The invention relates to a photovoltaic plant (100) comprising: at least one photovoltaic module (1), including at least one junction box (13) placed on a front face of the photovoltaic module (1), via which face the solar rays enter, in proximity to a peripheral edge (4) of said photovoltaic module (1), and at least one DC current cable (15, 17) that conveys the current generated by the at least one photovoltaic module (1), characterized in that it furthermore comprises a protective sheath (5) that is placed, on the front face of the photovoltaic module (1), encircling the junction box (13) and the DC current cable (15, 17), said protective sheath (5) having a cross-section the height of which corresponds at least to the height of the junction box (13) and including a window (57) that is located in the face of the protective sheath (5) that makes contact with the photovoltaic module (1), via which window the junction box (13) protrudes from the protective sheath (5), and a closable longitudinal aperture (51) allowing the junction box (13) and the DC current cable (15, 17) to be accessed.
H02S 40/36 - Composants électriques caractérisés par des moyens d'interconnexions électriques spéciaux entre plusieurs modules PV, p. ex. connexion électrique module à module
H01B 7/17 - Protection contre les dommages provoqués par des facteurs extérieurs, p. ex. gaines ou armatures
H02S 40/34 - Composants électriques comprenant une connexion électrique structurellement associée au module PV, p. ex. boîtes de jonction
2.
METHOD AND ELECTRONIC SYSTEM FOR PREDICTING VALUE(S) OF A QUANTITY RELATIVE TO A DEVICE, RELATED OPERATING METHOD AND COMPUTER PROGRAM
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (France)
ECOLE POLYTECHNIQUE (France)
Inventeur(s)
Bertoncello, Antoine
Acharki, Naoufal
Garnier, Josselin
Abrégé
This method for predicting value(s) of a quantity relative to a target device is implemented by an electronic prediction system and comprises the following steps: - training (100) a prediction probabilistic model, said training (100) including: + receiving (200) measured values of the quantity for N devices, N > 1, + calculating (210) predicted values of the quantity for said N devices with the prediction probabilistic model, + computing (220) a criteria based on the measured values and on the predicted values, + modifying (230) model parameter(s) of the prediction probabilistic model according to the computed criteria, + updating (270) the prediction probabilistic model with the modified model parameter(s), - predicting (110) value(s) of the quantity relative to the target device with the trained prediction probabilistic model; wherein the criteria depends on a predefined distribution quantile.
Investigating the permeability and porosity of geological samples is a routine element of geological studies, and is of particular interest in the oil and gas industry. Core-flood experiments are commonly performed on rock samples to measure transport characteristics in the laboratory. This disclosure reports the design and implementation of a high resolution distributed pressure measurement system for core-flood experiments. A series of microfabricated pressure sensors can be embedded in bolts that are housed within the pressurized polymer sheath that encases a rock core. A feedthrough technology has been developed to provide lead transfer between the sensors and system electronics across a 230-bar pressure difference. The system has been successfully benchtop tested with fluids such as synthetic oil and/or gas. Pressure measurements were recorded over a dynamic range of 20 bar with a resolution as small as 0.3 mbar.
G01N 15/08 - Recherche de la perméabilité, du volume des pores ou de l'aire superficielle des matériaux poreux
G01L 15/00 - Dispositifs ou appareils pour la mesure simultanée de plusieurs valeurs de la pression des fluides
G01L 19/00 - Détails ou accessoires des appareils pour la mesure de la pression permanente ou quasi permanente d'un milieu fluent dans la mesure où ces détails ou accessoires ne sont pas particuliers à des types particuliers de manomètres
The present disclosure relates to an RHO-type zeolite comprising caesium and M1 wherein M1 is selected from Na and/or Li remarkable in that it has a Si/Al molar ratio comprised between 1.2 and 3.0 as determined by 29Si magic angle spinning nuclear magnetic resonance, in that the RHO-type zeolite has a specific surface area comprised between 40 m2g−1 and 250 m2g−1 as determined by N2 adsorption measurements, in that the RHO-type zeolite being in the form of one or more nanoparticles with an average crystal size comprised between 10 nm and 400 nm as determined by scanning electron microscopy wherein said nanoparticles form monodispersed nanocrystals or form aggregates of nanocrystals having an average size ranging from 100 nm to 500 nm, as determined by scanning electron microscopy. Amorphous precursors, devoid of an organic structure-directing agent, as well as a method for preparation of these amorphous precursors in the absence of such organic structure-directing agent and method for preparation of the RHO-type zeolites, are alos described. Finally, the use of the RHO-type zeolite as a sorbent for carbon dioxide is also demonstrated.
B01D 53/02 - Séparation de gaz ou de vapeursRécupération de vapeurs de solvants volatils dans les gazÉpuration chimique ou biologique des gaz résiduaires, p. ex. gaz d'échappement des moteurs à combustion, fumées, vapeurs, gaz de combustion ou aérosols par adsorption, p. ex. chromatographie préparatoire en phase gazeuse
5.
METHOD AND SYSTEM FOR ESTIMATING A DEPTH PRESSURE AND/OR PERMEABILITY PROFILE OF A GEOLOGICAL FORMATION HAVING A WELL
The present disclosure relates to a method (50) for estimating a depth pressure and/or permeability profile of a geological formation having a well extending between a first end (11) and a second end (12), said method comprising equipping (51) the well with an inner tube (21) defining an inner space (15) and an annular space (16), and comprising: - (52) performing a first well closing phase by injecting a second fluid having a higher viscosity than a first fluid in the well while extracting under a first constant pressure value; - (53) performing a second well closing phase by injecting the second fluid while extracting the first fluid under a second constant pressure value, different from the first constant pressure value; - (54) estimating the depth pressure and/or permeability profile of the geological formation based on measurements performed during the first well closing phase and the second well closing phase.
E21B 49/00 - Test pour déterminer la nature des parois des trous de forageEssais de couchesProcédés ou appareils pour prélever des échantillons du terrain ou de fluides en provenance des puits, spécialement adaptés au forage du sol ou aux puits
G01V 9/00 - Prospection ou détection par des procédés non prévus dans les groupes
In various aspects, the present disclosure provides an example autonomous microsystem for immersion into a fluid. The autonomous microsystem includes electronics, a power source, and a packaging system that surrounds the electronics and the power source. The electronics can be configured to sense and record one or more environmental conditions. The packaging system may include a deformable shell that defines an internal space and a plurality of filler particles disposed in the internal space and configured to control a density of the autonomous microsystem in relation to the fluid. The filler particles may comprise a low-density material having a bulk density greater than or equal to about 100 kg/m3and less than or equal to about 1,000 kg/m3and have a packing density greater than or equal to about 1011/m3and less than or equal to about 1021/m3.
F16L 55/26 - Hérissons ou chariots, c.-à-d. dispositifs pouvant se déplacer dans un tuyau ou dans une conduite et portant ou non un moyen de propulsion autonome
F16L 55/32 - Moyens de propulsion autonomes portés par le hérisson ou le chariot
E21B 47/06 - Mesure de la température ou de la pression
7.
Copper-iron-based catalytic composition comprising zeolites, method for producing such catalytic composition and process using such catalytic composition for the conversion of syngas to higher alcohols
The present disclosure relates to a catalyst composition comprising copper and iron on a support for use in a process for the synthesis of higher alcohols from a syngas feed stream comprising hydrogen and carbon monoxide, the catalyst composition being remarkable in that the support is one or more zeolite, in that the total content of iron and copper is ranging from 1 to 10 wt. % based on the total weight of the catalyst composition and as determined by inductively coupled plasma optical emission spectroscopy, in that the Cu/Fe bulk molar ratio is ranging from 1.1:1.0 to 5.0:1.0 as determined by XRF spectroscopy.
B01J 23/78 - Catalyseurs contenant des métaux, oxydes ou hydroxydes métalliques non prévus dans le groupe du cuivre ou des métaux du groupe du fer en combinaison avec des métaux, oxydes ou hydroxydes prévus dans les groupes avec des métaux alcalins ou alcalino-terreux ou du béryllium
B01J 35/02 - Catalyseurs caractérisés par leur forme ou leurs propriétés physiques, en général solides
B01J 35/10 - Catalyseurs caractérisés par leur forme ou leurs propriétés physiques, en général solides caractérisés par leurs propriétés de surface ou leur porosité
B01J 37/02 - Imprégnation, revêtement ou précipitation
C07C 29/156 - Préparation de composés comportant des groupes hydroxyle ou O-métal liés à un atome de carbone ne faisant pas partie d'un cycle aromatique à six chaînons par réduction exclusivement des oxydes de carbone avec de l'hydrogène ou des gaz contenant de l'hydrogène caractérisée par le catalyseur utilisé contenant des métaux du groupe du fer, des métaux du groupe du platine, ou leurs composés
8.
TWO TERMINAL PEROVSKITE / SILICON TANDEM SOLAR CELL AND ASSOCIATED MANUFACTURING METHOD
L'AIR LIQUIDE SOCIETE ANONYME POUR L'ETUDE ET L'EXPLOITATION DES PROCEDES GEORGES CLAUDE (France)
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (France)
ECOLE POLYTECHNIQUE (France)
INSTITUT PHOTOVOLTAIQUE D'ILE DE FRANCE (France)
Inventeur(s)
Schulz, Philip
Huang, Yong
Abrégé
The present invention refers to a two terminal tandem cell (1) comprising: - a silicon bottom cell (2) comprising a silicon layer (5), a rear contact (3) configured to be linked to a first terminal and a front contact (7), - a perovskite top cell (4) comprising a layer of perovskite (15) and a capping layer (17), wherein the perovskite top cell comprises alternated back contacts made by a first carrier transport layer (9) arranged on the front contact (7) of the silicon bottom cell (2) to produce a recombination layer and a tunnel junction interface and a second carrier transport layer (13) configured to be linked to a second terminal and wherein an insulator layer (11) is arranged on one side between the silicon bottom cell (2) and the second carrier transport layer (13) and on the other side between the first carrier transport layer (9) and the second transport layer (13).
H01L 31/078 - Dispositifs à semi-conducteurs sensibles aux rayons infrarouges, à la lumière, au rayonnement électromagnétique d'ondes plus courtes, ou au rayonnement corpusculaire, et spécialement adaptés, soit comme convertisseurs de l'énergie dudit rayonnement e; Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives; Leurs détails adaptés comme dispositifs de conversion photovoltaïque [PV] caractérisés par au moins une barrière de potentiel ou une barrière de surface comprenant des barrières de potentiel de type différent couvertes par plusieurs des groupes
H01L 51/42 - Dispositifs à l'état solide qui utilisent des matériaux organiques comme partie active, ou qui utilisent comme partie active une combinaison de matériaux organiques et d'autres matériaux; Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de tels dispositifs ou de leurs parties constitutives spécialement adaptés, soit comme convertisseurs de l'énergie dudit rayonnement en énergie électrique, soit comme dispositifs de commande de l'énergie électrique par ledit rayonnement
9.
INTERVAL ESTIMATION FOR STATE-OF-CHARGE AND TEMPERATURE IN BATTERY PACKS WITH HETEROGENEOUS CELLS
An interval observer based on an equivalent circuit-thermal model for lithium-ion batteries is presented. State of charge-temperature-dependent parameters are considered as unknown but bounded uncertainties in a single cell model. A parallel and a series arrangement of five cells are used for observer design, where cell heterogeneity is accounted for through the uncertainty bounding functions.
The invention notably relates to a computer-implemented method of water management for an industrial site, the method comprising collecting, via user-interaction, data related to one or more exploitation scenarios of the industrial site, for each respective exploitation scenario, computing, automatically by a computer system and based on the collected data, for each indicator of a plurality of indicators, a respective indicator value, the plurality of indicators comprising a first group of one or more water risk assessment indicators and a second group of one or more environmental footprint indicators, and displaying, simultaneously on a display of the computer system, a plurality of graphical representations including for the indicator value of each indicator of the first group and the second group, a respective graphical representation. The invention improves water management for an industrial site.
