A method for preparing self-doped titanium-niobium oxide negative electrode material using a waste titanium dioxide carrier includes preparing self-doped TiNb2O7 negative electrode material for lithium-ion battery by using waste titanium dioxide carrier comprises the following steps: S1. converting a waste titanium dioxide carrier into TiO2 powder with the Ti content of ≥95% and the Al content of 0.1-4.0%, based on the weight of oxide, respectively; and S2. mixing the TiO2 powder and Nb2O5 powder to form a mixture, roasting the mixture, and collecting the generated Al self-doped TiNb2O7, so as to obtain the self-doped TiNb2O7 negative electrode material. According to the method disclosed by the present invention, impurities represented by TiO2 and Al2O3 in the waste titanium dioxide carrier can be directly recycled, a self-doped TiNb2O7 (titanium niobium oxide) negative electrode material.
C22B 7/00 - Mise en œuvre de matériaux autres que des minerais, p. ex. des rognures, pour produire des métaux non ferreux ou leurs composés
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
2.
METHOD FOR PREPARING MOLYBDENUM BASED SELF DOPED LITHIUM NEGATIVE ELECTRODE MATERIAL FROM MOLYBDENUM-CONTAINING WASTE CATALYST, NEGATIVE ELECTRODE MATERIAL, AND LITHIUM-ION BATTERY
A method for preparing molybdenum-based self-doped lithium-ion battery negative electrode material from molybdenum-containing waste catalyst includes: (1) calcinating and mechanically activating a waste hydrogenation catalyst containing molybdenum trioxide and aluminum oxide to obtain an oil-free and carbon-free micron-sized waste catalyst powder; (2) mixing the waste catalyst powder with sodium carbonate to obtain a mixture, and subjecting the mixture to thermal treatment to selectively convert molybdenum trioxide in the waste catalyst into sodium molybdate to obtain a clinker; (3) subjecting the clinker to leaching with water being used as a leaching agent, and collecting a leaching solution; and (4) mixing the leaching solution with a solution of a polyol containing a ferrous salt, subjecting the resulting mixture to a hydrothermal reaction, and collecting produced self-Al-doped ferrous molybdate to obtain the molybdenum-based self-doped lithium-ion battery negative electrode material.
H01M 4/525 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'oxydes ou d'hydroxydes inorganiques de nickel, de cobalt ou de fer d'oxydes ou d'hydroxydes mixtes contenant du fer, du cobalt ou du nickel pour insérer ou intercaler des métaux légers, p. ex. LiNiO2, LiCoO2 ou LiCoOxFy
H01M 4/02 - Électrodes composées d'un ou comprenant un matériau actif
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
3.
METHOD FOR PREPARING MODIFIED PLATINUM-BASED CATALYST FOR FUEL CELL BY REGENERATION OF PLATINUM-RHENIUM SPENT CATALYST, CATALYSTS AND HYDROGEN FUEL CELL
A method includes 1) removal oil from aluminum-based platinum rhenium-containing spent catalysts; 2) mixing the spent catalyst and sodium hydroxide powder and heating in an oxygen-free environment to obtain a clinker; 3) leaching the clinker in a weakly alkaline aqueous solution to obtain a first leach solution containing the elements Al and Re and a first leach residue containing Pt and Re; 4) converting the first leaching solution into a sodium meta-aluminate solution and a sodium perrhenate solution; 5) adding an aqueous solution of an acidic reagent and an aqueous solution of an oxidizing reagent to the first leaching residue for oxidizing acid leaching to obtain a second leaching solution containing precursors including platinum and rhenium; 6) reducing and loading the precursors on a carbon carrier to obtain the modified platinum based catalyst for fuel cell. The method enables the recovery of Re and Al elements from spent catalysts.
CHINA SHI DA EDUCATION DEVELOPMENT CO., LTD. (Chine)
Inventeur(s)
Li, Binglin
Su, Yuliang
Li, Binfei
Zhang, Chao
Wu, Shouya
Li, Dongxia
Wang, Wendong
Li, Lei
Hao, Yongmao
Abrégé
A method for increasing production and injection of a reservoir coupled with flue gas desulfurization and denitrification includes a flue gas desulfurization and denitrification process and a reservoir acid liquor acidizing process, where the flue gas desulfurization and denitrification process is mixing a desulfurizing and denitrating agent with H2O2 solution uniformly to prepare a solution, and spraying it into a flue gas in an opposite direction of flue gas flow, or mixing O3 into a flue gas in an opposite direction of flue gas flow, and simultaneously spraying a desulfurizing and denitrating agent solution. When the pH of the solution system reaches 6 to 6.5, the reacted waste liquor is collected as an acid liquor. The process can control atmospheric pollution, improve the economic efficiency of flue gas treatment, and can prepare acid liquor cheaply.
2 enrichment degree are disclosed, and belongs to the technical field of experimental devices for oil and gas field development engineering. As for the equipment of the present disclosure, it is of a skid-mounted structure, is compact in structure, modular, easy to install, and highly mobile, can be applied to remote regions of overland deserts and narrow spaces on offshore platforms, has very high flexibility in operation and maintenance, and in most cases requires lower capital costs and lower energy consumption. As for a membrane separation unit of the present disclosure, a corresponding permeable gas storage tank is designed for each stage of membrane separator. Moreover, the membrane separation unit is further provided with a retained gas storage tank, and the retained gas storage tank and each stage of permeable gas storage tank are each provided with an injection port.
B01D 53/22 - 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 diffusion
A functionalized molybdenum disulfide nanosheet and its preparation method and application, where the preparation method includes steps below: mixing a solvent, 1 part by weight of lipoic acid and 5-10 parts by weight of a first compound for 2-4 h to obtain a mixture; adding 0.05-0.1 parts by weight of 1-hydroxybenzotriazole into the mixture, mixing for 24-48 h, and drying to obtain an intermediate product; performing ultrasonic treatment or heat treatment on a raw material-solution system to obtain a functionalized molybdenum disulfide nanosheet, where the raw material-solution system includes 5-10 parts by weight of the molybdenum disulfide nanosheet, 1 part by weight of the intermediate product and saline water, the first compound contains an ethylene oxide group and an alkylamine chain, the number of carbon atoms in the alkylamine chain is 12-18, and the number of the ethylene oxide group is 2-15.
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
C09C 1/00 - Traitement de substances inorganiques particulières, autres que des charges fibreuses Préparation du noir de carbone
C09C 3/08 - Traitement par des composés organiques de bas poids moléculaire
C09C 3/10 - Traitement par des composés organiques macromoléculaires
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
7.
Infinitely expandable modular visual device for simulation of flow in porous media
An infinitely expandable modular visual device for simulation of flow in porous media, including a simulation component, a fluid conveying component, and an image acquisition component; the simulation component includes a plurality of simulation units forming at least one layer of simulation unit array, the simulation unit includes a mounting base and a microscopic visualization model including a chip cover and a chip carrier having a porous media region and covered by the chip cover; the mounting bases of respective simulation units are connected to each other, the porous media regions of adjacent simulation units are communicated with each other; the fluid conveying component includes an injection-production pipeline communicated with the simulation units and configured to introduce the simulation fluid into the porous media region; the image acquisition component includes an image sensor facing the simulation unit for acquiring images of fluid flow in porous media.
An experimental apparatus for rock-breaking through vibration impact, including a confining pressure loading assembly, a drill bit, a drill rod, a drilling fluid circulation assembly, a rotary impact assembly and an axial impact assembly. The confining pressure loading assembly is configured to apply pressures to a core sample located in a core cavity in three directions perpendicular to each other. The drill bit is capable of inserting into the core cavity to drill the core sample. The drilling fluid circulation assembly includes a drilling fluid inlet, a drilling fluid outlet and a mud pump connected therebetween. The rotary impact assembly includes a hydraulic rotary motor and a hydraulic swing motor connected to the drill rod, respectively. The axial impact assembly includes a first hydraulic cylinder, and a servo linear actuator connected to the first hydraulic cylinder and the drill rod.
E21B 1/14 - Forage par percussion avec un organe d'impulsion à mouvement alternatif entraîné par un mécanisme rotatif
E21B 1/26 - Forage par percussion avec un organe d'impulsion à mouvement alternatif l'organe d'impulsion étant un piston entraîné directement par la pression d'un fluide par la pression d'un liquide
E21B 21/01 - Dispositions pour manipuler les fluides de forage ou les déblais à l'extérieur du trou de forage, p. ex. réservoirs à boue
E21B 47/06 - Mesure de la température ou de la pression
9.
Combined apparatus for experimentation on different storage modes of carbon dioxide and method thereof
The present disclosure discloses a combined apparatus for experimentation on different storage modes of carbon dioxide, which comprises a displacement device, a storage reaction device and a measuring device, wherein the displacement device comprises a displacement pump, and an intermediate oil-water container and an intermediate carbon dioxide container that are arranged in parallel, the displacement pump is connected to a first end of the parallel connection of the intermediate oil-water container and the intermediate carbon dioxide container, and an inlet end of the storage reaction device is connected to a second end of the parallel connection of the intermediate oil-water container and the intermediate carbon dioxide container; the measuring device comprises a weigher, a first pressure detector, a gas-liquid separator, a gas meter and a mineral analyzer, wherein the first pressure detector is arranged in the intermediate oil-water container, and the gas-liquid separator is connected to the outlet end of the storage reaction device. Thus, the storage amount of carbon dioxide in different storage modes can be evaluated by means of a single apparatus. Compared with the prior art in which different storage experiments are performed separately.
The present application provides an underwater-wellhead feeding tool assembly and a use method thereof. The device controls a controller to add pressure to an inside of a drive cylinder through a first pipeline via a first port, and to add pressure to a cavity apace between a pressure-bearing cylinder and the drive cylinder through a first branch line; the controller controls, through a third branch line, the drive device to transmit a torque to the underwater wellhead feeding tool, and transmit, through a second branch line, an axial force to the underwater wellhead feeding tool; and then a sensing component transmits a detected stress signal and/or strain signal to a data acquisition device through a test lead, thereby testing and analyzing an effect of different force field conditions on mechanical behaviors and performance of the underwater wellhead feeding tool.
