, ce qui complique l’interprétation des données sismiques 4D : variation de la viscosité de l’huile, des saturations en fluide, de la pression de pore, etc. Cette étude est basée sur le champ pétrolier Hangingstone de la formation McMurray en Athabasca (Canada). Dans des travaux antérieurs, un modèle statique initial (géologique, pétroacoustique et géomécanique) avait été construit. Puis la production thermique d’huile lourde avait été simulée en mettant en oeuvre le couplage d’un modèle d’écoulement de réservoir et d’un modèle géomécanique. Les paramètres sismiques des roches saturées (densité, vitesses de compression et de cisaillement) avaient alors été calculés à plusieurs étapes de la production à partir des paramètres mécaniques et de réservoir. À partir de ces résultats, une acquisition sismique est simulée à quatre états de production SAGD. Comme on s’intéresse aux réflexions sismiques en ondes de compression générées dans le réservoir, une modélisation sismique orientée cible est choisie. Cette modélisation est basée sur une approche ray+Born et permet de calculer la réponse sismique en estimant correctement les amplitudes sismiques en fonction de l’offset (distance source-récepteur). Pour obtenir des données plus réalistes, du bruit réel incohérent est ajouté aux données sismiques synthétiques. Les jeux de données synthétiques non bruitées et bruitées sont ensuite traités afin d’obtenir des images sismiques temps sommées et migrées. Une séquence simple de traitement sismique permet d’imager le développement de la chambre de vapeur, en particulier sa forme en V dans le plan perpendiculaire aux drains horizontaux, et d’observer des différences de temps de trajet dans la zone réservoir. Un travail d’interprétation est alors mené sur ces données sismiques synthétiques à différents états de production. Plusieurs attributs sismiques, comme les valeurs RMS des variations d’amplitude entre états, les variations de temps de trajet à la base du réservoir entre états, ou l’énergie des images sismiques à chaque état, sont calculés sur les données synthétiques non bruitées et bruitées. Quelques attributs sismiques apparaissent robustes au bruit et impactés par la production. Les relations entre ces attributs sismiques et les propriétés réservoir/géomécaniques (lithofaciès, pression, température, saturation en vapeur d’eau, etc.) sont aussi évaluées. Enfin, concernant l’interprétation sismique, des corps réservoir connectés (geobodies) sont extraits des attributs sismiques.

Published
2012
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3. An Integrated Model for Computer Aided Reservoir Description : from Outcrop Study to Fluid Flow Simulations Un logiciel intégré pour une description des gisements assistée par ordinateur : de l'étude d'un affleurement aux simulations de l'écoulement des fluides

Author

Guerillot D., Rudkiewicz J. L., Ravenne C., Renard G., and Galli A.

Subjects
Chemical technology, TP1-1185, Energy industries. Energy policy. Fuel trade, HD9502-9502.5
Abstract

An accurate understanding of the internal architecture of a reservoir is required to improve reservoir management for oil recovery. Geostatistical methods give an image of this architecture. The purpose of this paper is to show how this lithological description could be used for reservoir simulation. For this purpose, scale averaging problems must be solved for non-additive variables. A method giving a full effective permeability matrix is proposed. The integrated software described here starts from core analysis and lithologic logs to provide data for reservoir simulators. Each of the steps of this interactive and graphic system is explained here. Pour faire de bonnes prévisions de production pour un gisement pétrolifère, il est nécessaire de connaître précisément son architecture interne. Les méthodes géostatistiques donnent une représentation de cette architecture. L'objectif de cet article est de montrer une façon d'utiliser cette description lithologique pour la simulation des réservoirs. Il faut alors résoudre des problèmes de changement d'échelle pour les variables qui ne sont pas additives. On propose une méthode d'estimation de la perméabilité effective sous la forme d'une matrice pleine. Le logiciel intégré que l'on décrit part de l'analyse des carottes et des diagraphies en lithologies et fournit des données pour les simulateurs de gisement. On détaille ici chaque étape de ce système interactif graphique.

Published
2006
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12. A modified perfusion protocol for pulmonary endarterectomy in a patient with a hematologic malignancy treated with a tyrosine kinase inhibitor.