G06F 16/26 - Exploration de données visuellesNavigation dans des données structurées
G06Q 10/06 - Ressources, gestion de tâches, des ressources humaines ou de projetsPlanification d’entreprise ou d’organisationModélisation d’entreprise ou d’organisation
G06Q 10/0635 - Analyse des risques liés aux activités d’entreprises ou d’organisations
G06Q 10/067 - Modélisation d’entreprise ou d’organisation
G06Q 30/018 - Certification d’entreprises ou de produits
G06T 11/20 - Traçage à partir d'éléments de base, p. ex. de lignes ou de cercles
C02F 103/10 - Nature de l'eau, des eaux résiduaires ou des eaux ou boues d'égout à traiter provenant de carrières ou d'activités minières
G06Q 10/30 - Administration du recyclage ou de l’élimination des produits
The disclosure relates in its first aspect to a process for converting methane into chemicals. The process comprises the steps of (a) providing a first stream (1; 7) comprising methane; (b) providing a second stream (13) which is an oxygen-rich stream; (c) contacting said first stream (1; 7) with said second stream (13) under oxidation reaction conditions to obtain a third stream (15) comprising chemicals and water; (d) performing at least one separation step on said third stream (15) to recover a water stream (21) and a fourth stream (39) comprising chemicals; (e) subjecting said water stream (21) to an oxidation reaction under first reaction conditions to produce at least an oxygen stream (29), wherein the oxygen stream (29) is recycled into the second stream (13). In its second aspect, the disclosure relates to an installation for working the process of the first aspect.
The invention relates to a photovoltaic module (2) comprising a front bonding layer (4) to photovoltaic cells (6) are attached, such that the front side of each photovoltaic cell (6) is attached to the front bonding layer (4). The photovoltaic module (2) further comprises an open container (10) containing a dielectric heat transfer fluid (12). The container (10) comprises a bottom wall (14) and side walls (16) wherein the front bonding layer (4) is disposed on top of the open container (10) in order to close the container (10) such that at least part of the backside (6a) of each photovoltaic cell (6) is in contact with the dielectric heat transfer fluid (12).
H02S 40/44 - Moyens pour utiliser l’énergie thermique, p. ex. systèmes hybrides produisant de l’eau chaude et de l’électricité en même temps
H01L 31/052 - Moyens de refroidissement directement associés ou intégrés à la cellule PV, p.ex. éléments Peltier intégrés pour refroidissement actif ou puits thermiques directement associés aux cellules PV
13.
METHOD AND ELECTRONIC DEVICE FOR DETERMINING A SET OF VALUE(S) RELATED TO AT LEAST ONE SAMPLE USING AN ASSOCIATED SPECTROMETRY DEVICE, COMPUTER PROGRAM, AND MEASUREMENT SYSTEM
This method for determining a set of one or more values related to at least one sample using a spectrometry device is implemented by an electronic determination device suitable for being connected to the spectrometry device and comprises the acquisition (100) of a temporal curve of the ion flow of each sample, the curve of the ion flow being obtained with the spectrometry device via a measurement procedure comprising starting the measurement, then inserting each sample into an ionization source of the spectrometry device, and stopping the measurement; and determining (120) the set of one or more values related to each sample using the curve of the ion flow of the respective sample. The method further comprises, prior to the determination (120) and for each sample, estimating (110) a time of insertion of the respective sample into the ionization source, using the ion flow curve; and during the determination (120), at least one value is determined in addition according to the estimated time of insertion.
The disclosure relates in its first aspect to a process for converting a stream comprising methane into methanol. Said process comprises the steps of (a) providing a first stream (1, 7) comprising methane; (b) providing a second stream (13) comprising oxygen; (c) contacting said first stream (1, 7) with said second stream (13) under oxidation reaction conditions to obtain a third stream (15) comprising at least methanol and water; (d) separating water from said third stream (15) to recover a water stream (21; 33) and a fourth stream (49) comprising methanol; (e) subjecting at least a part of said water stream (21; 33) from step (d) to an electrolysis step to produce said second stream (13) and a hydrogen stream (43); and optionally, (f) recovering methanol from said fourth stream (49). The second aspect of the disclosure relates to an installation for carrying out the process of the first aspect.
C07C 29/50 - Préparation de composés comportant des groupes hydroxyle ou O-métal liés à un atome de carbone ne faisant pas partie d'un cycle aromatique à six chaînons par des réactions d'oxydation avec formation de groupes hydroxyle uniquement par l'oxygène moléculaire
The method comprises: - feeding solid polymer particles and water to a dynamic mixer (56) having a rotor; - wetting and at least partially dissolving the solid polymer particles in water in the dynamic mixer (56) to produce a mother solution; - agitating the mother solution in at least two successive tanks (80, 84, 86) to obtain a matured mother solution; - diluting the matured mother solution with water to obtain the viscosified water; Water fed to the dynamic mixer (56) is a low salinity water having a salinity smaller than 3 g/l, the mother solution produced in the dynamic mixer having a temperature greater than 40°C, and a polymer concentration greater than 15 g/L, in particular greater than 19 g/L.
C09K 8/588 - Compositions pour les méthodes de récupération assistée pour l'extraction d'hydrocarbures, c.-à-d. pour améliorer la mobilité de l'huile, p. ex. fluides de déplacement caractérisées par l'utilisation de polymères spécifiques
B01F 3/12 - Mélange, p.ex. dispersion, émulsion, selon les phases à mélanger de liquides avec des solides
C08J 3/05 - Production de solutions, dispersions, latex ou gel par d'autres procédés que ceux utilisant les techniques de polymérisation en solution, en émulsion ou en suspension dans un milieux aqueux à partir de polymères solides
E21B 43/16 - Procédés de récupération assistée pour l'extraction d'hydrocarbures
16.
METHOD FOR CALCULATING A FLOW OF AT LEAST A FIRST GAS EMITTED BY A SOURCE INTO THE ATMOSPHERE, USING A SECOND TRACER GAS, AND ASSOCIATED METHOD, SYSTEM AND KIT
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (France)
UNIVERSITE DE REIMS CHAMPAGNE-ARDENNE (France)
Inventeur(s)
Donnat, Ludovic
Duclaux, Olivier
Abrégé
The method comprises the following steps: - obtaining first data representative of a first gas content, and second data representative of contents of a second tracer gas emitted by the source (14) together with the first gas, - calculating at least one coefficient of correlation between the first gas contents and the second gas contents from the first representative data and the second representative data; - obtaining a measured or calculated flow of second gas emitted by the source (14); - calculating a flow of first gas emitted by the source (14), on the basis of the measured or calculated flow of second gas emitted by the source (14) and the correlation coefficient.
G01N 33/00 - Recherche ou analyse des matériaux par des méthodes spécifiques non couvertes par les groupes
B64C 39/02 - Aéronefs non prévus ailleurs caractérisés par un emploi spécial
G16C 20/30 - Prévision des propriétés des composés, des compositions ou des mélanges chimiques
G16C 60/00 - Science informatique des matériaux, c.-à-d. TIC spécialement adaptées à la recherche des propriétés physiques ou chimiques de matériaux ou de phénomènes associés à leur conception, synthèse, traitement, caractérisation ou utilisation
17.
METHOD TO PLUG AND ABANDON A WELL THROUGH TUBING WITH CONTROL LINES IN PLACE
The present disclosure provides a method to plug a well, wherein the well comprises a tubing (201), a casing (202), and an assembly comprising at least one control line (401, 402) located between the tubing (201) and the casing (202), and wherein the method comprises the following steps: /a/ detecting (701) azimuthal positional characteristics of the assembly; /b/ creating (702) a plurality of apertures (207) in the tubing (201) based on the azimuthal positional characteristics of the assembly to simultaneously sever the assembly; /c/ filling (703) a space between the tubing (201) and the casing (202) with a filling material enclosing at least a part of the severed assembly.
The present disclosure relates to a method (50) for estimating an injection profile in function of the depth of a well (10), comprises performing, the well being initially filled with an initial fluid: - a well closing phase (51 ) wherein a first fluid is injected at a first end of the well until said first fluid reaches a second end of the well, said first fluid having a higher viscosity than the initial fluid; - a well opening phase (52) wherein a second fluid is injected at the first end until said second fluid reaches the second end, said first fluid having a higher viscosity than the second fluid; - wherein the method comprises measuring (511, 521) at least one temporal injection profile and estimating (53) the depth injection profile of the well based on the at least one temporal injection profile.
E21B 49/00 - Test pour déterminer la nature des parois des trous de forageEssais de couchesProcédés ou appareils pour prélever des échantillons du terrain ou de fluides en provenance des puits, spécialement adaptés au forage du sol ou aux puits
19.
METHOD FOR CALCULATING A STREAM OF AT LEAST ONE GAS EMITTED BY A SOURCE INTO THE ATMOSPHERE, MEASUREMENT METHOD, AND ASSOCIATED SYSTEM AND KIT
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (France)
UNIVERSITE DE REIMS CHAMPAGNE-ARDENNE (France)
Inventeur(s)
Donnat, Ludovic
Duclaux, Olivier
Abrégé
This method includes the following steps: - recovering data on the contents of at least one gas measured in the atmosphere away from the source (14) along a plurality of lines parallel to a first direction; - integrating the contents recorded on each line along the first direction to obtain an overall content integrated on each line; - integrating the product of the overall contents integrated on each line by a wind speed present on the line in a second direction perpendicular to the first direction to obtain a crude gas stream; - determining the gas stream emitted by the source (14) from the crude gas stream.
The present application relates to the use of a bituminous adhesive binder comprising at least one organogelator additive, for attaching photovoltaic modules, in particular lightweight modules.
The present disclosure relates in its first aspect to a process of converting a stream comprising methane into chemicals, said process being remarkable in that it comprises the steps of providing a first stream (1, 5, 11) comprising methane, providing a second stream (79) which is a bromine-rich stream, putting into contact said first stream (15) with said second stream (79) to obtain a third stream (21) comprising at least unreacted methane, methyl bromide, dibromomethane, and hydrogen bromide and removing said dibromomethane from said third stream (21), to produce a dibromomethane stream (103) and a fourth stream (27) comprising unreacted methane, methyl bromide and hydrogen bromide; wherein the fourth stream (27) is converted into chemicals. In its second aspect, the present disclosure concerns an installation for carrying out the process of the first aspect.
C07C 17/10 - Préparation d'hydrocarbures halogénés par remplacement par des halogènes d'atomes d'hydrogène
C07C 17/383 - SéparationPurificationStabilisationEmploi d'additifs par distillation
C07C 19/075 - Composés acycliques saturés contenant des atomes d'halogène contenant du brome
C07C 1/26 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir de composés organiques ne renfermant que des atomes d'halogènes en tant qu'hétéro-atomes
The present disclosure relates in its first aspect to a process for converting a stream comprising methane into chemicals, said process is remarkable in that it comprises the steps of providing a first stream (1, 5, 11) comprising methane, providing a second stream (79) which is a bromine-rich stream, putting into contact said first stream (15) with said second stream (79) to obtain a third stream (21) comprising at least unreacted methane, methyl bromide, dibromomethane, and hydrogen bromide, removing said dibromomethane from said third stream (21), to produce a dibromomethane stream (103) and a fourth stream (27) comprising unreacted methane, methyl bromide and hydrogen bromide which is converted into chemicals, and separating hydrogen bromide said fourth stream (27), to provide a hydrogen bromide-rich stream. In its second aspect, the present disclosure concerns an installation for carrying out the process of the first aspect.
C07C 17/10 - Préparation d'hydrocarbures halogénés par remplacement par des halogènes d'atomes d'hydrogène
C07C 17/383 - SéparationPurificationStabilisationEmploi d'additifs par distillation
C07C 19/075 - Composés acycliques saturés contenant des atomes d'halogène contenant du brome
C07C 1/26 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir de composés organiques ne renfermant que des atomes d'halogènes en tant qu'hétéro-atomes
C10G 50/00 - Production de mélanges d'hydrocarbures liquides à partir d'hydrocarbures à nombre inférieur d'atomes de carbone, p. ex. par oligomérisation
The disclosure relates in its first aspect to a process of conversion of a gaseous stream comprising methane into hydrogen (51) and carbon (25), the process is remarkable in that it comprises a step (a) of providing a first gaseous stream (3, 7); a step (b) of bromination and synthesis in which the first gaseous stream (3, 7) is put in contact with a second stream (53) comprising bromine resulting in the formation of a third stream (15) comprising methyl bromides and hydrogen bromide, and of a fourth stream (25) comprising carbon including graphite and/or carbon black; a step (c) of separation performed on the third stream (15) to recover a hydrogen bromide-rich stream (41) which is then oxidized in a step (d) to produce a stream (51) comprising hydrogen. The second aspect relates to the installation for performing the process of the first aspect and the third aspect concerns the use of bromine in such process.