A coiled tubing flexible drill rod ultra-short radius radial drilling method, including: when in a first operation mode, activating a screw motor and a flexible power drilling tool located at a lower part of a coiled tubing; when in a second operation mode, only activating the screw motor and deactivating the flexible power drilling tool; and when in a third operation mode, only activating the flexible power drilling tool connected to the drill bit below. A corresponding drilling string and system are also disclosed. The method and system can achieve the effects of a small deflecting radius, an adjustable deflecting angle, a high operating efficiency and a low risk.
Environment-friendly reinforced foam for underground hydrogen storage and a preparation method thereof. The reinforced foam includes hydrogen and a liquid phase, where the liquid phase is an aqueous solution of a foaming agent, a foam stabilizer, a pH regulator and a particle cosolvent; and the foam stabilizer is a compounded system composed of 0-dimensional nanomaterial and 1-dimensional nanomaterial at a mass ratio of 2-5:1. In the reinforced foam of the present disclosure, the 0-dimensional and the 1-dimensional nanomaterials are compounded to form a nano-armor layer, which improves the stability of foam and the interfacial viscoelasticity of a liquid film by synergistic reinforcement, and inhibits the viscous fingering, escape and leakage of hydrogen in a reservoir, thereby not only being beneficial to improving the mobility of hydrogen, but also increasing the safety of hydrogen underground storage.
B65G 5/00 - Emmagasinage des fluides dans des excavations ou cavités naturelles ou artificielles souterraines
C08J 9/12 - Mise en œuvre de substances macromoléculaires pour produire des matériaux ou objets poreux ou alvéolairesLeur post-traitement utilisant des gaz de gonflage produits par un agent de gonflage introduit au préalable par un agent physique de gonflage
13.
AQUEOUS CARBON DIOXIDE FOAM STABILIZED BY ORGANIC JANUS NANOSHEETS AND PREPARATION METHOD AND APPLICATION THEREOF
An aqueous carbon dioxide foam stabilized by organic Janus nanosheets, a preparation method and application thereof. The preparation method can be provided as: S1: subjecting molecules with hydrophobic tail to spontaneous and ordered arrangement in a mixture of ethanol and water; S2: adding molecules with hydrophilic head to the solution of S1, and adjusting a pH value to 6.0-6.5 to perform a synthesis of organic Janus nanosheet monomers; S3: adding ethanol to the solution of S2, and adjusting the pH value to 6.0-6.5 to perform a heating reflux; then adjusting the pH value to 7.0-8.0, and adding sodium ethylate, adjusting a temperature to 70-85° C. to perform a reaction under an inert atmosphere, and then adjusting the pH to 8.0-9.0, and stirring to be completely dissolved. The aqueous CO2 foam is prepared from CO2 and a liquid phase.
E21B 44/00 - Systèmes de commande automatique spécialement adaptés aux opérations de forage, c.-à-d. systèmes à fonctionnement autonome ayant pour rôle d'exécuter ou de modifier une opération de forage sans l'intervention d'un opérateur humain, p. ex. systèmes de forage commandés par ordinateurSystèmes spécialement adaptés à la surveillance de plusieurs variables ou conditions de forage
The present disclosure provides a continental shelf profile determining method and apparatus based on non-delta transgression. The method includes: constructing a continental shelf profile two-dimensional model based on a river supply sediment volume and a sea level rise rate in a target work area; solving the two-dimensional model in a spatial rectangular coordinate system to generate a relational expression which is capable of representing a non-delta transgression slope and a river length; and determining a continental shelf profile of the target work area based on the relational expression. In the context of non-delta transgression, the continental shelf profile determining method and apparatus based on non-delta transgression provided by the present disclosure comprehensively consider the influences of a river sediment supply and a sea level rise on the continental shelf profile, to more accurately determine the change of the continental shelf profile of the target work area in the historical period.
The present disclosure provides a composite ionic liquid and a preparation method and a use thereof. A first aspect of the present disclosure provides a preparation method of a composite ionic liquid, where an ammonium salt, a first metal salt, a second metal salt, and a third metal salt are sequentially added into a reactor for performing a reaction under different conditions, and the composite ionic liquid is obtained after the reaction is finished. The composite ionic liquid prepared by the method may be used as a catalyst to catalyze an alkylation reaction of isoparaffin with C4 olefin to obtain alkylated oil, which has the advantages of high catalytic activity, long catalytic life, low consumption, and better distribution of the resulting alkylated oil, etc, and thereby significantly reducing the production costs and improving the quality of the resulted alkylated oil.
The present invention provides a mixed injection fluid and a corresponding method for enhancing CO2 sequestration and oil recovery, which is a method of the geothermal driven CO2 catalytic reduction for enhancing CO2 sequestration and oil recovery. In the present invention, a technical solution of the liquid nitrogen fracturing, an injection fluid injection, and the catalysis transportation and storage were adopted, which makes full use of the thermal energy of deep geothermal reservoir in combination with nano-Cu-based catalysts to activate the hydrothermal cracking reaction of crude oil and CO2 thermal reduction reaction, so to simultaneously enhance crude oil recovery and CO2 sequestration, fundamentally solving the existing problems of CO2-EOR technologies. Moreover, CO2 thermal catalytic reduction products can also work as a surfactant to accelerate the desorption crude oil from the rock surface and decrease the interfacial tension, and finally EOR.
B01J 23/825 - 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 du gallium, de l'indium ou du thallium
B01J 23/835 - 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 du germanium, de l'étain ou du plomb
E21B 43/114 - Perforateurs utilisant l'action directe d'un fluide, p. ex. jets abrasifs
E21B 43/16 - Procédés de récupération assistée pour l'extraction d'hydrocarbures
E21B 43/38 - Aménagements pour séparer les matériaux produits par le puits dans le puits
18.
STEAM CRACKING METHOD UTILIZING ELECTRICITY FOR PROVIDING ENERGY
Beijing Carbon Zero Hydrogen Electric Technology Co., Ltd. (Chine)
Inventeur(s)
Zhou, Hongjun
Wu, Quangui
Song, Hongmei
Bi, Fengyun
Zhou, Enze
Zhou, Guanglin
Xu, Chunming
Abrégé
The present invention provides a method of steam cracking using electricity to supply energy. This method is to provide energy for steam cracking reaction of a cracking raw material by electromagnetic induction with electricity; the cracking raw material comprises one or more of naphtha, cycloalkane and cycloolefin; wherein the cycloalkane is a C4-C8 cycloalkane, and the cycloolefin is a C4-C8 cycloolefin. The present invention utilizes electricity to provide energy for the steam cracking reaction through an electromagnetic coil, which is a new use of electricity and solve the current problem of excess electricity. Moreover, utilizing the electromagnetic coil to provide power can make the heat distribution in the furnace tube of the cracking furnace more uniform, and it is easier to control the reaction temperature and the progress of the reaction.
Beijing Carbon Zero Hydrogen Electric Technology Co., Ltd. (Chine)
Inventeur(s)
Zhou, Hongjun
Zhou, Guanglin
Jiang, Weili
Zhou, Enze
Wu, Quangui
Abrégé
The present invention provides an iron and steel smelting method, wherein separating the product of the catalytic dehydrogenation reaction on propane to obtain a mixed gas containing hydrogen, methane, and ethane; and mixing the mixed gas with water and/or CO2 as a catalytic conversion raw material, and producing synthesis gas by means of a catalytic conversion reaction, the synthesis gas being used for iron smelting, and electricity being used to provide energy for the catalytic conversion reaction. The method catalytic dehydrogenation of propane is combined with steam cracking, and unconverted propane is prepared into methane, ethane, etc. by means of steam cracking; synthesis gas is further obtained by means of reforming and component adjustment, and the synthesis gas is a good raw material for direct reduction of iron.
C01B 3/26 - Production d'hydrogène ou de mélanges gazeux contenant de l'hydrogène par décomposition de composés organiques gazeux ou liquides d'hydrocarbures avec des catalyseurs
B01J 23/62 - Métaux du groupe du platine avec du gallium, de l'indium, du thallium, du germanium, de l'étain ou du plomb
The present disclosure provides a training method and a prediction method for a diagenetic parameter prediction model based on an artificial intelligence algorithm, which includes: obtaining a plurality of diagenesis samples each including diagenetic condition parameters and an actual diagenetic parameter evolved therefrom; constructing an initial diagenetic parameter prediction model based on the diagenesis samples and a total dimension of the diagenetic condition parameters; and training the initial diagenetic parameter prediction model with the diagenesis samples so as to obtain a trained diagenetic parameter prediction model. The present disclosure can obtain a diagenetic parameter prediction model by training with the existing diagenesis samples, thereby solving problems of large amount of calculation, high uncertainty and large deviations in the prediction of the diagenetic parameters, which leads to a low evaluation accuracy of reservoirs and limits the oil and gas exploration.
The present disclosure provides a cyclone separator and a cyclone separation method. The cyclone separator includes a shell and a core tube. An upper end of the shell is provided with a gas inlet. A lower end of the shell is provided with a shell outlet. An opening at a lower end of the core tube is provided inside the shell. The lower end of the core tube is provided with a baffle structure, and at least a portion of the baffle structure extends vertically. By providing the baffle structure, the present disclosure can cut off the flow path of the short-circuit flow and the radially centripetal moving gas flow such as the centripetal flow in the particle spiral band area, weaken the short-circuit flow, the inner vortex flow and the precessing vortex core, thus improving separation efficiency of fine particles with particle diameters of 1 μm to 10 μm.