Author

Haumann, Renard G, Buys, Dedré, Hofland, Eline, Romijn, Hans WA, Kamminga, Suzanne K, Aman, Jurjan, Nossent, Esther J, and Symersky, Petr

Subjects
*PULMONARY embolism, *BLOOD vessels, *ENDARTERECTOMY, *PROTEIN-tyrosine kinase inhibitors, *HEMATOLOGIC malignancies, *COMPUTED tomography
Abstract

Tyrosine kinase inhibitors (TKI) are known to be highly effective in the treatment of various cancers with kinase-domain mutations such as chronic myelogenous leukemia. However, they have important side effects such as increased vascular permeability and pulmonary hypertension. In patients undergoing pulmonary endarterectomy with deep hypothermic circulatory arrest, these side effects may exacerbate postoperative complications such as reperfusion edema and persistent pulmonary hypertension. We report on a simple modification of the perfusion strategy to increase intravascular oncotic pressure by retrograde autologous priming and the addition of packed cells and albumin in a patient treated with a TKI. [ABSTRACT FROM AUTHOR]

Published
2023
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14. A modified perfusion protocol for pulmonary endarterectomy in a patient with a hematologic malignancy treated with a tyrosine kinase inhibitor

Author

Renard G Haumann, Dedré Buys, Eline Hofland, Hans WA Romijn, Suzanne K Kamminga, Jurjan Aman, Esther J Nossent, Petr Symersky, Anesthesiology, Pulmonary medicine, ACS - Pulmonary hypertension & thrombosis, CCA - Cancer Treatment and quality of life, and Cardio-thoracic surgery

Subjects
Advanced and Specialized Nursing, Radiology, Nuclear Medicine and imaging, General Medicine, Cardiology and Cardiovascular Medicine, Safety Research
Abstract

Tyrosine kinase inhibitors (TKI) are known to be highly effective in the treatment of various cancers with kinase-domain mutations such as chronic myelogenous leukemia. However, they have important side effects such as increased vascular permeability and pulmonary hypertension. In patients undergoing pulmonary endarterectomy with deep hypothermic circulatory arrest, these side effects may exacerbate postoperative complications such as reperfusion edema and persistent pulmonary hypertension. We report on a simple modification of the perfusion strategy to increase intravascular oncotic pressure by retrograde autologous priming and the addition of packed cells and albumin in a patient treated with a TKI.

Published
2021

22. Anticoagulation management during pulmonary endarterectomy with cardiopulmonary bypass and deep hypothermic circulatory arrest

Author

Christa Boer, Dennis Veerhoek, Suzanne K. Kamminga, Renard G Haumann, Petr Symersky, Laurentius Jm van Barneveld, Alexander B.A. Vonk, Cardio-thoracic surgery, Anesthesiology, ACS - Atherosclerosis & ischemic syndromes, ACS - Heart failure & arrhythmias, ACS - Microcirculation, IOO, ACS - Pulmonary hypertension & thrombosis, and ACS - Diabetes & metabolism

Subjects
medicine.medical_treatment, Activated clotting time, Anticoagulation management, Endarterectomy, 030204 cardiovascular system & hematology, law.invention, Pulmonary endarterectomy, 03 medical and health sciences, 0302 clinical medicine, 030202 anesthesiology, law, medicine, Cardiopulmonary bypass, Humans, Radiology, Nuclear Medicine and imaging, Blood Coagulation, Advanced and Specialized Nursing, Cardiopulmonary Bypass, medicine.diagnostic_test, business.industry, Heparin, Anticoagulants, General Medicine, medicine.disease, Pulmonary embolism, Circulatory Arrest, Deep Hypothermia Induced, Anesthesia, Deep hypothermic circulatory arrest, Cardiology and Cardiovascular Medicine, business, Safety Research, medicine.drug
Abstract

Introduction:Pulmonary endarterectomy requires cardiopulmonary bypass and deep hypothermic circulatory arrest, which may prolong the activated clotting time. We investigated whether activated clotting time–guided anticoagulation under these circumstances suppresses hemostatic activation.Methods:Individual heparin sensitivity was determined by the heparin dose–response test, and anticoagulation was monitored by the activated clotting time and heparin concentration. Perioperative hemostasis was evaluated by thromboelastometry, platelet aggregation, and several plasma coagulation markers.Results:Eighteen patients were included in this study. During cooling, tube-based activated clotting time increased from 719 (95% confidence interval = 566-872 seconds) to 1,273 (95% confidence interval = 1,136-1,410 seconds; p 240 seconds. Platelet aggregation through activation of the P2Y12 (adenosine diphosphate test) and thrombin receptor (thrombin receptor activating peptide-6 test) decreased (both −33%) and PF4 levels almost doubled (from 48 (95% confidence interval = 42-53 ng/mL) to 77 (95% confidence interval = 71-82 ng/mL); p Conclusion:This study shows a wide variation in individual heparin sensitivity in patients undergoing pulmonary endarterectomy with deep hypothermic circulatory arrest. Although activated clotting time–guided anticoagulation management may underestimate the level of anticoagulation and consequently result in a less profound inhibition of hemostatic activation, this study lacked power to detect adverse outcomes.