The present disclosure relates in its first aspect to a process of conversion of a stream comprising methane into chemicals, said process being remarkable in that it comprises the steps of providing a first stream (1, 5, 11, 15) comprising methane, providing a second stream (69) which is a hydrogen bromide-rich stream, putting into contact said first stream (15) with said second stream (69) under electrolytic bromination conditions to obtain a hydrogen stream (75) and a third stream (21) comprising at least unreacted methane, unreacted hydrogen bromide, methyl bromide and dibromomethane, and removing said dibromomethane from said third stream (21), to produce a dibromomethane stream (103) and a fourth stream (27) comprising unreacted methane, methyl bromide and unreacted hydrogen bromide; wherein the fourth stream (27) is converted into chemicals. In its second aspect, the present disclosure concerns an installation for carrying out the process of the first aspect.
C07C 17/10 - Préparation d'hydrocarbures halogénés par remplacement par des halogènes d'atomes d'hydrogène
C07C 19/075 - Composés acycliques saturés contenant des atomes d'halogène contenant du brome
C07C 1/26 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir de composés organiques ne renfermant que des atomes d'halogènes en tant qu'hétéro-atomes
C10G 57/02 - Traitement des huiles d'hydrocarbures, en l'absence d'hydrogène, par au moins un procédé de craquage ou de raffinage et au moins un autre procédé de conversion avec polymérisation
C25B 3/00 - Production électrolytique de composés organiques
The disclosure concerns a process for the conversion of methane into olefins, comprising the steps of (a) providing a first stream (3) containing CH4, HCl and O2; (b) providing a first and second catalyst composition; (c) putting in contact the first stream (3) with the first catalyst composition to produce a second stream (7); (d) optionally removing the water from the second stream (7) if any; (e) putting in contact the second stream (7) with the second catalyst composition to produce a third stream (11) comprising olefins and hydrogen chloride; (f) recovering the third stream (11). The process is remarkable in that between the step (c) and (e) no further separation step is performed apart from the optional step (d). The disclosure concerns an installation to conduct such a process.
C07C 1/26 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir de composés organiques ne renfermant que des atomes d'halogènes en tant qu'hétéro-atomes
C07C 17/154 - Préparation d'hydrocarbures halogénés par remplacement par des halogènes avec l'oxygène comme réactif auxiliaire, p. ex. oxychloruration d'hydrocarbures d'hydrocarbures saturés
C01B 37/00 - Composés ayant des propriétés de tamis moléculaires mais n'ayant pas de propriétés d'échangeurs de base
B01J 29/035 - Polymorphes de silice cristallins, p. ex. silicalites
B01J 29/48 - Zéolites aluminosilicates cristallinesLeurs composés isomorphes du type pentasil, p. ex. types ZSM-5, ZSM-8 ou ZSM-11 contenant de l'arsenic, de l'antimoine, du bismuth, du vanadium, du niobium, du tantale, du polonium, du chrome, du molybdène, du tungstène, du manganèse, du technétium ou du rhénium
C07C 6/04 - Réactions de métathèse sur une liaison carbone-carbone non saturée sur une double liaison carbone-carbone
26.
DRONE FOR MEASURING DATA REPRESENTATIVE OF THE CONTENT OF AT LEAST TWO GASES PRESENT IN THE ATMOSPHERE AWAY FROM THE GROUND AND ASSOCIATED MEASUREMENT METHOD
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (France)
UNIVERSITE DE REIMS CHAMPAGNE-ARDENNE (France)
Inventeur(s)
Donnat, Ludovic
Maunoury, Abel
Joly, Lilian
Decarpenterie, Thomas
Burgalat, Jérémie
Chauvin, Nicolas
Albora, Grégory
Dumelie, Nicolas
Cousin, Julien
Abrégé
Said drone (10) comprises a sensor (40) for measuring representative data, comprising at least one measuring cell open to the atmosphere, at least one first laser source able to inject, into the measuring cell, a first laser beam to a first wavelength characteristic of a first gas to be detected and a second laser source able to inject, into the measuring cell, a second laser beam at a second wavelength characteristic of a second gas to be detected. The measuring sensor (40) comprises a detector common to the two laser sources able to pick up a first measuring signal from the measuring cell resulting from the injection of the first laser beam into the measuring cell and a second measuring signal from the measuring cell resulting from the injection of the second laser beam into the measuring cell.
G01N 21/85 - Analyse des fluides ou solides granulés en mouvement
G01N 21/31 - CouleurPropriétés spectrales, c.-à-d. comparaison de l'effet du matériau sur la lumière pour plusieurs longueurs d'ondes ou plusieurs bandes de longueurs d'ondes différentes en recherchant l'effet relatif du matériau pour les longueurs d'ondes caractéristiques d'éléments ou de molécules spécifiques, p. ex. spectrométrie d'absorption atomique
G01N 21/35 - CouleurPropriétés spectrales, c.-à-d. comparaison de l'effet du matériau sur la lumière pour plusieurs longueurs d'ondes ou plusieurs bandes de longueurs d'ondes différentes en recherchant l'effet relatif du matériau pour les longueurs d'ondes caractéristiques d'éléments ou de molécules spécifiques, p. ex. spectrométrie d'absorption atomique en utilisant la lumière infrarouge
G01N 21/3504 - CouleurPropriétés spectrales, c.-à-d. comparaison de l'effet du matériau sur la lumière pour plusieurs longueurs d'ondes ou plusieurs bandes de longueurs d'ondes différentes en recherchant l'effet relatif du matériau pour les longueurs d'ondes caractéristiques d'éléments ou de molécules spécifiques, p. ex. spectrométrie d'absorption atomique en utilisant la lumière infrarouge pour l'analyse des gaz, p. ex. analyse de mélanges de gaz
27.
METHOD FOR PREDICTING CLOGGING OF DISTILLATION COLUMN(S) IN A REFINERY, COMPUTER PROGRAM AND ASSOCIATED PREDICTION SYSTEM
The invention relates to a method (38) for predicting clogging of a distillation column using machine learning, comprising: - a phase of constructing and training (40) a machine learning module obtained from previously collected data, and a set of sensors, - an operational phase (42) of predicting clogging comprising: - collecting (56) a current data stream until a buffer is filled, - preprocessing (64) data from the data buffer through predetermined purging and classification, - synchronising (66) data in the current set of purged and classified data, - determining (70) a current variable value that is representative of at least a current performance of the at least one distillation column, - forming (72) a current set of transformed data by calculating predetermined derivatives, - predicting (74) the current state of the distillation column by applying the learning module to the current set of transformed data.
The invention relates to a method for assessing an enhanced oil recovery process based on the injection of at least one enhanced oil recovery fluid,in a subterranean formation, said method comprising: - providing a well in the subterranean formation; - injecting an aqueous solution into the subterranean formation from an injection location in the well; - injecting the at least one enhanced oil recovery fluid into the subterranean formation from the injection location in the well, so as to displace at least part of the aqueous solution; - coring the subterranean formation from the injection location in the well, so as to collect a core comprising a flood front of the at least one enhanced oil recovery fluid and a flood front of the displaced aqueous solution and to create a cored hole in the subterranean formation; and - analyzing the collected core, so as to obtain core data,and/or logging the subterranean formation from the cored hole, so as to obtain logging data.
C09K 8/58 - Compositions pour les méthodes de récupération assistée pour l'extraction d'hydrocarbures, c.-à-d. pour améliorer la mobilité de l'huile, p. ex. fluides de déplacement
E21B 47/00 - Relevés dans les trous de forage ou dans les puits
G01V 3/18 - Prospection ou détection électrique ou magnétiqueMesure des caractéristiques du champ magnétique de la terre, p. ex. de la déclinaison ou de la déviation spécialement adaptée au carottage
29.
USE OF COMPOSITE MATERIALS IN THE MANUFACTURE OF ELECTRICAL HEATING PANELS, PROCESS OF PRODUCTION AND ELECTRICAL HEATING PANELS THEREOF
The disclosure relates to the use of a composite material as electro-thermal material in a process for the production of an electrical heating panel, wherein the electrical heating panel comprises at least one device selected from a plate, a sheet or a film, wherein said device has one or more layers wherein at least one layer is a heating layer made of a composite material comprising a first polymer which is one or more amorphous polymers or one or more semi-crystalline polymers selected from polyethylene and/or polypropylene; and from 2.0 to 20.0 wt.% of carbon particles and wherein the heating layer or at least one heating layer has a thickness ranging from 100 μm to 4.0 mm. The disclosure also relates to the use of such electrical heating panel in a motor vehicle.
H05B 3/14 - Éléments chauffants caractérisés par la composition ou la nature des matériaux ou par la disposition du conducteur caractérisés par la composition ou la nature du matériau conducteur le matériau étant non métallique
H05B 3/34 - Éléments chauffants ayant une surface s'étendant essentiellement dans deux dimensions, p. ex. plaques chauffantes flexibles, p. ex. grillages ou tissus chauffants
30.
AN AIRBORNE PLATFORM COMPRISING AN ELECTRICAL CHARGING SYSTEM, RELATED ASSEMBLIES AND METHODS
The invention relates to an airborne platform (10) comprising a main body (20) configured for flying over a region of interest (12) and an electrical charging system (22) fixed to the main body (20) and located outside of the main body (20). The electrical charging system (22) comprising at least one induction coil (24) intended to remotely charge at least one battery (25) of at least one apparatus (26).
The invention relates to a process for well completion in a hydrocarbon reservoir. The hydrocarbon reservoir has one or more wellbores. The process includes a computer-implemented method. The method comprises providing a geological simulation grid representing the hydrocarbon reservoir. The method further comprises providing the one or more wellbores. The method further comprises providing a flow simulator. The flow simulator takes as inputs the geological simulation grid and a distribution of inflow devices in the one or more wellbores. The method further comprises providing an objective function of which evaluation includes an application of the flow simulator. The method further comprises optimizing the objective function to determine an optimal distribution of the inflow devices. The optimization is performed according to a covariance matrix adaptation evolution strategy (CMA-ES). This constitutes an improved process for well completion.
E21B 43/12 - Procédés ou appareils pour commander l'écoulement du fluide extrait vers ou dans les puits
E21B 43/14 - Extraction d'un puits à horizons multiples
E21B 41/00 - Matériel ou accessoires non couverts par les groupes
32.
A MARINE ACQUISITION SYSTEM FOR ACQUIRING AT LEAST ONE PHYSICAL AND/OR CHEMICAL PARAMETER OF A REGION OF INTEREST OF A BODY OF WATER AND ASSOCIATED METHOD
The present invention relates to a marine acquisition system (14) for acquiring at least one physical and/or chemical parameter of a region of interest (10) of a body of water (12), the system (14) being intended to be towed by a vessel (24) on the body of water (12), the system (14) comprising: - at least one buoy (16) intended to be towed by the vessel (24), the buoy (16) being intended to float over a surface (18) of the body of water (12), - at least one underwater device (20) connected to the buoy (16) with a cable (22), the underwater device (20) being intended to be maintained under the surface (18) of the body of water (12), the underwater device (20) comprising at least one sensor (48) for sensing a physical and/or a chemical parameter of the region of interest (10).
The invention concerns a photovoltaic facility (1) characterized in that it comprises a sealing tarpaulin (3) for at least partially covering a waste heap, and at least two flexible photovoltaic modules (4) comprising photovoltaic cells (5) made of monocrystalline or multicrystalline silicon, the at least two flexible photovoltaic modules (4) being connected together and secured on the sealing tarpaulin (3) by bonding.
The invention concerns a photovoltaic facility (1) characterized in that it comprises a sealing tarpaulin (3) for at least partially covering a waste heap, and at least two flexible photovoltaic modules (4) comprising photovoltaic cells (5) made of monocrystalline or multicrystalline silicon, the at least two flexible photovoltaic modules (4) being connected together and secured on the sealing tarpaulin (3) by bonding.