A coupled fluidized beds reactor-regenerator apparatus for catalytic dehydrogenation of propane. The fluidized bed reactor comprising a raw material delivery system, a pre-rising system, a reaction system, a gas-solid separation system and an internal circulation pipeline, the reaction system includes a conical riser and a turbulent bed reactor; the raw material delivery system, the pre-rising system, the conical riser, the turbulent bed reactor, and the gas-solid separation system are consecutively connected in this order from bottom to top; the bottom outlet of the gas-solid separation system is connected to the inlet of the internal circulation pipeline, and the outlet of the internal circulation pipeline is connected to the raw material delivery system and/or the reaction system. The coupled fluidized beds reactor-regenerator apparatus for catalytic dehydrogenation of propane includes the fluidized bed reactor, a gas-solid airlift loop regenerator, a recirculation inclined pipe and a regeneration inclined pipe.
B01J 8/26 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solidesAppareillage pour de tels procédés les particules étant fluidisées selon la technique du "lit fluidisé" comportant au moins deux lits fluidisés, p. ex. installations de réaction et de régénération
B01J 8/24 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solidesAppareillage pour de tels procédés les particules étant fluidisées selon la technique du "lit fluidisé"
B01J 8/00 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solidesAppareillage pour de tels procédés
B01D 45/16 - Séparation de particules dispersées dans des gaz ou des vapeurs par gravité, inertie ou force centrifuge en utilisant la force centrifuge produite par le mouvement hélicoïdal du courant gazeux
B01D 45/04 - Séparation de particules dispersées dans des gaz ou des vapeurs par gravité, inertie ou force centrifuge par inertie
B01D 3/38 - Distillation par entraînement à la vapeur
A continuous logging method and device is provide, where the method includes obtaining drilling fragment samples and full-diameter core samples, and screening out target rock cuttings from the drilling fragment samples; performing a micro-indentation experiment on the target rock cuttings to obtain a static parameter thereof; performing a triaxial compression experiment on the full-diameter core samples to obtain a dynamic parameter and a static parameter thereof; determining a first correspondence between the static parameter of the target rock cuttings and the dynamic parameter of the full-diameter core samples; determining a second correspondence between logging data and the static parameter of the target rock cuttings based on the first correspondence; and drawing a formation mechanical property profile based on the second correspondence. The method solves the problem of conventional methods which cannot draw a continuous and complete profile of the mechanical property of the whole well section.
G01N 3/42 - Recherche de la dureté ou de la dureté au rebondissement en effectuant des empreintes sous une charge permanente par des dispositifs de pénétration, p. ex. sphère, pyramide
G01N 3/08 - Recherche des propriétés mécaniques des matériaux solides par application d'une contrainte mécanique par application d'efforts permanents de traction ou de compression
The present invention belongs to the technical field of oil field drilling, and relates to a ground testing device for a stabilized platform of a rotary steerable drilling tool. The ground testing device includes: a first supporting member and a second supporting member that are oppositely arranged, where the second supporting member is provided with a first mounting hole; a drill collar and a drill collar motor mounted outside the first supporting member, where a motor shaft of the drill collar motor penetrates the first supporting member and is connected to the drill collar, and a stabilized platform mounting assembly is arranged inside the drill collar; and a first vibration member connected to the drill collar and a second vibration member arranged in the first mounting hole in a sleeved manner, where an elastic member is arranged between the second vibration member and the second supporting member, and the elastic member is arranged on the second vibration member in a sleeving manner. An end portion of the first vibration member is provided with first vibration teeth, an end portion of the second vibration member is provided with second vibration teeth matching the first vibration teeth, and the second vibration member is provided with a first stop member which matches a second stop member arranged in the first mounting hole. According to the present invention, vibration, interference loading, and high-temperature simulation can be performed, and ground tests of different types of mechanical stabilized platforms are achieved.
Provided is a decision-making method and system for a suspension operation of a marine riser system based on a digital twin, which belongs to the technical field of marine oil and gas development. The decision-making method includes: acquiring original monitoring data by the sensor group to establish a physical entity structure model; acquiring real-time monitoring data to establish a digital twin model of the physical entity structure; and introducing navigation path and speed of the drilling platform, and a configuration and suspension mode of the riser system, combined with the digital twin model of the marine riser coupling system and a limit performance parameter, providing a suspension operation decision-making model of the riser system, and making a real-time accurate suspension operation decision based on a multi-objective optimization algorithm, so as to guarantee a safe and efficient suspension operation of the riser system.
A filter capable of automatically cutting off gas flow, including: a housing (1) with a cavity, a filter element (2) disposed in the cavity, a blocking mechanism disposed in the flow channel (13), and an unblocking member (23). The housing is provided with an inlet end (11) and an outlet end (12). The filter element (2) is provided with a first chamber (21). A second chamber (23) is formed between the filter element (2) and the housing (1), and a flow channel (13) is disposed between the first chamber (21) and the inlet end (11). The blocking mechanism has an unblocking state in which the blocking mechanism is cooperated with the unblocking member (23) to allow a gas flow to flow out of the flow channel (13), and a blocking state in which the blocking mechanism prevents the gas flow from flowing out of the flow channel (13).
CHINA UNITED COALABED METHANE ENGINEERING RESEARCH CENTER CO., LTD. (Chine)
CHINA UNIVERSITY OF PETROLEUM ( BEIJING) (Chine)
Inventeur(s)
Deng, Junyao
Xu, Fengyin
Zhou, Jinhui
Zhang, Lei
Chen, Dong
Wang, Yuan
Ji, Yuan
Sun, Xiaoyi
Chi, Liwei
Zhang, Yi
Mo, Siqi
Yang, Yun
Abrégé
An experimental apparatus for simulating substance exchange between a wellbore and a formation. The apparatus includes: a wellbore simulation system, a wellbore liquid injection system, a formation simulation system, a formation fluid injection system, and a data acquisition system; the wellbore simulation system includes a vertically arranged wellbore body for simulating a wellbore; the formation simulation system includes a horizontally arranged sealing body for simulating a formation and a mortar filler filled in the sealing body; the wellbore liquid injection system is connected to the upper end of the wellbore body; the formation fluid injection system is connected to one end of the sealing body so as to inject a formation fluid into the sealing body; the other end of the sealing body is communicated with the bottom of the wellbore body; and the data acquisition system is electrically connected to the wellbore simulation system and the formation simulation system.
E21B 41/00 - Matériel ou accessoires non couverts par les groupes
G09B 25/02 - Modèles à usages non prévus dans , p. ex. dispositif en vraie grandeur pour la démonstration de procédés industrielsModèles à usages non prévus dans , p. ex. dispositif en vraie grandeur pour la démonstration de machines
28.
Multi-type hydrate formation simulation system and method thereof
The disclosure provides a multi-type hydrate formation simulation system and a method thereof. The simulation system comprises a hydrate generator, a gas source device and a cryogenic cooler. The hydrate generator comprises a reactor, in which a formation simulation space is provided and can be selectively filled with a loose formation skeleton or a consolidated formation skeleton. The gas source device is configured to introduce natural gas at a preset pressure into the formation simulation space. The cryogenic cooler comprises a temperature-adjustable thermotank, in which the hydrate generator is arranged. The simulation system and method provided can be used to study the influence of consolidated hydrate formation structures and loose hydrate formation structures and particle contact modes on the physical properties of hydrate rock, and are of great significance to the interpretation of hydrate formation exploration data and the estimation of hydrate saturation.
A deep-water drilling gas kick pilot-scale apparatus, including: a simulation wellbore having an upper wellbore transitioned to a lower wellbore through a variable cross section; a drilling tool with an annular space formed between the drilling tool and the simulation wellbore; a gas-injection system, comprising an air compressor and a gas-injection pipeline; a mud circulation system, comprising a mud supply source, a first pump, a second pump, and a mud-return pipeline; a Coriolis mass flowmeter provided on the mud-return pipeline; a Doppler sensor installed on the upper wellbore; and a built-in pressure gauge carrier connected between a drill pipe and a drill bit.
E21B 41/00 - Matériel ou accessoires non couverts par les groupes
E21B 21/08 - Commande ou surveillance de la pression ou de l'écoulement du fluide de forage, p. ex. remplissage automatique des trous de forage, commande automatique de la pression au fond
30.
METHOD AND DEVICE FOR IDENTIFYING UNSAFE BEHAVIOR OF DRILLING OPERATOR
The embodiments of the present application provide a method and a device for identifying an unsafe behavior of a drilling operator, which relate to the field of data analysis, and the method includes obtaining eye movement data information of a drilling operator by an eye movement data sensor, processing the eye movement data information to obtain an eye movement characteristic parameter corresponding to the eye movement data information, inputting the eye movement characteristic parameter to an identification model to obtain an output result from the identification model, and determining an operation behavior of the operator according to the output result and sending a warning to the operator when the operation behavior is a preset type. Through analyzing the eye movement data information in real time, whether an operation behavior meets regulations can be determined, thus realizing real-time monitoring and identification of unsafe operation behaviors of the drilling operator.
G06V 40/20 - Mouvements ou comportement, p. ex. reconnaissance des gestes
G06V 10/774 - Génération d'ensembles de motifs de formationTraitement des caractéristiques d’images ou de vidéos dans les espaces de caractéristiquesDispositions pour la reconnaissance ou la compréhension d’images ou de vidéos utilisant la reconnaissance de formes ou l’apprentissage automatique utilisant l’intégration et la réduction de données, p. ex. analyse en composantes principales [PCA] ou analyse en composantes indépendantes [ ICA] ou cartes auto-organisatrices [SOM]Séparation aveugle de source méthodes de Bootstrap, p. ex. "bagging” ou “boosting”
G08B 21/02 - Alarmes pour assurer la sécurité des personnes
31.