Published
2020

27. Evaluation of horizontal well performance after drilling-induced formation damage

Author

Ding, Y. and Renard, G.

Subjects
Engineering and manufacturing industries, Petroleum, energy and mining industries, Science and technology
Abstract

It is well recognized that near-wellbore formation damage can dramatically reduce well productivities, especially for open hole completed horizontal wells. The economic impact of poor productivity of these wells has pushed toward significant efforts in recent years to study laboratory testing techniques and numerical modeling methods for predicting and controlling drilling-induced formation damage. This paper presents an integrated approach, combining a near-wellbore modeling with laboratory experiments for data acquisition as input for the model to evaluate the performance of oil and gas wells after drilling-induced formation damage. [DOI: 10.1115/1.1924463]

Published
2005

45. Anticoagulation management during pulmonary endarterectomy with cardiopulmonary bypass and deep hypothermic circulatory arrest.

Author

Veerhoek, Dennis, van Barneveld, Laurentius JM, Haumann, Renard G, Kamminga, Suzanne K, Vonk, Alexander BA, Boer, Christa, and Symersky, Petr

Subjects
ANTICOAGULANTS, BLOOD coagulation disorders, BLOOD platelet aggregation, CARDIOPULMONARY bypass, CONFIDENCE intervals, DOSE-effect relationship in pharmacology, ENDARTERECTOMY, HEMOSTASIS, SURGICAL hemostasis, HEPARIN, HYPOTHERMIA, LONGITUDINAL method, LUNG surgery, RESEARCH, STATISTICS, T-test (Statistics), DATA analysis, TREATMENT effectiveness, DATA analysis software, DESCRIPTIVE statistics
Abstract

Introduction: Pulmonary endarterectomy requires cardiopulmonary bypass and deep hypothermic circulatory arrest, which may prolong the activated clotting time. We investigated whether activated clotting time–guided anticoagulation under these circumstances suppresses hemostatic activation. Methods: Individual heparin sensitivity was determined by the heparin dose–response test, and anticoagulation was monitored by the activated clotting time and heparin concentration. Perioperative hemostasis was evaluated by thromboelastometry, platelet aggregation, and several plasma coagulation markers. Results: Eighteen patients were included in this study. During cooling, tube-based activated clotting time increased from 719 (95% confidence interval = 566-872 seconds) to 1,273 (95% confidence interval = 1,136-1,410 seconds; p < 0.01) and the cartridge-based activated clotting time increased from 693 (95% confidence interval = 590-796 seconds) to 883 (95% confidence interval = 806-960 seconds; p < 0.01), while thrombin–antithrombin showed an eightfold increase. The heparin concentration showed a slightly declining trend during cardiopulmonary bypass. After protamine administration (protamine-to-heparin bolus ratio of 0.82 (0.71-0.90)), more than half of the patients showed an intrinsically activated coagulation test and intrinsically activated coagulation test without heparin effect clotting time >240 seconds. Platelet aggregation through activation of the P2Y12 (adenosine diphosphate test) and thrombin receptor (thrombin receptor activating peptide-6 test) decreased (both −33%) and PF4 levels almost doubled (from 48 (95% confidence interval = 42-53 ng/mL) to 77 (95% confidence interval = 71-82 ng/mL); p < 0.01) between weaning from cardiopulmonary bypass and 3 minutes after protamine administration. Conclusion: This study shows a wide variation in individual heparin sensitivity in patients undergoing pulmonary endarterectomy with deep hypothermic circulatory arrest. Although activated clotting time–guided anticoagulation management may underestimate the level of anticoagulation and consequently result in a less profound inhibition of hemostatic activation, this study lacked power to detect adverse outcomes. [ABSTRACT FROM AUTHOR]

Published
2021
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46. Goal-directed perfusion to reduce acute kidney injury: A randomized trial

Author

Ranucci, Marco, primary, Johnson, Ian, additional, Willcox, Timothy, additional, Baker, Robert A., additional, Boer, Christa, additional, Baumann, Andreas, additional, Justison, George A., additional, de Somer, Filip, additional, Exton, Paul, additional, Agarwal, Seema, additional, Parke, Rachael, additional, Newland, Richard F., additional, Haumann, Renard G., additional, Buchwald, Dirk, additional, Weitzel, Nathaen, additional, Venkateswaran, Rajamiyer, additional, Ambrogi, Federico, additional, and Pistuddi, Valeria, additional

Published
2018
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