The invention also concerns a method for installing such a photovoltaic facility (100) in which the at least two flexible photovoltaic modules (4) are bonded after having arranged the sealing tarpaulin (3) on the waste heap (2).
H02S 20/10 - Structures de support directement fixées sur le sol
H02S 40/34 - Composants électriques comprenant une connexion électrique structurellement associée au module PV, p. ex. boîtes de jonction
H01L 31/0465 - Modules PV composés d'une pluralité de cellules solaires en couches minces déposées sur un même substrat comportant des structures particulières pour la connexion électrique de cellules PV adjacentes dans un module
The rotor (50) comprises : - a support (60) intended to be mounted rotatable around a rotation axis (A-A') in a centrifuge enclosure (46); the support (60) having at least one housing (62) for receiving the sample (10); - at least an electrically powered sensor (52) held by the support (60), able to measure a property of the sample (10); - a contactless power receiver (102), able to receive electrical power without contact from a contactless power transmitter (100), the contactless power receiver (102) being carried by the support (60) and being jointly rotatable with the support (60), the contactless power receiver (102) being electrically connected to the or each sensor (52) to electrically power the or each sensor (52) during a rotation of the support (60).
B04B 13/00 - Systèmes de commande spécialement conçus pour les centrifugeursCommande à programme des centrifugeurs
G01N 15/00 - Recherche de caractéristiques de particulesRecherche de la perméabilité, du volume des pores ou de l'aire superficielle effective de matériaux poreux
G01N 27/00 - Recherche ou analyse des matériaux par l'emploi de moyens électriques, électrochimiques ou magnétiques
G01N 33/00 - Recherche ou analyse des matériaux par des méthodes spécifiques non couvertes par les groupes
G01N 15/08 - Recherche de la perméabilité, du volume des pores ou de l'aire superficielle des matériaux poreux
G01N 27/04 - Recherche ou analyse des matériaux par l'emploi de moyens électriques, électrochimiques ou magnétiques en recherchant l'impédance en recherchant la résistance
The invention notably relates to a computer-implemented method of geomodelling. The method comprises providing a pseudo-stratigraphic grid. The pseudo-stratigraphic grid represents a reservoir and has pillars. Each pillar includes respective cells. Each cell has a respective stratigraphic layering index. The method then comprises providing a surface. The surface has a first region and a second region. The second region is complementary to the first region. The method also comprises, for each first pillar intercepted by the first region, determining a respective first stratigraphic layering value based on the relative position of the surface in the first pillar. The method also comprises, for each second pillar intercepted by the second region, determining a respective second stratigraphic layering value by interpolating and/or extrapolating first stratigraphic layering values. This provides an improved solution of geomodeling.
12N1N112Nii+1i+1ii+1i+1i+1ii+1i+1) of the second segment respectively define a pitch angle around said any rotation axis, the pitch angle being greater than or equal to 4°.
The invention notably relates to a computer-implemented method of geomodelling. The method comprises providing a pseudo-stratigraphic grid representing a reservoir having geological units and having pillars which each include respective cells. Each geological unit is represented by a respective portion of the pseudo-stratigraphic grid, and each geological unit has a respective top, a respective base, and a respective stratigraphic style. The method then comprises, for at least one geological unit, computing a top 2D map a base 2D map, defining a gridding constraint, and for each cell of the respective portion, calculating a respective local stratigraphic layering index. The calculation of the respective local stratigraphic layering index is based on the top 2D map, on the base 2D map, on the gridding constraint and on the respective stratigraphic style. This provides an improved solution of geomodeling.
The method comprises - feeding a second fluid in a porous sample (10); - measuring a resistivity or/and conductivity in a plurality of regions (17) having different second fluid contents in the porous sample (10); - repeating the following steps : *determining an estimated local volume of first fluid contained in each region (17) from the resistivity or/and conductivity measured in the region (17) and from an estimated value of the representative parameter; * calculating a estimated total volume of first fluid in the porous sample (10) from each estimated local volume of first fluid contained in each region (17); * modifying the value of the estimated representative parameter to minimize the difference between the estimated total volume and a measured total volume of fluid produced from the porous sample (10), the representative parameter of the porous sample being the estimated representative parameter minimizing said difference.
G01N 15/08 - Recherche de la perméabilité, du volume des pores ou de l'aire superficielle des matériaux poreux
G01N 27/04 - Recherche ou analyse des matériaux par l'emploi de moyens électriques, électrochimiques ou magnétiques en recherchant l'impédance en recherchant la résistance
39.
METHOD AND SYSTEM FOR DETECTING OIL SLICKS IN RADAR IMAGES
The present disclosure relates to a computer implemented method (10) for detecting an oil slick in a target image acquired by a spaceborne or airborne radar, wherein said method comprises: - a phase (T1) of training a convolutional network using a set of training images, the set of training images comprising training images without oil slicks and training images with oil slicks, - a phase (T2) of predicting the presence or absence of an oil slick on the target image by applying the convolutional network on said target image, wherein the phase (T1) of training of the convolutional network uses a loss function which combines a weighted-cross-entropy loss function and a Jaccard loss function.
G01S 7/41 - Détails des systèmes correspondant aux groupes , , de systèmes selon le groupe utilisant l'analyse du signal d'écho pour la caractérisation de la cibleSignature de cibleSurface équivalente de cible
G01S 13/90 - Radar ou systèmes analogues, spécialement adaptés pour des applications spécifiques pour la cartographie ou la représentation utilisant des techniques d'antenne synthétique
40.
NANOFLUID FOR FINES MIGRATION REDUCTION AND ENHANCED OIL RECOVERY, METHOD OF PREPARATION AND USES
The invention relates to a nanofluid preparation method (100) from biogenic material, said method comprising the steps of: Treating (120) biogenic material with a strong acid to remove metal impurities; Heating (140) the treated biogenic material at a first temperature comprised between 150°C and 500°C; Heating (150) the treated biogenic material at a second temperature above 600°C to pyrolyze the treated biogenic material; Grinding (160) the pyrolyzed biogenic material to obtain nanoparticles of biogenic material; and Mixing (180) nanoparticles of biogenic material with an organic solvent to form a nanofluid, said organic solvent comprising a low polarity solvent. The invention also relates to a nanofluid obtainable by the nanofluid preparation method and the use of such a nanofluid for example for reducing fines migration or enhanced crude oil recovery. The invention also relates to a system for enhanced crude oil recovery from a reservoir well.
C09K 8/584 - Compositions pour les méthodes de récupération assistée pour l'extraction d'hydrocarbures, c.-à-d. pour améliorer la mobilité de l'huile, p. ex. fluides de déplacement caractérisées par l'utilisation de tensio-actifs spécifiques
41.
DEVICE AND METHOD FOR PREDICTING VALUES OF POROSITY LITHOFACIES AND PERMEABILITY IN A STUDIED CARBONATE RESERVOIR BASED ON SEISMIC DATA
The invention relates to a method (100) for predicting values of porosity, lithofacies and/or permeability in a studied carbonate reservoir based on seismic data, the method comprising: - Loading (130) an ensemble prediction model, said ensemble prediction model having been trained with: o values of elastic attributes, said elastic attributes comprising V p, V s, density or their mathematic transformations, and o values of porosity, lithofacies and/or permeability; - Acquiring (170) values of inverted elastic attributes calculated from seismic data generated on a studied carbonate reservoir, said inverted elastic attributes comprising Vp, Vs, density or their mathematic transformations; and - Generating (180) predicted values of porosity, lithofacies and/or permeability of the studied carbonate reservoir, said predicted values being calculated from the acquired values of inverted elastic attributes and the ensemble prediction model.
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (France)
UNIVERSITÉ DE LILLE (France)
Inventeur(s)
Gomez, Emmanuel
Pondaven, Simon
Babic, Nikola
Vezin, Hervé
Abrégé
The present application relates to the use of a radical compound in a composition comprising at least one hydrocarbon or in an additive composition intended to be added to a composition comprising at least one hydrocarbon, to mark said hydrocarbon mixture.
C10M 133/34 - Compositions lubrifiantes caractérisées en ce que l'additif est un composé organique non macromoléculaire contenant de l'azote comportant une chaîne carbonée de moins de 30 atomes contenant une liaison azote-oxygène contenant un groupe nitroso
C10M 133/40 - Cycle à six chaînons ne contenant que du carbone et de l'azote
C10L 1/23 - Composés organiques contenant de l'azote contenant au moins une liaison azote-oxygène, p. ex. composés nitrés, nitrates, nitrites
43.
NEW SILICON-BASED MATERIAL, THEIR PREPARATION AND APPLICATIONS
The present invention relates to a material comprising (i) an inner part comprising or consisting of bulk silicon, (ii) an outer part comprising or consisting of a silicon-based compound, said silicon-based compound comprising of silicon and a non-metal element, and (iii) clusters comprising or consisting of a transition metal. The present invention relates to preparation and applications of said material.
C07C 2/76 - Préparation d'hydrocarbures à partir d'hydrocarbures contenant un plus petit nombre d'atomes de carbone par condensation d'hydrocarbures avec élimination partielle d'hydrogène
The invention relates to a method for producing a tubular electrochemical separation unit comprising a plurality of electrochemical cells, arranged electrically in series, and comprising at least three layers, said method comprising: - a deposition step (110) of a first layer to form a first discontinuous layer (10) comprising several successive tubular modules (11) separated by spaces (12), - a deposition step (120) of a second layer, said deposition being achieved to form a second discontinuous layer (20) comprising several successive tubular modules (21) separated by spaces (22), so that tubular modules (11) are partially coated with tubular modules (21) of the second layer (20), - a deposition step (130) of a third layer, said deposition being achieved to form a third discontinuous layer (30) comprising several successive tubular modules (31) separated by spaces (32), so that tubular modules (21) are partially coated with tubular modules of the third discontinuous layer.
The present invention refers to a heat sink (5) for bi-facial photovoltaic modules (3) configured to be secured to the back side (3b) of at least one bi-facial photovoltaic module (3) wherein the heat sink (5) comprises a plurality of rods (11) having a thermal conductivity higher than 10 W.m-1.K-1 and arranged as a mesh configured to be in contact with the back side (3b) of the bi-facial photovoltaic module (3).
The present invention refers to a heat sink (5) for bifacial photovoltaic modules (3) configured to be secured to the back side (3b) of the at least one bi-facial photovoltaic module (3) wherein the heat sink (5) comprises at least one fin (11) which extends outward from the back side (3b) and is distributed over a first area corresponding to the back side (3b) of the at least one bi-facial photovoltaic module (3) wherein the contact surface between the fin (11) and the back side (3b) corresponds to a fraction of the first area, said fraction being less than 50% of the first area, preferably less than 20%, and wherein the at least one fin (11) has a thermal conductivity higher than 10 W.m-1.K-1.
The present invention relates to a method for extracting hydrocarbons from a subterranean formation, comprising: injecting a volume of a first solution comprising polymer into the subterranean formation, the first solution having a salinity which is lower than the salinity of water in the subterranean formation; injecting a volume of a second solution comprising at least one surfactant and polymer into the subterranean formation, the second solution having substantially the same salinity as the first solution; injecting a volume of a third solution comprising polymer into the subterranean formation, the third solution having a salinity which is lower than the salinity of the first and the second solutions;and collecting hydrocarbons displaced by the injected solutions.
C09K 8/584 - Compositions pour les méthodes de récupération assistée pour l'extraction d'hydrocarbures, c.-à-d. pour améliorer la mobilité de l'huile, p. ex. fluides de déplacement caractérisées par l'utilisation de tensio-actifs spécifiques
C09K 8/588 - Compositions pour les méthodes de récupération assistée pour l'extraction d'hydrocarbures, c.-à-d. pour améliorer la mobilité de l'huile, p. ex. fluides de déplacement caractérisées par l'utilisation de polymères spécifiques
E21B 43/16 - Procédés de récupération assistée pour l'extraction d'hydrocarbures
48.