System and method for evaluating the effect of proactive utilization of spatial stress field in laboratory
A system and a method evaluate the effect of proactive utilization of a spatial stress field in laboratory. The system includes a rock sample placement device for placing a rock sample, a confining pressure control device for applying a set confining pressure to the rock sample, a fracture imaging device, a fracturing fluid injection device for injecting fracturing fluid into the perforation in the wellbore of the rock sample to form fractures within the rock sample, a stress measurement device, and a processing device for calculating a stress field proactive utilization coefficient of the rock sample.
A switchable two-stage coalescence separation system, including a coalescer housing (1), a plurality of two-stage filter elements (2), and a particle detector (5). A lower portion and an upper portion of each of the two-stage filter elements (2) are located in a lower chamber (101) and an upper chamber (102) of the coalescer housing (1), respectively. Two gas inlet branch pipes are communicated with the lower chamber (101) and the upper chamber (102), respectively and are connected to a gas inlet main pipe (8) through a first multi-way valve (6). The particle detector (5) is disposed on the gas inlet main pipe (8). Two outlet branch pipes are communicated with the lower chamber (101) and the upper chamber (102), respectively and are connected to a gas outlet main pipe 13 through a second multi-way valve (7).
B01D 46/00 - Filtres ou procédés spécialement modifiés pour la séparation de particules dispersées dans des gaz ou des vapeurs
B01D 46/62 - Filtres ou procédés spécialement modifiés pour la séparation de particules dispersées dans des gaz ou des vapeurs avec plusieurs éléments filtrants, caractérisés par leur disposition relative montés en série
B01D 46/58 - Filtres ou procédés spécialement modifiés pour la séparation de particules dispersées dans des gaz ou des vapeurs avec plusieurs éléments filtrants, caractérisés par leur disposition relative montés en parallèle
B01D 46/24 - Séparateurs de particules utilisant des corps filtrants creux et rigides, p. ex. appareils de précipitation de poussières
33.
COALESCING FILTER ELEMENT WITH DOUBLE DRAINAGE LAYERS
A coalescing filter element (300) with double drainage layers, including an inner coalescing component (1) configured to captured a large amount of liquid in gas, and an outer coalescing component (2) configured to coalesce and filter a small amount of liquid remaining in the gas. The inner coalescing component (1) and the outer coalescing component (2) are cylindrical structures disposed in a vertical direction and opened at two ends. The outer coalescing component (2) is sleeved on an outer side of the inner coalescing component (1), and an annular drainage space (3) is formed between the inner coalescing component (1) and the outer coalescing component (2). A top end cap (4) is provided on top ends of the inner coalescing component (1) and the outer coalescing component (2). A bottom end cap (5) is provided on bottom ends of the inner coalescing component (1) and the outer coalescing component (2). The bottom end cap (5) is provided with a gas inlet (503) communicated with an interior of the inner coalescing component (1).
F01K 25/10 - Ensembles fonctionnels ou machines motrices caractérisés par l'emploi de fluides énergétiques particuliers non prévus ailleursEnsembles fonctionnant selon un cycle fermé, non prévus ailleurs utilisant des vapeurs particulières ces vapeurs étant froides, p. ex. ammoniac, gaz carbonique, éther
F01K 13/00 - Dispositions générales ou processus généraux de fonctionnement des installations complètes d'ensembles fonctionnels de machines à vapeur
F01D 15/10 - Adaptations pour la commande des générateurs électriques ou combinaisons avec ceux-ci
35.
Dynamic crack leaking stoppage evaluation experiment device and experiment method
A dynamic crack leaking stoppage evaluation experiment device includes a crack simulation experiment instrument having a dynamic crack simulation mechanism. The dynamic crack leaking stoppage evaluation experiment device can simulate a dynamic change process of a crack from a closed state to an open state. An experiment method can be applied to study a variation range of the width of the crack that have been subjected to self-adaptive leaking stoppage with various combinations of leaking stoppage materials and under different increments, and the method can also be applied to quantitatively study on effecting patterns of rheological parameters and hydraulic parameters of well drilling fluid on stability of a leaking stoppage layer in the dynamic crack, so that enabled is not only simulation of leaking stoppage process of a dynamic crack, but also real-time monitoring and evaluation on leaking stoppage effect and leaking stoppage location inside the dynamic crack.
E21B 21/00 - Procédés ou appareils pour nettoyer les trous de forage par jet de fluide, p. ex. en utilisant l'air d'échappement du moteur
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
G01N 15/02 - Recherche de la dimension ou de la distribution des dimensions des particules
G01N 15/08 - Recherche de la perméabilité, du volume des pores ou de l'aire superficielle des matériaux poreux
CNPC Chuanqing Drilling Engineering Company Limited (Chine)
CNPC Engineering Technology R&D Company Limited (Chine)
Inventeur(s)
Jiang, Guancheng
Sun, Jinsheng
He, Yinbo
Zhang, Xin
Peng, Chunyao
Dong, Tengfei
Tan, Bin
Geng, Tie
Yang, Lili
Luo, Xiaohu
Luo, Xuwu
Liang, Xing
Chen, Changwei
Liu, Xiaobo
Cheng, Rongchao
Luo, Jiansheng
Zhang, Jianguo
Wang, Yong
Fu, Daqi
Ran, Qifa
Zhao, Li
Cui, Kaixiao
Ni, Xiaoxiao
Abrégé
The present invention relates to the field of petroleum industry phase oilfield chemistry, and specifically relates to a bionic and dual-phobic drilling fluid. The drilling fluid contains a bionic wall-fixing agent, a bionic lubricant, a super dual-phobic agent, a scrap-carrying agent and a bionic shale inhibitor. The present invention uses the theory of bionics and the theory of a downhole rock surface being double phobic as a basis. By means of using the bionic wall-fixing agent, the bionic lubricant, the super dual-phobic agent, the scrap-carrying agent and the bionic shale inhibitor, which have special properties of imitating animals and plants in nature, and using a series of bionic treatment agents, a set of bionic and dual-phobic drilling fluid systems, which corresponds to an unconventional, complex oil and gas well, is formed.
A continuous pipe flexible drill rod ultra-short radius radial drilling method, comprising: when in a first operation mode, starting a screw motor (7) and a flexible power drilling tool located at a lower part of a continuous pipe (2), a drill bit (9) being mounted at a lower end of a flexible drill rod (8), and the screw motor (7) and the flexible power drilling tool providing torque and drilling pressure for both the flexible drill rod (8) and the drill bit (9); when in a second operation mode, starting only the screw motor (7) and disabling the flexible power drilling tool, the lower end of the screw motor (7) being connected to the flexible drill rod (8), and the drill bit (9) being installed at the lower end of the flexible drill rod (8); and when in a third operation mode, starting only the flexible power drilling tool, the flexible power drilling tool being connected to the drill bit (9), the screw motor (7) being disabled in the operation process, the flexible drill rod (8) not rotating, the flexible power drilling tool entering a side-drilled branch wellbore along with the drill bit, and torque being directly provided for the drill bit, achieving rotary drilling. A corresponding well drilling column and system are also disclosed. In the present method and system, the results of a small inclination radius, an adjustable inclination angle, high operation efficiency and low risk can be achieved.
The present application provides a pipeline structural fault diagnosis apparatus and a diagnosis method. The pipeline structural fault diagnosis apparatus includes a signal generating apparatus configured to generate an acoustic wave signal by knocking a pipeline; a signal collecting apparatus configured to collect the acoustic wave signal; a signal storage apparatus configured to store the acoustic wave signal for a signal processing and analyzing apparatus to analyze and determine a fault type, a fault degree, and a fault position. The acoustic wave signal after being generated by the signal generating apparatus is collected by the signal collecting apparatus and stored in the signal storage apparatus. The signal processing and analyzing apparatus extracts the acoustic wave signal in the signal storage apparatus, and performs processing and analysis to determine the fault type, the fault degree, and the fault position of the pipeline structure.
A pipeline (10) structure fault diagnosis apparatus, and a diagnosis method, which belong to the technical field of natural gas pipeline (10) safety, and aim to fill the gap in the prior art of the lack of apparatuses for implementing pipeline (10) structure multi-fault integrated diagnosis for natural gas pipelines (10). A signal generation apparatus is used for generating an acoustic wave signal when a pipeline (10) is struck; a signal collection apparatus (40) is used for collecting the acoustic wave signal; and a signal storage apparatus (50) is used for storing the acoustic wave signal for a signal processing and analysis apparatus (70) to perform analysis and determine a fault type, a fault degree and a fault position. After the signal generation apparatus generates the acoustic wave signal, the acoustic wave signal is collected by means of the signal collection apparatus (40), and is stored in the signal storage apparatus (50); the signal processing and analysis apparatus (70) extracts the acoustic wave signal from the signal storage apparatus (50), and performs processing and analysis, so as to determine the fault type, fault degree and fault position of the pipeline (10) structure, which is beneficial for performing fault inspection on the pipeline (10) in a timely manner, thereby guaranteeing safe operation of the pipeline (10).
A dry gas seal filter capable of automatically cutting off an airflow. The dry gas seal filter comprises: a shell (1) with a cavity, wherein the shell (1) is provided with an inlet end (11) and an outlet end (12); a filter element (2) arranged in the cavity, wherein the filter element (2) is provided with a first cavity (21) enclosed by a filter material, a second cavity (22) in communication with the outlet end (12) is formed between the filter element (2) and the shell (1), and a flow channel (13) is provided between the first cavity (21) and the inlet end (11); and a plugging mechanism arranged in the flow channel (13). The filter element (2) is provided with an unplugging piece (23); and the plugging mechanism has an unplugging state for cooperating with the unplugging piece (23) to allow an airflow to flow out of the flow channel (13), and a plugging state for preventing the airflow from flowing out of the flow channel (13).
BEIJING CARBON ZERO HYDROGEN ELECTRIC TECHNOLOGY CO., LTD (Chine)
Inventeur(s)
Zhou, Hongjun
Wu, Quangui
Xu, Chunming
Abrégé
2242424222244, the high-CO-concentration synthesis gas is produced; and CO is extracted therefrom by means of pressure swing adsorption (PSA) at room temperature, which has good economic benefits.