ALKYL HALIDES CONVERSION INTO ETHYLENE AND PROPYLENE
The present disclosure concerns a process for converting alkyl halides to ethylene and propylene, said process comprising the steps of (a) providing a feedstream comprising alkyl halides; (b) providing a first and second catalyst composition, said second catalyst composition comprising a cracking catalyst; (c) contacting said feedstream with said first catalyst composition in a first reaction zone under first reaction conditions to provide a first product stream, and (d) subjecting at least a part of said first product stream to an Olefin Catalytic Cracking with said second catalyst composition in a second reaction zone under second reaction conditions to provide a second product steam. The process is remarkable in that it further comprises a step of steaming said first catalyst composition before the step (c) and in that said first catalyst composition comprises zeolites and a binder, wherein said zeolites comprise at least one 10-membered ring channel.
C01B 39/02 - Zéolites aluminosilicates cristallinesLeurs composés isomorphesLeur préparation directeLeur préparation à partir d'un mélange réactionnel contenant une zéolite cristalline d'un autre type, ou à partir de réactants préformésLeur post-traitement
C07C 1/26 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir de composés organiques ne renfermant que des atomes d'halogènes en tant qu'hétéro-atomes
C07C 1/30 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir de composés organiques ne renfermant que des atomes d'halogènes en tant qu'hétéro-atomes par départ des éléments d'un acide halogéné à partir d'une seule molécule
The present disclosure concerns a process for converting methyl halides to ethylene and propylene, said process comprising the steps of (a) providing a feedstream comprising methyl halides; (b) providing a first and second catalyst composition, said second catalyst composition comprising a cracking catalyst; (c) contacting said feedstream with said first catalyst composition in a first reaction zone under first reaction conditions to provide a first product stream; and (d) subjecting at least a part of said first product stream to an Olefin Catalytic Cracking with said second catalyst composition in a second reaction zone under second reaction conditions to provide a second product steam. The process is remarkable in that said step (c) is performed under 400°C, and in that said first catalyst composition comprises molecular sieves with a Si/Al atomic between 2 and 18 and with a plurality of pores with a shape of an 8-membered ring or less.
C07C 1/20 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir de composés organiques ne renfermant que des atomes d'oxygène en tant qu'hétéro-atomes
The present disclosure relates to a process for converting alkyl halides to C3-C5 α-olefins, said process comprising the steps of (a) providing a feedstream comprising alkyl halides; (b) providing a first and second catalyst composition, said second catalyst composition comprising a metathesis catalyst; (c) contacting said feedstream with said first catalyst composition in a first reaction zone under first reaction conditions to provide a first product stream, and (d) contacting said first product stream with an olefin stream and with said second catalyst composition in a second reaction zone under second reaction conditions to provide a second product steam. The process is remarkable in that said it comprises a step of steaming said first catalyst composition before the step (c) and in that said first catalyst composition comprises zeolites and a binder, wherein said zeolites comprise at least one 10-membered ring channel.
C07C 1/26 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir de composés organiques ne renfermant que des atomes d'halogènes en tant qu'hétéro-atomes
The present disclosure relates to a process for converting one or more alkyl halides to acyclic C3-C6 olefins, said process comprising the steps of (a) providing a feedstream comprising one or more alkyl halides; (b) providing a catalyst composition; and (c) contacting said feedstream with said catalyst composition under reaction conditions. The process is remarkable in that said process further comprises a step of steaming said catalyst composition before the step (c) and in that said catalyst composition comprises one or more zeolites and a binder, wherein said one or more zeolites comprise at least one 10-membered ring channel. The present disclosure further relates to the use of a catalyst composition in said process, said catalyst composition comprising one or more zeolites and a binder, wherein said catalyst composition is steamed before use.
C07C 1/26 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir de composés organiques ne renfermant que des atomes d'halogènes en tant qu'hétéro-atomes
The present disclosure relates to a process for converting one or more methyl halides to acyclic C3-C6 olefins, said process comprising the steps of (a) providing a feedstream comprising one or more methyl halides; (b) providing a catalyst composition; and (c) contacting said feedstream with said catalyst composition under reaction conditions. The process is remarkable in that said reaction conditions include a reaction temperature below 400°C, and in that said catalyst composition comprises one or more molecular sieves with a Si/Al atomic ratio ranging from 2 to 18 and wherein said one or more molecular sieves comprise a plurality of pores, wherein said pores have a shape of an 8-membered ring or less.
C07C 1/26 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir de composés organiques ne renfermant que des atomes d'halogènes en tant qu'hétéro-atomes
C07C 1/30 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir de composés organiques ne renfermant que des atomes d'halogènes en tant qu'hétéro-atomes par départ des éléments d'un acide halogéné à partir d'une seule molécule
The present disclosure relates to a process for converting methyl halides to C3-C5 α-olefins, said process comprising the steps of (a) providing a feedstream comprising methyl halides; (b) providing a first and second catalyst composition, said second catalyst composition comprising a metathesis catalyst; (c) contacting said feedstream with said first catalyst composition in a first reaction zone under first reaction conditions to provide a first product stream, and (d) contacting said first product stream with an olefin stream and with said second catalyst composition in a second reaction zone under second reaction conditions to provide a second product steam. The process is remarkable in that said step (c) is performed under 400°C, and in that said first catalyst composition comprises molecular sieves with a Si/Al atomic ratio between 2 and 18 and with a plurality of pores with a shape of an 8-membered ring or less.
C07C 1/26 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir de composés organiques ne renfermant que des atomes d'halogènes en tant qu'hétéro-atomes
C07C 6/04 - Réactions de métathèse sur une liaison carbone-carbone non saturée sur une double liaison carbone-carbone
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (France)
UNIVERSITÉ DE LILLE (France)
Inventeur(s)
Pondaven, Simon
Babic, Nikola
Vezin, Hervé
Abrégé
The present invention relates to a method for identifying and quantifying sulphur compounds in a petroleum matrix, comprising the following steps: 1. adding a nitroxide compound to the petroleum matrix; 2. heating the mixture obtained in step 1.; 3. sampling different samples at different times during step 2.; 4. analyzing the samples of step 3. by electron paramagnetic resonance (EPR); 5. determining the disappearance kinetics of the nitroxide signal; 6. determining from the kinetics of step 5. the nature and the concentration of the sulphur compound.
G01R 33/60 - Dispositions ou appareils pour la mesure des grandeurs magnétiques faisant intervenir la résonance magnétique utilisant la résonance paramagnétique électronique
55.
CATALYST-IONOMER SYSTEMS AND METHODS FOR GAS-PHASE ELECTROLYSIS
THE GOVERNING COUNCIL OF THE UNIVERSITY OF TORONTO (Canada)
Inventeur(s)
García De Arquer, Francisco, Pelayo
Dinh, Cao-Thang
Ozden, Adnan
Wicks, Joshua
Sinton, David
Sargent, Edward
Abrégé
The disclosure provides in its first aspect a catalyst system for gas-phase electrolysis of a reactant gas to form a product in an aqueous medium, the catalyst system comprising a catalytic material; an ion-conducting polymer layer provided on the catalytic material and comprising an ion-conducting polymer that includes hydrophilic and hydrophobic groups. Said catalyst system is remarkable in that the ion-conducting polymer layer has a thickness of 2 nm to 50 nm measured by transmission-electron microscopy. In its second aspect, the disclosure provides a method of manufacturing a catalyst system for gas- phase electrolysis of reactant gas to produce a product in an aqueous medium preferably according to the first aspect. The use of the catalyst system in accordance with the first aspect in the electrochemical production of at least one multi-carbon compound from a carbon-containing gas or of at least one product from a reactant gas is also disclosed.
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (France)
UNIVERSITÉ DE LILLE (France)
Inventeur(s)
Pondaven, Simon
Babic, Nikola
Vezin, Hervé
Abrégé
The present invention concerns a method for identifying and quantifying oxidation precursors in a petroleum matrix comprising the following steps: 1. Adding to the petroleum matrix at least one compound comprising a nitrone function, for example DMPO (2,2-dimethyl-3,4-dihydro-2H-pyrrole-1-oxide), PBN (alpha-phenyl N-tert-butyl-nitrone), DEPMPO (5-(diethoxyphosphoryl)-5-methyl-1-pyrroline N-oxide), EMPO (5-ethoxycarbonyl-5-methyl-1-pyrroline-N-oxide), AMPO (5-carbamoyl-5-methyl-1-pyrroline-N-oxide); 2. Analysing the mixture obtained in step 1 by electron paramagnetic resonance (EPR); 3. Determining the nature and the concentration of the oxidation precursors.
G01N 24/10 - Recherche ou analyse des matériaux par l'utilisation de la résonance magnétique nucléaire, de la résonance paramagnétique électronique ou d'autres effets de spin en utilisant la résonance paramagnétique électronique
57.
CONVERSION OF METHANE INTO ETHYLENE USING ISOMORPHOUS METAL-SUBSTITUTED ZEOLITE FRAMEWORK CATALYST
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (CNRS) (France)
Inventeur(s)
Dubray, Florent
Mintova, Svetlana
Gilson, Jean-Pierre
Konnov, Stanislav
Van Daele, Stijn
Nesterenko, Nikolai
Abrégé
Process for the conversion of non-oxidative coupling of methane to ethylene, under non- oxidative conditions, comprising: providing a first stream containing at least 50 vol.% of methane based on the total volume of said first stream; providing a catalyst; putting in contact said first stream with said catalyst at a weight hour space velocity ranging from 0.5 to 100 h-1, a temperature ranging from 500°C to 1100°C and a pressure ranging from 0.1 MPa to 5Mpa in the absence of oxygen; recovering a second stream containing unconverted methane if any, ethylene and hydrocarbons having at least 2 carbon atoms. Said process is remarkable in that said catalyst is a synthetic zeolite material, containing at least one metal M with silicon to metal M molar ratio Si/M as determined by inductively coupled plasma optical emission spectrometry ranging from 100 to 65440 and in that said metal M is incorporated inside of the zeolite tetrahedral sites.
C07C 2/76 - Préparation d'hydrocarbures à partir d'hydrocarbures contenant un plus petit nombre d'atomes de carbone par condensation d'hydrocarbures avec élimination partielle d'hydrogène
B01J 29/48 - Zéolites aluminosilicates cristallinesLeurs composés isomorphes du type pentasil, p. ex. types ZSM-5, ZSM-8 ou ZSM-11 contenant de l'arsenic, de l'antimoine, du bismuth, du vanadium, du niobium, du tantale, du polonium, du chrome, du molybdène, du tungstène, du manganèse, du technétium ou du rhénium
B01J 29/40 - Zéolites aluminosilicates cristallinesLeurs composés isomorphes du type pentasil, p. ex. types ZSM-5, ZSM-8 ou ZSM-11
B01J 35/00 - Catalyseurs caractérisés par leur forme ou leurs propriétés physiques, en général
C01B 37/00 - Composés ayant des propriétés de tamis moléculaires mais n'ayant pas de propriétés d'échangeurs de base
C01B 39/02 - Zéolites aluminosilicates cristallinesLeurs composés isomorphesLeur préparation directeLeur préparation à partir d'un mélange réactionnel contenant une zéolite cristalline d'un autre type, ou à partir de réactants préformésLeur post-traitement
C01B 39/08 - Préparation de zéolites isomorphes caractérisée par les mesures prises pour le remplacement des atomes d'aluminium ou de silicium dans la charpente du réseau par des atomes d'autres éléments les atomes d'aluminium étant entièrement remplacés
C01B 39/40 - Type ZSM-5 utilisant au moins un agent structurant organique
58.
SEPARATION DEVICE AND ASSOCIATED METHOD AND INSTALLATION
The invention concerns a séparation device (26) for extracting at least one sample from a fluid flow comprising at least two phases, including at least one phase of interest (64). The séparation device (26) comprises: - a chamber assembly, - a sample extraction device (50), - a first diver (44) and a second diver (46), having a first density and a second density, respectively greater than and smaller than the density of the phase of interest (64), - a first sensor (52) configured to detect the first diver (44) reaching a first level (h), and - a second sensor (54) configured to detect the second diver (46) reaching a second level (l2. The sample extraction device (50) is configured to extract the sample when the first diver (44) the second diver (46) occupy predetermined positions relative to the first level (h) and the second level (l2) respectively.