C10K 3/02 - Modification de la composition chimique des gaz combustibles contenant l'oxyde de carbone en vue de produire un carburant amélioré, p. ex. un carburant de pouvoir calorifique différent qui peut ne pas contenir d'oxyde de carbone par traitement catalytique
A method and apparatus for evaluating volumes of discharged hydrocarbon and externally charged hydrocarbon in a mud shale. The method comprises: determining a hydrogen index and a current hydrocarbon generation potential parameter of a mud shale in target block based on total organic carbon test data and pyrolysis analysis test data of the mud shale; determining an original hydrogen index of the mud shale based on the hydrogen index and the pyrolysis analysis test data; and evaluating a volume of discharged hydrocarbon and a volume of externally charged hydrocarbon in the mud shale based on the current hydrocarbon generation potential parameter and the original hydrogen index.
A trapping agent for a hydrocarbon gas. The trapping agent consists of a solid adsorbent and a composite solvent, wherein the solid adsorbent is a zeolitic imidazolate framework material, and the composite solvent comprises an organic solvent and water, with the organic solvent being selected from one or a combination of two or more of 1,3-dimethyl-2-imidazolinone, N,N-dimethylpropenyl urea, isoamyl alcohol, isohexanediol and dimethyl sulfoxide. Further disclosed is a method for separating a near-boiling-point gas by using the trapping agent.
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
C10G 70/04 - Post-traitement de mélanges non définis normalement gazeux obtenus par des procédés couverts par les groupes , , , , par des procédés physiques
C10G 70/06 - Post-traitement de mélanges non définis normalement gazeux obtenus par des procédés couverts par les groupes , , , , par des procédés physiques par mise en contact gaz-liquide
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
C01B 3/48 - Production d'hydrogène ou de mélanges gazeux contenant de l'hydrogène par réaction de composés organiques gazeux ou liquides avec des agents gazéifiants, p. ex. de l'eau, du gaz carbonique, de l'air par réaction d'hydrocarbures avec des agents gazéifiants suivie par une réaction de la vapeur d'eau avec l'oxyde de carbone
C01B 3/40 - Production d'hydrogène ou de mélanges gazeux contenant de l'hydrogène par réaction de composés organiques gazeux ou liquides avec des agents gazéifiants, p. ex. de l'eau, du gaz carbonique, de l'air par réaction d'hydrocarbures avec des agents gazéifiants avec des catalyseurs caractérisée par le catalyseur
C01B 3/56 - Séparation de l'hydrogène ou des gaz contenant de l'hydrogène à partir de mélanges gazeux, p. ex. purification par contact avec des solidesRégénération des solides usés
46.
Method, device and system of vibration reduction control on installation of deepwater drilling riser
The present application provides a method, a device, and a system of vibration reduction control on the installation of a deepwater drilling riser. The method includes: determining a lateral vibration displacement of each position of the riser at different times in an installation process according to a mechanical model of the deepwater drilling riser in the installation process, determining a stress generated by a lateral vibration of the riser in the installation process, determining a vibration reduction control speed applied to a bottom of the riser in the installation process according to the stress and the lateral vibration displacement of each position of the riser at different times in the installation process, and performing a vibration reduction control on the bottom of the riser based on the vibration reduction control speed.
E21B 19/00 - Manipulation de tiges, tubages, tubes ou autre objets analogues à l'extérieur du trou de forage, p. ex. dans la tour de forageAppareils pour faire avancer les tiges ou les câbles
E21B 19/16 - Branchement ou débranchement des accouplements de tubes ou de joints
47.
Experiment device for Spudcan Penetration and Pullout of Jack-up Rig
This disclosure provides an experiment device for spudcan penetration and pullout of a jack-up rig, comprising an experiment bench and a spudcan leg, and further comprising: a ballasting tank; supporting wheels provided on the experiment bench; a suspension rope wound around the supporting wheels with two ends being connected respectively to the spudcan leg and the ballasting tank, wherein the ballasting tank has a first state of being seated on the spudcan leg and a second state of being separated from the spudcan leg and suspended under the suspension rope, by configuring the ballasting tank to have two different states, the gravity of the ballasting tank can be used as both the penetration force and the pullout force, and eliminating the need to provide two loading devices to apply the penetration pressure and the pullout force respectively.
E02B 17/08 - Équipement spécialement conçu pour élever, abaisser ou immobiliser la plate-forme de travail par rapport à la structure de support pour l'élever ou l'abaisser
48.
4D quantitative and intelligent diagnosis method and system for spatio-temporal evolution of oil-gas reservoir damage types and extent
CNPC Chuanqing Drilling Engineering Company Limited (Chine)
CNPC ENGINEERING TECHNOLOGY R&D COMPANY LIMITED (Chine)
Inventeur(s)
Jiang, Guancheng
He, Yinbo
Dong, Tengfei
Peng, Chunyao
Yang, Lili
Luo, Xiaohu
Luo, Xuwu
Liang, Xing
Tan, Bin
Wang, Yong
Fu, Daqi
Geng, Tie
Ran, Qihua
Liu, Xiaobo
Cheng, Rongchao
Wang, Zenglin
Chen, Gang
Zhu, Honghao
Li, Yizheng
Zhao, Li
Cui, Kaixiao
Abrégé
A 4D quantitative and intelligent diagnosis method for spatio-temporal evolution of oil-gas reservoir damage types and extent includes: determining a characteristic parameter characterizing reservoir damage by each of a plurality of factors based on a spatio-temporal evolution simulation equation of reservoir damage by each of the plurality of factors; and determining an effective characteristic parameter characterizing the damage extent of the reservoir based on the characteristic parameter characterizing reservoir damage by each of the plurality of factors. The method quantitatively simulate the characteristic parameters of reservoir damage caused by the various factors and a total characteristic parameter of the reservoir damage.
G01N 11/00 - Recherche des propriétés d'écoulement des matériaux, p. ex. la viscosité, la plasticitéAnalyse des matériaux en déterminant les propriétés d'écoulement
E21B 47/00 - Relevés dans les trous de forage ou dans les puits
E21B 47/06 - Mesure de la température ou de la pression
G01N 13/00 - Recherche des effets de surface ou de couche limite, p. ex. pouvoir mouillantRecherche des effets de diffusionAnalyse des matériaux en déterminant les effets superficiels, limites ou de diffusion
G01N 15/08 - Recherche de la perméabilité, du volume des pores ou de l'aire superficielle des matériaux poreux
49.
Edge and bottom water invasion simulation apparatus and method for gas reservoir, storage medium, and product
The present disclosure provides an edge and bottom water invasion simulation apparatus and method, a storage medium, and a product. A controller controls an inert gas to be injected into a first intermediate container, and stops the injection. The controller controls formation water to be injected into the first intermediate container, and stops the injection. The controller controls the first intermediate container to be communicated with a core holder, and adjusts a pressure of a back pressure valve, so that the formation water enters a core to simulate edge and bottom water invasion. In the present disclosure, by adding the inert gas and the formation water to the intermediate container, an infinite edge and bottom water with sufficient energy at an early stage of a water invasion and a limited edge and bottom water with lower energy at a later stage of the water invasion can be effectively simulated.
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
E21B 41/00 - Matériel ou accessoires non couverts par les groupes
G09B 25/02 - Modèles à usages non prévus dans , p. ex. dispositif en vraie grandeur pour la démonstration de procédés industrielsModèles à usages non prévus dans , p. ex. dispositif en vraie grandeur pour la démonstration de machines
E21B 43/12 - Procédés ou appareils pour commander l'écoulement du fluide extrait vers ou dans les puits
E21B 47/00 - Relevés dans les trous de forage ou dans les puits
G06F 30/20 - Optimisation, vérification ou simulation de l’objet conçu
CHINA SPECIAL EQUIPMENT INSPECTION AND RESEARCH INSTITUTE (Chine)
CHINA UNIVERSITY OF PETROLEUM (BEIJING) (Chine)
Inventeur(s)
Chen, Jinzhong
Xin, Jiaxing
Li, Chunyu
Li, Xiaolong
Wang, Changxin
Zhu, Hongwu
He, Renyang
Abrégé
A pipeline deformation internal detection method based on a magnetization technology, comprising: obtaining composite magnetic field information, a composite magnetic field being the vector sum of a magnetic field generated by a magnetic field generator and a magnetic field generated after the inner surface of a target pipeline is magnetized by the magnetic field generated by the magnetic field generator, and the magnetic field generator being located in the target pipeline (S101); determining a deformed area and an undeformed area in the target pipeline according to the composite magnetic field information (S102); and determining the deformation amount and the deformation inclination angle in the deformed area (S103). The detection does not involve a contact type detection probe, the phenomena of serious abrasion, scratching of the inner wall of a pipeline, and bouncing when a detection probe is far away from a defect area are avoided, and accuracy of a detection result of pipeline deformation is higher. Further provided is a pipeline deformation internal detection device based on the magnetization technology.
G01B 7/24 - Dispositions pour la mesure caractérisées par l'utilisation de techniques électriques ou magnétiques pour mesurer les déformations dans un solide, p. ex. au moyen d'une jauge de contrainte à résistance en utilisant la variation des propriétés magnétiques
G01N 27/83 - Recherche ou analyse des matériaux par l'emploi de moyens électriques, électrochimiques ou magnétiques en recherchant des variables magnétiques pour rechercher la présence des criques en étudiant des champs magnétiques de dispersion
51.
Linkage test apparatus for deepwater drilling riser and hang-off system
The present invention relates to a linkage test apparatus for deepwater drilling riser and hang-off system. The linkage test apparatus includes a motion excitation system, a hang-off system and a riser system. The motion excitation system includes a six-degree-of-freedom excitation platform and sensors. The hang-off system includes a hydraulic cylinder actuating mechanism and a hydraulic system. The hydraulic cylinder in the hydraulic cylinder actuating mechanism is composed of an inner cylinder and an outer cylinder and it is fixed on the six-degree-of-freedom excitation platform by a spider. The inner cylinder of the hydraulic cylinder is hollow. A hang-off joint passes through the center of the inner cylinder, and a bottom of the hang-off joint is connected to the riser system via a rotating flange. The riser system is successively connected by multiple riser test joints, and the bottom is suspended with a lower marine riser package model.