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (CNRS) (France)
Inventeur(s)
Mintova, Svetlana
Gilson, Jean-Pierre
Nesterenko, Nikolai
Minoux, Delphine
Aquino, Cindy
Grand, Julien
Dubray, Florent
Abrégé
The present disclosure relates to a novel staged-synthesis method for introduction of various metals in the structure of zeolite frameworks by isomorphous substitution. This new method is based on a hydrothermal synthesis in which the metal addition to the precursor suspensions (gel) is delayed. This so-called "staged-synthesis method" allows to obtain nanosized silanol highly homogeneous crystalline zeolite structures with a control of the metal location.
C01B 37/00 - Composés ayant des propriétés de tamis moléculaires mais n'ayant pas de propriétés d'échangeurs de base
C01B 37/02 - Polymorphes de silice cristallins, p. ex. silicalites
C01B 39/08 - Préparation de zéolites isomorphes caractérisée par les mesures prises pour le remplacement des atomes d'aluminium ou de silicium dans la charpente du réseau par des atomes d'autres éléments les atomes d'aluminium étant entièrement remplacés
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (CNRS) (France)
Inventeur(s)
Aquino, Cindy
Mintova, Svetlana
Gilson, Jean-Pierre
Dubray, Florent
Minoux, Delphine
Grand, Julien
Nesterenko, Nikolai
Abrégé
The present disclosure relates to a novel method for introducing various metals in the structure of zeolite frameworks by isomorphous substitution. This new method is based on a hydrothermal reaction of the metal with the zeolite. This method allows obtaining zeolite with a structure and with control of the metal location.
C01B 39/06 - Préparation de zéolites isomorphes caractérisée par les mesures prises pour le remplacement des atomes d'aluminium ou de silicium dans la charpente du réseau par des atomes d'autres éléments
C01B 37/00 - Composés ayant des propriétés de tamis moléculaires mais n'ayant pas de propriétés d'échangeurs de base
Investigating the permeability and porosity of geological samples is a routine element of geological studies, and is of particular interest in the oil and gas industry. Core-flood experiments are commonly performed on rock samples to measure transport characteristics in the laboratory. This disclosure reports the design and implementation of a high resolution distributed pressure measurement system for core-flood experiments. A series of microfabricated pressure sensors can be embedded in bolts that are housed within the pressurized polymer sheath that encases a rock core. A feedthrough technology has been developed to provide lead transfer between the sensors and system electronics across a 230-bar pressure difference. The system has been successfully benchtop tested with fluids such as synthetic oil and/or gas. Pressure measurements were recorded over a dynamic range of 20 bar with a resolution as small as 0.3 mbar.
The invention relates to a dynamic method for determining the formation of a Winsor III microemulsion system, the method comprising the steps of: providing a mixture of an aqueous medium and a hydrocarbon medium in a chamber; continuously altering the concentration of at least one component in the mixture, while the ratio of the aqueous medium to the hydrocarbon medium remains constant and while stirring the mixture; and continuously measuring at least one physicochemical property of the mixture. The invention further relates to a device for determining the formation of a Winsor III microemulsion system.
C09K 8/584 - Compositions pour les méthodes de récupération assistée pour l'extraction d'hydrocarbures, c.-à-d. pour améliorer la mobilité de l'huile, p. ex. fluides de déplacement caractérisées par l'utilisation de tensio-actifs spécifiques
G01N 11/10 - Recherche des propriétés d'écoulement des matériaux, p. ex. la viscosité, la plasticitéAnalyse des matériaux en déterminant les propriétés d'écoulement en déplaçant un corps à l'intérieur du matériau
G01N 21/51 - Dispersion, c.-à-d. réflexion diffuse dans un corps ou dans un fluide à l'intérieur d'un récipient, p. ex. dans une ampoule
G01N 27/06 - Recherche ou analyse des matériaux par l'emploi de moyens électriques, électrochimiques ou magnétiques en recherchant l'impédance en recherchant la résistance d'un liquide
63.
METHOD FOR DETERMINING LOCATIONS OF WELLS IN A FIELD
The present invention relates to a method for determining locations of wells in a field containing a hydrocarbon reservoir, said method comprising: • receiving a first set of geological gridded models; • receiving a set of criteria for positioning wells; • receiving a plurality of reference well patterns associated to the first set of geological gridded models; • estimating a plurality of weights, each weight being associated to a respective criterion among the plurality of criteria, based on the plurality of reference well patterns and the received set of criteria; • receiving a second geological gridded model of the field; and • determining locations of wells in the second geological gridded model based on the received set of criteria and the plurality of estimated weights.
The present invention relates to a method for determining drain configurations of wells in a field containing a hydrocarbon reservoir, said method comprising: • receiving a first set of geological gridded models; • receiving a set of criteria; • estimating a plurality of weights, each weight being associated to a respective criterion among the plurality of criteria, based on a reference drain configuration comprised in the first received set of geological gridded models and the received set of criteria; • receiving a second geological gridded model of the field; • determining a drain configuration based on the received set of criteria and the plurality of estimated weights.
The manufacturing method aims to obtain a photovoltaic collector (2) configured to convert solar radiation into electrical energy, the photovoltaic collector (2) comprising at least one photovoltaic cell (4), each photovoltaic cell (4) being encapsulated in an encapsulation substrate. The manufacturing method comprises the production of the encapsulation substrate by shaping at least one encapsulation material (M1, M2) in the liquid state over each photovoltaic cell (4).
The invention concerns a solid polymer electrolyte comprising a polymer matrix comprising at least one ionic salt, the polymer matrix comprising at least one polyalkene carbonate, at least one second polymer different from the polyalkene carbonate polymer, and at least one alkene carbonate coming from the decomposition of the polyalkene carbonate. The present invention also concerns a method for preparing the solid polymer electrolyte and a battery comprising the solid polymer electrolyte.
H01M 10/0525 - Batteries du type "rocking chair" ou "fauteuil à bascule", p. ex. batteries à insertion ou intercalation de lithium dans les deux électrodesBatteries à l'ion lithium
H01M 10/0565 - Matériaux polymères, p. ex. du type gel ou du type solide
The invention notably relates to a computer-implemented method comprising providing (S10) a geomodel representing horizons and geological units of the reservoir; providing (S20), for each well a trajectory representing the path of the well in the reservoir, and data distributed along the trajectory. The data include horizon markers, one or more fault markers, and a geological unit log. The method comprises deforming (S30) the trajectory of at least one well based on the geomodel. The deforming is constrained by consistency of the horizon markers and of the geological unit log with the geomodel, a discontinuity being allowed at each fault marker. This provides an improved solution for obtaining consistency between the geomodel and the trajectory of the at least one well.
G01V 99/00 - Matière non prévue dans les autres groupes de la présente sous-classe
G06K 9/62 - Méthodes ou dispositions pour la reconnaissance utilisant des moyens électroniques
G06T 19/20 - Édition d'images tridimensionnelles [3D], p. ex. modification de formes ou de couleurs, alignement d'objets ou positionnements de parties
E21B 43/00 - Procédés ou dispositifs pour l'extraction de pétrole, de gaz, d'eau ou de matériaux solubles ou fusibles ou d'une suspension de matières minérales à partir de puits
68.
LAMINATE OF PHOTOVOLTAIC CELLS AND ASSOCIATED PRODUCTION METHOD
The present invention relates to a laminate (1) of photovoltaic cells, comprising at least: a layer of interconnected photovoltaic cells (3), and a front layer (5) and a rear layer (7) for encapsulating the layer of photovoltaic cells (3), said front (5) and rear (7) encapsulating layers taking the layer of photovoltaic cells (3) in a sandwich, characterized in that the front encapsulating layer (5) and the rear encapsulating layer (7) each comprise an encapsulation resin (53, 73) based on methyl polymethacrylate and a glass fiber fabric (51, 71).
The invention relates to a device for determining a volume of gas in a sample contained in a vessel, the device comprising: a frame configured to attach the vessel; a needle having a longitudinal axis, comprising a proximal part and a distal part, the distal part being configured to pierce the vessel and the proximal part comprising a lumen; and an analysis compartment comprising a cell in fluid communication with the lumen of the proximal part of the needle. The invention also relates to a method for determining a volume of gas in a sample contained in a vessel.
G01N 1/22 - Dispositifs pour prélever des échantillons à l'état gazeux
G01N 7/16 - Analyse des matériaux en mesurant la pression ou le volume d'un gaz ou d'une vapeur en permettant au matériau d'émettre un gaz ou une vapeur, p. ex. la vapeur d'eau, et en mesurant une différence de pression ou de volume en chauffant le matériau
The invention relates to a method for determining the electrophoretic velocity of droplets of a first fluid in a second fluid, the method comprising: providing a first capillary (3') having an outlet positioned in a first channel (3); providing a stream of the first fluid in the first capillary and providing a stream of the second fluid in the first channel external to the first capillary, so as to generate droplets of the first fluid in the second fluid at the outlet of the first capillary; transporting the droplets to an observation area (200) in a second channel (11); applying an electric field to the observation area of the second channel; and measuring the velocity of the droplets in the observation area. The invention also relates to a device for determining the electrophoretic velocity of droplets of a first fluid in a second fluid.
The present disclosure relates to a method for adapting an unstructured mesh model of a geological subsurface obtained using measurements of said geological subsurface, to match it to a target, said unstructured mesh model comprising a first reference interface and a second reference interface. The method comprises: - for each corner between the first reference interface and the second reference interface: - determining a vector at said corner, said vector is determined to maximize local variation of t, (u,v) being locally constant along said vector; - determining a first distance between said corner and said first reference interface along said vector; - determining a second distance between said corner and said second reference interface along said vector; - determining a third distance between said corner and said first target interface along said vector; - determining a fourth distance between said corner and said second target interface along said vector; - modifying the coordinates for said corner along said vector as a function of the first distance, the second distance, the third distance and the fourth distance
The invention relates to a method for extracting hydrocarbons from a subterranean formation, comprising: - providing a fluid, - injecting said fluid into the subterranean formation during a first period of time but not during a second period of time, and - collecting displaced hydrocarbons from the subterranean formation, wherein: at least part of the provision and/or injection of the fluid is carried out using solar energy.
The present invention relates to a device (1) comprising a photovoltaic system (12), a water treatment system (22), a first heat exchanger (14), a second heat exchanger (24), a first fluidic circuit (16) for circulating a first fluid (17) through said first heat exchanger (14), said first heat exchanger (14) being in thermal contact with said photovoltaic system (12), and a second fluidic circuit (26) for circulating said second fluid (27) through said second heat exchanger (24) and through said water treatment system (22). The present invention also relates to a process for treating water, wherein said process implements said device (1).
C02F 1/14 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par chauffage par distillation ou évaporation utilisant l'énergie solaire
C02F 1/36 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout au moyen d'oscillations mécaniques par des vibrations ultrasonores
C02F 1/44 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par dialyse, osmose ou osmose inverse
C02F 1/46 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par des procédés électrochimiques
C02F 1/52 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par floculation ou précipitation d'impuretés en suspension
C02F 1/70 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par réduction
C02F 1/72 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par oxydation
C02F 3/00 - Traitement biologique de l'eau, des eaux résiduaires ou des eaux d'égout
H01L 31/052 - Moyens de refroidissement directement associés ou intégrés à la cellule PV, p.ex. éléments Peltier intégrés pour refroidissement actif ou puits thermiques directement associés aux cellules PV
The invention relates to a moveable photovoltaic device, characterised in that it includes: - a wheeled moveable support (5), - gripping means (9), for gripping and pulling or pushing the device on an upper end opposite the lower end, - at least two photovoltaic modules (3a, 3b) attached to the support, each comprising a front surface (F), configured to face the sun and to receive radiation, and a rear, protective surface (B), at least one of the modules (3b) being hinged to the support (5), so as to be movable between an open electricity production position in which the photovoltaic modules (3a, 3b) present their front surface (F) towards the outside, and a closed protective and transport position in which the photovoltaic modules (3a, 3b) are stacked, and the photovoltaic module (3b) hinged furthest forward on the support (5) forms a protective cover by presenting its rear surface (B) to the outside, and - at least one electrical connection device (13) for delivering the current produced by the photovoltaic modules (3).