E21B 19/00 - Manipulation de tiges, tubages, tubes ou autre objets analogues à l'extérieur du trou de forage, p. ex. dans la tour de forageAppareils pour faire avancer les tiges ou les câbles
E21B 47/007 - Mesure des contraintes dans le cuvelage ou la tige de forage
52.
PIPELINE STRUCTURAL FAULT DIAGNOSIS APPARATUS AND DIAGNOSIS METHOD
The present application provides a pipeline structural fault diagnosis apparatus and a diagnosis method. The pipeline structural fault diagnosis apparatus includes a signal generating apparatus configured to generate an acoustic wave signal by knocking a pipeline; a signal collecting apparatus configured to collect the acoustic wave signal; a signal storage apparatus configured to store the acoustic wave signal for a signal processing and analyzing apparatus to analyze and determine a fault type, a fault degree, and a fault position. The acoustic wave signal after being generated by the signal generating apparatus is collected by the signal collecting apparatus and stored in the signal storage apparatus. The signal processing and analyzing apparatus extracts the acoustic wave signal in the signal storage apparatus, and perfolins processing and analysis to determine the fault type, the fault degree, and the fault position of the pipeline structure.
G01N 29/30 - Dispositions pour l'étalonnage ou la comparaison, p. ex. avec des objets standard
G01N 29/14 - 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 utilisant des techniques d'émission acoustique
BEIJING CARBON ZERO HYDROGEN ELECTRIC TECHNOLOGY CO., LTD (Chine)
Inventeur(s)
Zhou, Hongjun
Zhou, Guanglin
Jiang, Weili
Zhou, Enze
Wu, Quangui
Abrégé
22 as a catalytic conversion raw material, and producing synthesis gas by means of a catalytic conversion reaction, the synthesis gas being used for iron smelting, and electricity being used to provide energy for the catalytic conversion reaction. According to the present invention, under the circumstances that propane cannot be completely converted in some reaction conditions, catalytic dehydrogenation of propane is combined with steam cracking, and unconverted propane is prepared into methane, ethane, etc. by means of steam cracking; synthesis gas is further obtained by means of reforming and component adjustment, and the synthesis gas is a good raw material for direct reduction of iron.
C21B 13/00 - Fabrication de fer spongieux ou d'acier liquide par des procédés directs
C01B 3/26 - Production d'hydrogène ou de mélanges gazeux contenant de l'hydrogène par décomposition de composés organiques gazeux ou liquides d'hydrocarbures avec des catalyseurs
C01B 3/34 - Production d'hydrogène ou de mélanges gazeux contenant de l'hydrogène par réaction de composés organiques gazeux ou liquides avec des agents gazéifiants, p. ex. de l'eau, du gaz carbonique, de l'air par réaction d'hydrocarbures avec des agents gazéifiants
C01B 3/38 - Production d'hydrogène ou de mélanges gazeux contenant de l'hydrogène par réaction de composés organiques gazeux ou liquides avec des agents gazéifiants, p. ex. de l'eau, du gaz carbonique, de l'air par réaction d'hydrocarbures avec des agents gazéifiants avec des catalyseurs
The present invention provides a continental shelf profile determining method and apparatus based on non-delta transgression. The continental shelf profile determining method based on non-delta transgression comprises: establishing a continental shelf profile two-dimensional model according to the amount of sediments supplied by a river in a target work area and the rate of sea level rise; in a spatial rectangular coordinate system, solving the continental shelf profile two-dimensional model so as to generate a relational expression that can characterize a non-delta transgression slope and a river length; and determining the continental shelf profile of the target work area according to the relational expression. According to the continental shelf profile determining method and apparatus based on non-delta transgression provided by the present invention, the effects of river sediment supply and sea level rise on the continental shelf profile are comprehensively considered in a scenario of non-delta transgression, and thus, changes in the continental shelf profile of the target work area in historical periods are determined more accurately.
BEIJING CARBON ZERO HYDROGEN ELECTRIC TECHNOLOGY CO., LTD (Chine)
Inventeur(s)
Zhou, Hongjun
Wu, Quangui
Song, Hongmei
Bi, Fengyun
Zhou, Enze
Zhou, Guanglin
Xu, Chunming
Abrégé
A steam cracking method utilizing electricity for providing energy. According to the method, electricity is used to provide energy for a steam cracking reaction of a cracking raw material by means of electromagnetic induction. The cracking raw material comprises one or more combinations of naphtha, cycloalkane, and cycloolefin. The cycloalkane is a C4-C8 cycloalkane, and the cycloolefin is a C4-C8 cycloolefin. Electricity is used to provide energy for a steam cracking reaction by means of an electromagnetic coil, so that a new application can be provided for electricity, and the current problem of excessive electric power is solved. Moreover, the electromagnetic coil is used to provide energy, so that the distribution of heat in a furnace tube of a cracking furnace can be more uniform, and the reaction temperature and the reaction can be controlled more conveniently.
BEIJING CARBON ZERO HYDROGEN ELECTRIC TECHNOLOGY CO., LTD (Chine)
Inventeur(s)
Zhou, Hongjun
Wu, Quangui
Zhou, Enze
Xing, Xianbo
Abrégé
22 and then producing synthesis gas by means of a catalytic conversion reaction, the synthesis gas being used for producing sponge iron, wherein electricity is used to provide energy for the steam cracking reaction of the cracking feedstock containing low-carbon alkane. According to the invention, electricity is used to provide energy for the steam cracking reaction and the catalytic conversion reaction by means of an electromagnetic coil, so that a new use of electricity can be provided, thereby solving the existing problem of excess power. Moreover, providing energy using an electromagnetic coil can make the heat distribution of a reaction tube more uniform, thereby facilitating the control of a reaction temperature and advancement of a reaction.
A method, apparatus and system for calculating stress parameters is provided. The method comprises establishing a first image pyramid according to an image of a sample before deformation, and establishing a second image pyramid corresponding to the first image pyramid according to an image of the sample after deformation; starting from a top level in the first image pyramid, iteratively calculating displacement information on each level in the first image pyramid relative to a corresponding level in the second image pyramid based on a center point of each sub-region at each level in the first image pyramid and other positions in the sub-region; calculating strain information on the sample according to displacement information on a bottom level of the first image pyramid; and calculating stress parameters of the sample based on the strain information.
G06K 9/00 - Méthodes ou dispositions pour la lecture ou la reconnaissance de caractères imprimés ou écrits ou pour la reconnaissance de formes, p.ex. d'empreintes digitales
G06T 7/70 - Détermination de la position ou de l'orientation des objets ou des caméras
G06V 10/74 - Appariement de motifs d’image ou de vidéoMesures de proximité dans les espaces de caractéristiques
G06V 10/75 - Organisation de procédés de l’appariement, p. ex. comparaisons simultanées ou séquentielles des caractéristiques d’images ou de vidéosApproches-approximative-fine, p. ex. approches multi-échellesAppariement de motifs d’image ou de vidéoMesures de proximité dans les espaces de caractéristiques utilisant l’analyse de contexteSélection des dictionnaires
G01B 11/16 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la déformation dans un solide, p. ex. indicateur optique de déformation
G01B 15/06 - Dispositions pour la mesure caractérisées par l'utilisation d'ondes électromagnétiques ou de radiations de particules, p. ex. par l'utilisation de micro-ondes, de rayons X, de rayons gamma ou d'électrons pour mesurer la déformation dans un solide
58.
Method for integral profile control and plugging of water encroachment and steam channeling of heavy oil reservoir with edge and bottom water
Disclosed is a method for performing integral plugging control on water invasion and steam channeling of an edge-bottom water heavy oil reservoir. The method for performing integral plugging control on water invasion and steam channeling of an edge-bottom water heavy oil reservoir comprises the following steps: (1) selecting an oil reservoir; (2) arranging a huff-puff well; (3) performing steam huff-puff development; and (4) performing integral plugging control. An integral plugging control technology is used for the method, a high-strength nitrogen foam system is injected by means of well rows at different positions in the oil reservoir, and effective plugging walls are formed at different positions from the edge-bottom water to reduce water invasion and steam channeling.
The present disclosure provides a method for recovering a porosity evolution process of sequence stratigraphy of carbonate rocks. The method comprises: a step of establishing a sequence stratigraphic framework of carbonate rocks; a step of dividing diagenetic stages; a step of simulating diagenesis and porosity evolution with increasing reservoir thickness and continuous superposition of multiple reservoirs during cyclic rise and fall of sea level to obtain a simulation result; and a step of calculating the porosity evolution in space over time by using the simulation result as initial values for simulation of diagenetic evolution process and simulating in stages and continuity the multi-stage diagenetic evolution process that the carbonate rock strata undergo after sediment based on the divided diagenetic stages. Compared with the traditional recovery of single reservoir porosity with time evolution, the method fully considers the superposition effect of multiple upper reservoirs in the process of reservoir sedimentary-diagenesis.