The present invention relates to a device (1) comprising a photovoltaic system (12), a water treatment system (22), a first heat exchanger (14), a second heat exchanger (24), a first fluidic circuit (16) for circulating a first fluid (17) through said first heat exchanger (14), said first heat exchanger (14) being in thermal contact with said photovoltaic system (12), and a second fluidic circuit (26) for circulating said second fluid (27) through said second heat exchanger (24) and through said water treatment system (22). The present invention also relates to a process for treating water, wherein said process implements said device (1).
C02F 1/14 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par chauffage par distillation ou évaporation utilisant l'énergie solaire
C02F 1/36 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout au moyen d'oscillations mécaniques par des vibrations ultrasonores
C02F 1/44 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par dialyse, osmose ou osmose inverse
C02F 1/46 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par des procédés électrochimiques
C02F 1/52 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par floculation ou précipitation d'impuretés en suspension
C02F 1/70 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par réduction
C02F 1/72 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par oxydation
C02F 3/00 - Traitement biologique de l'eau, des eaux résiduaires ou des eaux d'égout
H01L 31/052 - Moyens de refroidissement directement associés ou intégrés à la cellule PV, p.ex. éléments Peltier intégrés pour refroidissement actif ou puits thermiques directement associés aux cellules PV
The heated pipeline (10) comprises an inner pipe (12) intended to convey a fluid, and an outer coating (14) made of a thermal insulating material and covering the inner pipe (12). The outer coating (14) comprises at least one duct (16) delimited, in a transverse plane, by a closed outline entirely defined in the thermal insulating material, each duct (16) housing a respective heating element (18).
The present disclosure relates to a chabazite-type zeolite, comprising at least two cages composed of 4- and 8- membered rings connected by one 6-membered double ring, remarkable in that it has a Si/Al molar ratio comprised between 1 and 15, in that it comprises caesium and potassium with a Cs/K molar ratio of at most 5.0 and in that it forms nanoparticles with an average crystal size comprised between 5 nm and 250 nm and with a specific surface area comprised between 50 m2g-1and 200 m2g-1. Amorphous precursors, devoid of an organic structure-directing agent, as well as a method for preparation of these amorphous precursors in the absence of such organic structure-directing agent and method for preparation of the chabazite-type zeolite, are also described. Finally, the use of the chabazite-type zeolite as a sorbent for carbon dioxide is also demonstrated.
C01B 39/46 - Autres types caractérisés par leur diagramme de diffraction des rayons X et par leur composition définie
B01D 51/00 - Prétraitement auxiliaire des gaz ou des vapeurs à épurer des particules dispersées
B01D 53/14 - Séparation de gaz ou de vapeursRécupération de vapeurs de solvants volatils dans les gazÉpuration chimique ou biologique des gaz résiduaires, p. ex. gaz d'échappement des moteurs à combustion, fumées, vapeurs, gaz de combustion ou aérosols par absorption
The present disclosure relates to an RHO-type zeolite comprising caesium and M1wherein M1is selected from Na and/or Li remarkable in that it has a Si/Al molar ratio comprised between 1.2 and 3.0 as determined by 29Si magic angle spinning nuclear magnetic resonance, in that the RHO-type zeolite has a specific surface area comprised between 40 m2g-1and 250 m2g-122 adsorption measurements, in that the RHO-type zeolite being in the form of one or more nanoparticles with an average crystal size comprised between 10 nm and 400 nm as determined by scanning electron microscopy wherein said nanoparticles form monodispersed nanocrystals or form aggregates of nanocrystals having an average size ranging from 100 nm to 500 nm, as determined by scanning electron microscopy. Amorphous precursors, devoid of an organic structure-directing agent, as well as a method for preparation of these amorphous precursors in the absence of such organic structure-directing agent and method for preparation of the RHO-type zeolites, are also described. Finally, the use of the RHO-type zeolite as a sorbent for carbon dioxide is also demonstrated.
C01B 39/46 - Autres types caractérisés par leur diagramme de diffraction des rayons X et par leur composition définie
B01D 53/14 - Séparation de gaz ou de vapeursRécupération de vapeurs de solvants volatils dans les gazÉpuration chimique ou biologique des gaz résiduaires, p. ex. gaz d'échappement des moteurs à combustion, fumées, vapeurs, gaz de combustion ou aérosols par absorption
B01D 53/02 - Séparation de gaz ou de vapeursRécupération de vapeurs de solvants volatils dans les gazÉpuration chimique ou biologique des gaz résiduaires, p. ex. gaz d'échappement des moteurs à combustion, fumées, vapeurs, gaz de combustion ou aérosols par adsorption, p. ex. chromatographie préparatoire en phase gazeuse
The disclosure relates to a zeolite comprising caesium, the zeolite is selected from EDI/PHI family or having one cage with one 8-membered ring and a Si/Al molar ratio comprised between 1 and 15, said zeolite being remarkable in that it is in the form of nanoparticles with an average crystal size comprised between 5 nm and 400 nm, said zeolite having a specific surface area comprised between 40 m2g-1and 250 m2g-1, a Cs/Al molar ratio ranging from 0.01 to 0.75 and an M1/Cs molar ratio ranging from 0.10 to 5.00 wherein M1 is selected from Na, Li, Ca and/or Rb. Amorphous precursors, devoid of an organic structure-directing agent, as well as a method for preparation of these amorphous precursors without such organic structure- directing agent and method for preparation of the zeolites, are also described. Finally, the use of the zeolite as a sorbent for carbon dioxide is demonstrated.
C01B 39/28 - Type phillipsite ou harmotome, p. ex. type B
C01B 39/46 - Autres types caractérisés par leur diagramme de diffraction des rayons X et par leur composition définie
B01D 51/00 - Prétraitement auxiliaire des gaz ou des vapeurs à épurer des particules dispersées
B01D 53/14 - Séparation de gaz ou de vapeursRécupération de vapeurs de solvants volatils dans les gazÉpuration chimique ou biologique des gaz résiduaires, p. ex. gaz d'échappement des moteurs à combustion, fumées, vapeurs, gaz de combustion ou aérosols par absorption
The invention relates to a drone (10), in particular a rotary-wing drone, comprising a frame (12), a propulsion system (14) which is mechanically connected to the frame (12), an ultrasonic sensor (16) which is mechanically connected to the frame (12), and a device (18) for reducing mechanical vibrations, which is arranged between the ultrasonic sensor (16) and the frame (12).
B64C 39/02 - Aéronefs non prévus ailleurs caractérisés par un emploi spécial
B64D 1/16 - Largage en vol d'une matière poudreuse, liquide ou gazeuse, p. ex. pour la lutte contre l'incendie
G01N 29/22 - Recherche ou analyse des matériaux par l'emploi d'ondes ultrasonores, sonores ou infrasonoresVisualisation de l'intérieur d'objets par transmission d'ondes ultrasonores ou sonores à travers l'objet Détails
G01N 29/265 - Dispositions pour l'orientation ou le balayage en déplaçant le capteur par rapport à un matériau fixe
81.
MUTATION OF AN ACYL-COA SYNTHASE FOR INCREASED TRIACYLGLYCEROL PRODUCTION IN MICROALGAE
The application generally relates to bioproduction of molecules of interest in microorganisms, more particularly in microalgae. In particular, the application relates to methods for increasing triacylglycerol production in micro-organisms, in particular in microalgae, using recombinant micro-organisms which have been genetically engineered to express or overexpress a mutant of a bubblegum-type acyl-CoA synthase, and uses thereof.
C12N 9/00 - Enzymes, p. ex. ligases (6.)ProenzymesCompositions les contenantProcédés pour préparer, activer, inhiber, séparer ou purifier des enzymes
C12N 15/82 - Vecteurs ou systèmes d'expression spécialement adaptés aux hôtes eucaryotes pour cellules végétales
C12P 7/64 - GraissesHuilesCires de type esterAcides gras supérieurs, c.-à-d. ayant une chaîne continue d'au moins sept atomes de carbone liée à un groupe carboxyleHuiles ou graisses oxydées
The invention notably relates to a computer-implemented method of geological grid analysis, for hydrocarbon production, based on values of a geological attribute in a subsoil. The method comprises providing one or more geological grids. Each geological grid represents the subsoil. Each geological grid comprises respective cells. Each cell represents a respective portion of the subsoil. The method further comprises, for each geological grid, providing a first distribution. The first distribution comprises geological attribute values each on a respective cell. Each geological attribute value represents a value of the geological attribute in the respective portion. The method further comprises, for each geological grid, determining a second distribution based on the first distribution. The second distribution comprises flux values each on a respective cell. Each flux value represents a flux of the geological attribute in the respective portion. This constitutes an improved method of geological grid analysis.
E21B 43/00 - Procédés ou dispositifs pour l'extraction de pétrole, de gaz, d'eau ou de matériaux solubles ou fusibles ou d'une suspension de matières minérales à partir de puits
83.
PHOTOVOLTAIC DEVICE, ASSEMBLY AND RELATING MANUFACTURING METHOD
The invention relates to a photovoltaic device (1), comprising: - a rigid closed casing (3) having a transparent UV resistant front face (F), configured to face the sun when installed, and defining an inner space, - at least one photovoltaic cell (5) disposed in the inner space, - filling polymer (7), disposed in the inner space and surrounding the photovoltaic cell (5) for protection against shocks, with at least a front polymer portion (71) between the at least one photovoltaic cell (5) and the front face (F) that is transparent and UV resistant, - reversible attaching members (35) configured to cooperate with associated reversible attaching members (35) of another associated photovoltaic device, and - electrical terminals (9), disposed in the reversible attaching members (35), connected to the photovoltaic cell (5), and configured to come in electrical contact with associated electrical terminals (9) of another associated photovoltaic device (1).
H02S 20/23 - Structures de support directement fixées sur un objet inamovible spécialement adaptées pour les bâtiments spécialement adaptées aux structures de toit
H02S 40/36 - Composants électriques caractérisés par des moyens d'interconnexions électriques spéciaux entre plusieurs modules PV, p. ex. connexion électrique module à module
The invention concerns an installation (3) adapted to produce at least one LNG stream (5) from at least one natural gas stream (7), comprising: - at least one refrigerating cycle (11) comprising at least one expansion turbine (27), the refrigerating cycle using at least one first refrigerant fluid (13) and being configured to cool the natural gas stream by exchanging heat with the first refrigerant fluid; and - a refrigeration unit (15) comprising at least one absorption refrigerating machine (33) using a second refrigerant fluid and an absorbent adapted to absorb the second refrigerant fluid, the refrigeration unit being adapted to receive at least one fluid (17) to be cooled and to produce a cooled fluid (19). The second refrigerant fluid comprises methanol, and the absorbent comprises a mixture of lithium bromide and zinc bromide, or comprises an ionic liquid. The invention also concerns a corresponding method and a floating support integrating such an installation.
F25J 1/00 - Procédés ou appareils de liquéfaction ou de solidification des gaz ou des mélanges gazeux
F25J 1/02 - Procédés ou appareils de liquéfaction ou de solidification des gaz ou des mélanges gazeux nécessitant l'emploi d'une réfrigération, p. ex. de l'hélium, de l'hydrogène
F25B 17/02 - Machines, installations ou systèmes à sorption, à marche discontinue, p. ex. à absorption ou à adsorption l'absorbant ou l'adsorbant étant un liquide, p. ex. de la saumure
85.
ECO-ELECTRODE, DEVICE STORING ELECTRICAL ENERGY AND PROCESS FOR PREPARATION THEREOF
Eco-electrode, device storing electrical energy and process for preparation thereof The present invention relates to a composite electrode for a device storing electrical energy wherein said electrode comprises an electrode body and an electrode shell, wherein said body comprises at least one water-soluble polymer and wherein at least a part of said shell comprises a shell comprising at least one organic or organometallic material. The present invention also relates to a device storing electrical energy comprising said composite electrode and a process for preparing said composite electrode.
H01M 10/0525 - Batteries du type "rocking chair" ou "fauteuil à bascule", p. ex. batteries à insertion ou intercalation de lithium dans les deux électrodesBatteries à l'ion lithium
86.