CHINA UNITED COALBED METHANE ENGINEERING RESEARCH CENTER CORPORATION, LTD. (Chine)
CHINA UNIVERSITY OF PETROLEUM ( BEIJING) (Chine)
Inventeur(s)
Deng, Junyao
Xu, Fengyin
Zhou, Jinhui
Zhang, Lei
Chen, Dong
Wang, Yuan
Ji, Yuan
Sun, Xiaoyi
Chi, Liwei
Zhang, Yi
Mo, Siqi
Yang, Yun
Abrégé
An experimental apparatus for simulating substance exchange between a wellbore and a formation. The experimental apparatus comprises: a wellbore simulation system, a wellbore liquid injection system, a formation simulation system, a formation fluid injection system, and a data acquisition system (1); the wellbore simulation system comprises a vertically arranged wellbore body (2) for simulating a wellbore; the formation simulation system comprises a horizontally arranged sealing body (3) for simulating a formation and a mortar filler filled in the sealing body (3); the wellbore liquid injection system is connected to the upper end of the wellbore body (2) so as to inject a wellbore liquid into the wellbore body (2); the formation fluid injection system is connected to one end of the sealing body (3) so as to inject a formation fluid into the sealing body (3); the other end of the sealing body (3) is communicated with the bottom of the wellbore body (2); and the data acquisition system (1) is electrically connected to the wellbore simulation system and the formation simulation system so as to acquire simulation data.
The invention relates to the field of oilfield chemistry, and discloses a self-repairing plugging gel polymer for drilling fluid, a preparation method and application thereof, and the drilling fluid containing the gel polymer, wherein the polymer contains a structural unit A, a structural unit B, a structural unit C and a structural unit D, and the structural unit A is a structural unit with a structure shown in the formula (1); the structural unit B is a structural unit with a structure shown in the formula (2); the structural unit C is a structural unit with a structure shown in the formula (3); the structural unit D is a structural unit having a structure represented by the formula (4). The polymer provided by the invention has excellent mechanical properties and good self-repairing properties, and when the polymer is used as a plugging agent of water-based drilling fluid, the polymer has good plugging properties and high plugging layer repairing efficiency, and simultaneously has good high-temperature resistance.
A coalescence filter element (300) having a liquid discharging function. The coalescence filter element comprises an inner coalescence component (1) for intercepting a large amount of liquid mixed in gas, and an outer coalescence component (2) for coalescing and filtering the remaining small amount of liquid in the gas. The inner coalescence component (1) and the outer coalescence component (2) are cylindrical structures provided in the vertical direction and having openings at the two ends; the outer coalescence component (2) is sleeved on the outer side of the inner coalescence component (1), and an annular liquid discharging space (3) is reserved between the inner coalescence component (1) and the outer coalescence component (2); the top end of the inner coalescence component (1) and the top end of the outer coalescence component (2) are provided with an upper end cover (4), the bottom end of the inner coalescence component (1) and the bottom end of the outer coalescence component (2) are provided with a lower end cover (5), and a gas inlet (503) communicated with the inner side of the inner coalescence component (1) is formed on the lower end cover (5).
A switching-type two-stage coalescence separation system, comprising a coalescer housing (1), a plurality of two-stage filter elements (2) and a particle detector (5), wherein a lower portion and a upper portion of each two-stage filter element (2) are respectively located in a lower cavity (101) and an upper cavity (102) of the coalescer housing (1); two gas intake branch pipes are respectively in communication with the lower cavity (101) and the upper cavity (102); the two gas intake branch pipes are respectively connected into a gas intake main pipe (8); a first multi-way valve (6) is arranged at a position where the gas intake main pipe (8) and the two gas intake branch pipes are connected to each other; the particle detector (5) is arranged on the gas intake main pipe (8); two gas output branch pipes are respectively in communication with the lower cavity (101) and the upper cavity (102); the two gas output branch pipes are respectively connected into a gas output main pipe (13); and a second multi-way valve (7) is arranged at a position where the gas output main pipe (13) and the two gas output branch pipes are connected to each other.
B01D 46/54 - Séparateurs de particules utilisant des feuilles ou diaphragmes filtrants à structure ultra-fine, p. ex. appareils de précipitation de poussières
C10L 3/10 - Post-traitement de gaz naturel ou de gaz naturel de synthèse
64.
Method for producing chemicals from crude oil by double-tube parallel multi-zone catalytic conversion
A method for producing chemicals from crude oil by double-tube parallel multi-zone catalytic conversion is provided. The method may include the following steps: feeding the crude oil directly or separating the crude oil into light and heavy components by flash evaporation or distillation after desalination and dehydration; strengthening the contact and reaction between oil gas and catalyst by using two parallel reaction tubes with novel structure, controlling the reaction by zones, carrying out optimal combination on feeding modes according to different properties of reaction materials, controlling suitable reaction conditions for different materials, and increasing the production of light olefins and aromatics.
C10G 51/02 - Traitement des huiles d'hydrocarbures, en l'absence d'hydrogène, uniquement par plusieurs procédés de craquage uniquement par plusieurs étapes en série
C10G 1/10 - Production de mélanges liquides d'hydrocarbures à partir de schiste bitumineux, de sable pétrolifère ou de matières carbonées solides non fusibles ou similaires, p. ex. bois, charbon à partir de caoutchouc ou de déchets de caoutchouc
C10G 1/00 - Production de mélanges liquides d'hydrocarbures à partir de schiste bitumineux, de sable pétrolifère ou de matières carbonées solides non fusibles ou similaires, p. ex. bois, charbon
65.
METHOD AND APPARATUS FOR DETERMINING CONTENT OF ADSORBED GAS IN DEEP SHALE, AND SERVER
A method and apparatus for determining content of adsorbed gas in a deep shale, and a server, wherein experimental tests are combined with molecular dynamics models. Firstly, tests are performed on a core sample of a target area at various temperatures in a first-class pressure environment with low pressure to obtain shale gas adsorption data of the core sample; next, a first shale molecule dynamics model of the core sample is established, and a fitting adjustment is performed on the first shale molecule dynamics model using the shale gas adsorption data to obtain a second shale molecule dynamics model. Further, the second shale molecular dynamics model is used to obtain, by analogue simulation, shale gas adsorption data of the core sample corresponding to the various temperatures in a second-class pressure environment with high pressure, so as to obtain an accurate and comprehensive adsorption characteristic curve in a full pressure range.
G01N 7/04 - Analyse des matériaux en mesurant la pression ou le volume d'un gaz ou d'une vapeur par absorption, adsorption ou combustion des constituants et mesure de la variation de pression ou de volume du reste par absorption ou adsorption seules
A correction method for a microseism interpretation fracturing fracture parameter result. The method includes classifying the communication modes of a block sampling fractured wells to be corrected according to the matching degree of micro seismic monitoring result and sand adding amount; correcting the volume coefficient of each said classified fractured well single well, and the volume correction coefficient Bv of each said fractured well is:
T is a theoretical calculation value obtained by using field construction parameters; C, calculating the classification volume correction coefficient of each class of fractured wells according to the calculated single well volume correction coefficient of each said fractured well. The micro seismic interpretation result can be corrected in combination with the field construction parameters, so that the micro seismic monitoring data can be utilized to truly interpret the effective fracture morphology after fracturing.
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
The invention relates to the technical field of oil and gas drilling, and discloses an amphiphilic block polymer ultralow-permeability agent and an intelligent temporary plugging type water-based drilling fluid. The ultralow-permeability agent contains a structural unit provided by styryl hydrophobic monomer, maleic anhydride and acrylamide; the drilling fluid contains two or more of water, sodium bentonite, Pac-Lv, the ultralow-permeability agent, calcium carbonate, one-way plugging agent, white asphalt and barite which are stored in a mixed manner or independently stored. When the amphiphilic block polymer provided by the invention is used as the ultralow-permeability agent of the intelligent temporary plugging type water-based drilling fluid, the self-adaptive characteristic is realized; according to the amphiphilic block polymer, temporary plugging layer gaps formed in pore and throats by plugging materials in drilling fluid can be fully filled under the condition that the sizes and the distribution of the pore and throats of reservoirs are not required to be clear, so that the permeability of temporary plugging layer is greatly reduced, ultralow-permeability is realized, and the amphiphilic block polymer is weak in tackifying effect, has gel-improving effect and can improve the rheological property of the drilling fluid.
Disclosed are a temporary plugging agent and a preparation method thereof, and a method for temporary plugging and fracturing of a high-temperature reservoir. The temporary plugging agent includes the following components in mass fractions: acrylamide 5%, composite crosslinking agent 1%, laponite 1%, ammonium persulfate 0.1% and water 92.9%.
The present invention relates to the technical field of sand control for oil-gas wells. Disclosed is a screen pipe. The screen pipe comprises: a base pipe, first openings being formed in the side wall of the base pipe; a protective shell sleeved outside the base pipe, second openings being formed in the side wall of the protective shell, and an annular accommodating cavity being formed between the base pipe and the protective shell; and a pre-filled particle unit filled in the accommodating cavity, and comprising ceramsite and soluble particles which can be dissolved by contacting oil or water or an acid solution or an alkali solution or a salt solution or natural gas. According to the present application, the self-unblocking function can be achieved, thereby prolonging the high and stable production period of sand wells.
A nuclear magnetic resonance coil array and a decoupling method thereof, and a nuclear magnetic resonance detection device. The coil array includes: a coil resonant unit and a decoupling network unit, where the coil resonant unit includes multiple coil resonant circuits; the decoupling network unit includes multiple decoupling circuits; where a coil resonant circuit includes a coil and a resonant capacitor; the resonant capacitor in each coil resonant circuit is connected in parallel with the coil; the coils in each coil resonance circuit are equally spaced on a circumference; a decoupling circuit is provided between a positive terminal and a negative terminal of adjacent coils, respectively; each coil is connected to an antenna switching circuit of a nuclear magnetic resonance detection device at the same time.
G01R 33/36 - Détails électriques, p. ex. adaptations ou couplage de la bobine au récepteur
G01V 3/32 - 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 fonctionnant par résonance magnétique électronique ou nucléaire
G01R 33/34 - Détails de structure, p. ex. résonateurs
71.