METHOD FOR TEXTURING THE SURFACE OF A CRYSTALLINE SILICON LAYER AND ASSOCIATED REACTION CHAMBER
The present invention refers to a method for texturing a crystalline silicon layer (7), the said method comprising the following steps: - providing (101) a reaction chamber (1) configured for reactive plasma processing with at least one wall element covered with a material resistant to hydrogen plasma (3), - providing (102) a crystalline silicon layer (7) comprising a surface layer (7a) containing embedded inverse cones and/or inverse pyramids of amorphous silicon corresponding to epitaxial breakdown regions (7b) obtained during an epitaxial growth of the crystalline silicon layer (7) under conditions of partial epitaxial breakdown, - placing (103) the provided layer (7) in the provided reaction chamber (1), - applying (105) hydrogen plasma etching on the provided layer (7) placed in the provided reaction chamber (1) to remove at least partially the amorphous portions (7b) of the crystalline silicon layer (7) corresponding to the epitaxial breakdown regions, and thus obtaining a texturing of the crystalline silicon layer (7).
H01L 21/3065 - Gravure par plasmaGravure au moyen d'ions réactifs
H01L 21/205 - Dépôt de matériaux semi-conducteurs sur un substrat, p. ex. croissance épitaxiale en utilisant la réduction ou la décomposition d'un composé gazeux donnant un condensat solide, c.-à-d. un dépôt chimique
H01L 21/67 - Appareils spécialement adaptés pour la manipulation des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide pendant leur fabrication ou leur traitementAppareils spécialement adaptés pour la manipulation des plaquettes pendant la fabrication ou le traitement des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide ou de leurs composants
C23C 16/44 - Revêtement chimique par décomposition de composés gazeux, ne laissant pas de produits de réaction du matériau de la surface dans le revêtement, c.-à-d. procédés de dépôt chimique en phase vapeur [CVD] caractérisé par le procédé de revêtement
C30B 33/12 - Gravure dans une atmosphère gazeuse ou un plasma
H01J 37/32 - Tubes à décharge en atmosphère gazeuse
The present invention relates to the use of at least one compound of formula (I): (I) [P+(R1-Y-R244]zXz- wherein: Y is chosen from an oxygen atom or an NH group; R1is a linear or branched alkyl radical having from 1 to 15 carbon atoms; R2 is chosen from a hydrogen atom or a linear or branched alkyl radical having from 1 to 14 carbon atoms; Xz- is a monovalent anion or a divalent anion, or a trivalent anion, or a tetravalent anion group; z is a number from 1 to 4; for enhancing the injectivity of an injection well, wherein the compound of formula (I) is added to an aqueous medium to form an injection stream which is injected into a subterranean formation which comprises at least one polymer, via said injection well.
C09K 8/524 - Compositions pour éviter, limiter ou éliminer les dépôts, p. ex. pour le nettoyage les dépôts organiques, p. ex. paraffines ou asphaltènes
C09K 8/58 - Compositions pour les méthodes de récupération assistée pour l'extraction d'hydrocarbures, c.-à-d. pour améliorer la mobilité de l'huile, p. ex. fluides de déplacement
E21B 43/16 - Procédés de récupération assistée pour l'extraction d'hydrocarbures
88.
DEVICE FOR DETERMINING A VOLUME OF LIQUID IN A FLUID SAMPLE
The invention relates to a device for determining a volume of liquid in a hydrocarbon fluid sample, the device including: a cell (1) comprising an upper part (3) defined by a tubular sidewall (5) and a lower part (4) defined by a closed extremity, the lower part having a conical shape and forming a chamber (12) configured to receive the liquid; and a piston (2) comprising an upper part (15) and a lower part (16), the piston being slidable in the cell and sealing the cell in a gas-tight manner. The invention also relates to a method for determining a volume of liquid in a hydrocarbon fluid sample.
A method for modelling the formation of a sedimentary area is disclosed, comprising: • - a setup step comprising defining a geological gridded model of the area comprising a plurality of cells, and setting a reference water level, • - a step of simulating the evolution of the model over a period of time, comprising : • a. assigning a water depth to each cell, • b. determining, for each cell, a direction and velocity of a water current, • c. introducing at least one particle in at least one cell of the model, • d. transporting each introduced particle in the model, based on the computed direction and velocity of the water current, comprising displacing the particle to a neighboring cell or depositing the particle in the cell, and the determination whether the particle is displaced or deposited depends on a particle granulometric class and the velocity of the water current applied to the particle, • e. updating the geological gridded model of the area according to the transport of each introduced particle.
A method for setting parameters of a stratigraphic forward modelling program for modelling the formation of a sedimentary basin, wherein the stratigraphic forward modelling program is configured to simulate the superposition of successive layers of sediments, each layer of sediments corresponding to a determined period of time, the method comprising steps of: - receiving a facies log corresponding to an initial state of at least one well belonging to the sedimentary basin, wherein the facies log comprises a succession of layers of different facies wherein each layer extends from a respective depth with a respective thickness, and - determining a number of layers of sediments to be simulated by the stratigraphic forward modelling program for modelling the facies log, and a thickness of each layer of sediments, such that each facies layer of the facies log is modelled by at least one corresponding layer of sediments simulated by the stratigraphic forward modelling program.
A method of modelling a current induced by a river in a model comprising a plurality of cells, wherein the river-induced current is decomposed into a plurality of sub-currents corresponding to respective water depths, the method comprising, for each sub-current, steps of: - determining a width between lateral boundaries of a respective river jet of the sub-current, as a function of the distance from the river mouth, and - determining a direction and velocity of the sub-current in each cell located within the respective river jet, comprising : o determining a direction and velocity of the sub-current in each cell located at a centerline of the jet, as a function of the distance from the river mouth, and o inferring the direction and velocity of the sub-current in each other cell of the jet as a function of the distance between the cell and the centerline of the jet, and between the cell and the river mouth.
A method for simulating the evolution of a geological gridded model of an area comprising a plurality of cells, over a predetermined period of time T, comprising: a) assigning a water depth to each cell, b) determining, for each cell, a direction and velocity of a water current, c) introducing a number of particles in the model, d) transporting each particle based on the direction and velocity of the current, and e) updating the model according to the transport of each particle, wherein the current is a tidal current, comprising alternate phases of rising tide current and falling tide current, simulating the evolution of the model over the period of time T comprises iterating steps a. to e. a number of times equal to 2k, each iteration of steps a. to e. corresponds to simulating the evolution of the model over a period of time T/2k, each iteration of step b. is performed the rising tide or falling tide current, and two successive iterations of step b. are performed for each one of the rising tide current and falling tide current.
A method of modelling a water current in a geological gridded model of a sedimentary area is disclosed, the model comprising a plurality of cells wherein each cell is assigned a water depth, the method comprising determining a direction and an energy of a water current in each cell of the model, wherein each water current is decomposed into a plurality of sub-currents corresponding to respective water depths, comprising at least: - a plume current, located at water surface, and - a bottom current, located at water bottom, the determination of a direction of a water current comprising determining a single direction common to each sub-current into which the water current is decomposed, and the determination of an energy of a water current comprising : - computing the energy of the plume current, and inferring, from the energy of the plume current, the energy of any other sub-current.
A method for modelling the formation of a sedimentary basin using a stratigraphic forward modelling program is disclosed, wherein the stratigraphic forward modelling program simulates the superposition of successive layers of sediments, each layer of sediments corresponding to a determined period of time, the method comprising: a. Receiving a facies log comprising a succession of layers of different facies, b. determining environmental conditions associated to at least some of the facies of the facies log to infer an environmental factor log, c. determining from the facies log a number of layer of sediments and a thickness of each layer of sediments to be simulated by the stratigraphic forward modelling program for modelling the facies log, and d. determining, from the environmental factor log, environmental parameters associated to the layers of sediments to be simulated by the stratigraphic forward modeling program such that the superposition of the simulated layers or sediments corresponds to the facies logs.
The invention relates to an assembly (10) for acquiring a physical parameter in a granular media (12) comprising: - at least one probe (14) comprising a housing receiving a control unit and at least one geophysical sensor connected to the control unit, the probe (14) being intended to be installed at least partially in the granular media (12), - at least an excitation apparatus (16) configured for generating an upward displacement of the probe (14) with respect to the granular media (12).
THE GOVERNING COUNCIL OF THE UNIVERSITY OF TORONTO (Canada)
Inventeur(s)
Wang, Yuhang
Sargent, Edward
Abrégé
22 and/or CO under electroreduction conditions, wherein the catalytic metal comprising copper (Cu) or silver (Ag) is electrodeposited onto a substrate comprising a gas diffusion layer and wherein the gas diffusion layer includes a metal seed layer disposed thereon, so that the catalytic metal is electrodeposited as an active catalyst layer onto the metal seed layer
The tool comprises : - a support (94) comprising at least a lower surface (102) intended to rest on the ground; - a lifting system (96), carried by the support (94), the lifting system (96) having at least a movable extraction member (104) able to cooperate with the seismic apparatus and an actuator (106) able to actuate the extraction member (104) to lift the seismic apparatus out of the ground, the distance separating vertically the lower surface (102) from the lifting system (96) being at most 2 m.
G01V 1/16 - Éléments récepteurs de signaux sismiquesAménagements ou adaptations des éléments récepteurs
G01V 1/00 - SéismologieProspection ou détection sismique ou acoustique
E21B 47/01 - Dispositifs pour supporter des instruments de mesure sur des trépans, des tubes, des tiges ou des câbles de forageProtection des instruments de mesure dans les trous de forage contre la chaleur, les chocs, la pression ou similaire
G01S 1/72 - Radiophares ou systèmes de balisage émettant des signaux ayant une ou des caractéristiques pouvant être détectées par des récepteurs non directionnels et définissant des directions, situations ou lignes de position déterminées par rapport aux émetteurs de radiophareRécepteurs travaillant avec ces systèmes utilisant des ondes ultrasonores, sonores ou infrasonores
98.
METHOD FOR MEASURING THE ACTIVITY OF A CULTURE OF MICROALGAE
The invention relates to a method for characterizing the activity of a culture comprising microalgae, the method comprising the steps of: supplying a sample of the culture from a bioreactor to a chamber fluidically connected to the bioreactor; illuminating the sample in the chamber; measuring the concentration of dissolved oxygen in the sample in order to determine a rate of oxygen production by the illuminated sample. The invention also relates to a device and an apparatus for characterizing a culture comprising microalgae.
C12M 1/34 - Mesure ou test par des moyens de mesure ou de détection des conditions du milieu, p. ex. par des compteurs de colonies
C12M 1/42 - Appareils pour le traitement de micro-organismes ou d'enzymes au moyen d'énergie électrique ou ondulatoire, p. ex. magnétisme, ondes sonores
C12M 1/00 - Appareillage pour l'enzymologie ou la microbiologie
C12M 1/02 - Appareillage pour l'enzymologie ou la microbiologie avec des moyens d'agitationAppareillage pour l'enzymologie ou la microbiologie avec des moyens d'échange de chaleur
C12Q 1/02 - Procédés de mesure ou de test faisant intervenir des enzymes, des acides nucléiques ou des micro-organismesCompositions à cet effetProcédés pour préparer ces compositions faisant intervenir des micro-organismes viables
99.
A METHOD FOR FORMING COARSE-SCALE 3D MODEL OF HETEROGENEOUS SEDIMENTARY STRUCTURES
The invention discloses a method for forming a coarse-scale three-dimensional geological model of sedimentary structures, the method being implemented by a computer, and comprising: - forming a fine-scale three dimensional model of the sedimentary structures, by implementing steps of: o modeling a plurality of meshed sedimentary surfaces, the plurality of meshed sedimentary surfaces delimiting superposed layers of lithology, o forming an unstructured grid comprising a plurality of cells, wherein each cell extends between at least two sedimentary surfaces, o attributing petrophysical parameters to each cell of the grid, and o attributing, to at least some of the sedimentary surfaces, a transmissivity reduction coefficient, and - upscaling the fine-scale three dimensional model to obtain a coarse- scale three dimensional model comprising a plurality of cells, wherein each cell is associated to petrophysical parameters determined from the petrophysical parameters of the fine-scale model, and from the transmissivity reduction coefficient of the sedimentary surfaces.
Hv HvΗνν relative to each direction H,V, the non-ergodicity parameters depending on the volume dimensions along said directions and on the variogram of absolute permeability.