RISK ASSESSMENT-BASED DESIGN METHOD FOR DEEP COMPLEX FORMATION WELLBORE STRUCTURE
A risk assessment-based design method for a deep complex formation wellbore structure includes: (1) preliminarily determining casing layers and setting depths; (2) calculating to obtain the risk coefficients of each layer of casing; (3) analyzing and coordinating, according to the principle that a shallow casing shares more risks and a deep casing shares less risks, the risks of each layer of casing: determining whether the risk coefficients of each layer of casing are greater than a safety threshold value K; checking the setting depth: if the safety coefficient of an ith-layer casing satisfies RNi>K, selecting a casing layer with the minimum safety coefficient from upper casing layers, and deepening the setting depth h of the casing layer; and (4) repeating the steps (2) to (3) until the casing risk coefficients of each layer of casing are less than the safety threshold value K.
E21B 44/06 - Commande automatique de l'avance de l'outil en réponse à l'écoulement ou à la pression du fluide moteur du moyen d'entraînement
E21B 47/06 - Mesure de la température ou de la pression
E21B 47/007 - Mesure des contraintes dans le cuvelage ou la tige de forage
E21B 21/08 - Commande ou surveillance de la pression ou de l'écoulement du fluide de forage, p. ex. remplissage automatique des trous de forage, commande automatique de la pression au fond
72.
DYNAMIC FRACTURE PLUGGING EVALUATION EXPERIMENT APPARATUS AND EXPERIMENT METHOD THEREFOR
A dynamic fracture plugging evaluation experiment apparatus and an experiment method therefor. The dynamic fracture plugging evaluation experiment apparatus comprises a fracture simulation experiment instrument (1), a liquid storage container (3), a recovery tank (4), a hydraulic pump (5), a hand pump (6), a liquid weighing electronic scale (7), an inlet pressure gauge (8), an outlet pressure gauge (9), a first back pressure valve (10) and a second back pressure valve (400), the fracture simulation experiment instrument (1) being provided with a dynamic fracture simulation mechanism. The dynamic fracture plugging evaluation experiment apparatus can simulate a dynamic change process of the fractures from closing to opening, realize the simulation of the plugging process of the dynamic fractures, and monitor in real time and evaluate the plugging effect and plugging position in the dynamic fractures.
E21B 33/13 - Procédés ou dispositifs de cimentation, de bouchage des trous, des fissures ou analogues
E21B 43/26 - Procédés pour activer la production par formation de crevasses ou de fractures
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
Disclosed is a high-viscosity oil exploitation method. The method is to inject high-temperature low-viscosity oil or a combination of high-temperature low-viscosity oil and gas into a high-viscosity oil reservoir for steam stimulation. The high-temperature low-viscosity oil or the combination of the high-temperature low-viscosity oil and gas reduces the viscosity of high-viscosity oil in the stratum by means of dissolution and heating, and increases the stratum pressure; the high-temperature low-viscosity oil comprises one or a combination of two or more of light fractions and intermediate fractions obtained by on-site distillation of the high-viscosity oil.
The present disclosure provides a mechanical property detection device and a force detection system, and relates to the technical field of hydrate experiment equipment. The mechanical property detection device includes a reaction kettle, a thrust mechanism, and a force detection sensor; a reaction platform and a reaction frame provided on the reaction platform are provided in the reaction kettle, an end of the thrust mechanism extends into the reaction kettle, and can push the reaction frame to move relative to the reaction platform, and the force detection sensor is configured to detect magnitude of a thrust of the thrust mechanism when pushing the reaction frame, so as to solve the technical problems such as inconvenience in testing an adhesive force of gas hydrate in the prior art.
G01N 19/04 - Mesure de la force d'adhérence entre matériaux, p. ex. du ruban adhésif, d'un revêtement
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
An experiment device for crack plugging simulation and experiment methods therefor. The experiment device comprises a main circulation circuit and a first branch (61), wherein the main circulation circuit comprises a plugging slurry tank (1), a stratum water tank (2), an upper circulation pipeline (3), a lower circulation pipeline (4), a crack plugging simulator (5) and a pulse electromagnetic valve (32). The experiment methods include an experiment method for simulating the eroding of cracks and crack surfaces by stratum water until the cracks are saturated, an experiment method for simulating the plugging of cracks using a dynamic plugging slurry with a constant pressure difference maintained between two sides of a plugging layer (100), an experiment method for simulating the eroding of a plugging layer (100) by a drilling fluid, and an experiment method for evaluating the plugging effect of the plugging slurry on plugging the cracks. Forward and reverse pressure-bearing tests and pressure-bearing capacity tests under alternating positive and negative pressures can be applied on a plugging layer (100) formed in a penetrating crack (51), and the plugging of the plugging slurry in a simulated drilling process and the continuous plugging capacity of the plugging layer (100) after plugging is completed are authentically evaluated, and thus, the plugging effect of plugging materials is evaluated.
CNPC CHUANQING DRILLING ENGINEERING COMPANY LIMITED (Chine)
CNPC ENGINEERING TECHNOLOGY R&D COMPANY LIMITED (Chine)
Inventeur(s)
Jiang, Guancheng
Sun, Jinsheng
He, Yinbo
Zhang, Xin
Peng, Chunyao
Dong, Tengfei
Tan, Bin
Geng, Tie
Yang, Lili
Luo, Xiaohu
Luo, Xuwu
Liang, Xing
Chen, Changwei
Liu, Xiaobo
Cheng, Rongchao
Luo, Jiansheng
Zhang, Jianguo
Wang, Yong
Fu, Daqi
Ran, Qifa
Zhao, Li
Cui, Kaixiao
Ni, Xiaoxiao
Abrégé
The present invention relates to the field of petroleum industry phase oilfield chemistry, and specifically relates to a bionic and dual-phobic drilling fluid. The drilling fluid contains a bionic wall-fixing agent, a bionic lubricant, a super dual-phobic agent, a scrap-carrying agent and a bionic shale inhibitor. The present invention uses the theory of bionics and the theory of a downhole rock surface being double phobic as a basis. By means of using the bionic wall-fixing agent, the bionic lubricant, the super dual-phobic agent, the scrap-carrying agent and the bionic shale inhibitor, which have special properties of imitating animals and plants in nature, and using a series of bionic treatment agents, a set of bionic and dual-phobic drilling fluid systems, which corresponds to an unconventional, complex oil and gas well, is formed.
METHOD FOR 4D QUANTITATIVE AND INTELLIGENT DIAGNOSIS OF SPATIOTEMPORAL EVOLUTION OF TYPE AND DEGREE OF DAMAGE TO OIL AND GAS RESERVOIR, AND SYSTEM THEREFOR
CNPC CHUANQING DRILLING ENGINEERING COMPANY LIMITED (Chine)
CNPC ENGINEERING TECHNOLOGY R&D COMPANY LIMITED (Chine)
Inventeur(s)
Jiang, Guancheng
He, Yinbo
Dong, Tengfei
Peng, Chunyao
Yang, Lili
Luo, Xiaohu
Luo, Xuwu
Liang, Xing
Tan, Bin
Wang, Yong
Fu, Daqi
Geng, Tie
Ran, Qifa
Liu, Xiaobo
Cheng, Rongchao
Wang, Zenglin
Chen, Gang
Zhu, Honghao
Li, Yizheng
Zhao, Li
Cui, Kaixiao
Abrégé
The present invention relates to the field of an oil field exploration technology, and discloses a method for 4D quantitative and intelligent diagnosis of spatiotemporal evolution of the type and degree of damage to an oil and gas reservoir, and a system therefor. Said method comprises: on the basis of a spatiotemporal evolution simulation equation for a plurality of factors damaging a reservoir, determining feature parameters characterizing the plurality of factors damaging the reservoir respectively; and on the basis of the feature parameters characterizing the plurality of factors damaging the reservoir respectively, determining effective feature parameters characterizing the degree of damage to the reservoir. The present invention quantitatively simulates feature parameters of reservoir damage caused by various factors and a total feature parameter of the reservoir damage, thereby performing reservoir damage quantitative prediction and damage regular spatiotemporal evolution on wells without reservoir damage, and having scientific guidance significance for preventing reservoir damage, formulating a development scheme of oil reservoirs and subsequent stimulation measures, and performing reservoir damage quantitative diagnosis and damage regular spatiotemporal evolution on damaged wells, thereby optimally designing unplugging measures, and improving or restoring oil and gas well yield and water filling capacity of water wells.
G06F 30/20 - Optimisation, vérification ou simulation de l’objet conçu
G16C 10/00 - Chimie théorique computationnelle, c.-à-d. TIC spécialement adaptées aux aspects théoriques de la chimie quantique, de la mécanique moléculaire, de la dynamique moléculaire ou similaires
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
G01N 15/08 - Recherche de la perméabilité, du volume des pores ou de l'aire superficielle des matériaux poreux
G01N 13/00 - Recherche des effets de surface ou de couche limite, p. ex. pouvoir mouillantRecherche des effets de diffusionAnalyse des matériaux en déterminant les effets superficiels, limites ou de diffusion
The present disclosure discloses a fluidized bed cooler with regional coordination enhancement, comprising a shell, a catalyst inlet, an interior of the shell is divided into a catalyst inlet influence region, a dilute phase region, a dense phase region and a gas distributor influence region; a catalyst inlet inclined tube is provided obliquely upward at the catalyst inlet, and a regional particle distributor is provided at the catalyst inlet; the dense phase region is provided with a plurality of dense phase baffle plates, and the dilute phase region is provided with a plurality of dilute phase baffle plates; and the gas distributor influence region is provided with double gas distributors. The fluidized bed cooler simultaneously well solves the low internal stability and the low heat exchange efficiency of the fluidized bed cooler, thereby realizing the stable and efficient operation of the fluidized bed cooler.
B01J 8/00 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solidesAppareillage pour de tels procédés
B01J 8/18 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solidesAppareillage pour de tels procédés les particules étant fluidisées
B01J 19/00 - Procédés chimiques, physiques ou physico-chimiques en généralAppareils appropriés
B01J 19/24 - Réacteurs fixes sans élément interne mobile
79.
Method for preparing needle coke for ultra-high power (UHP) electrodes from heavy oil
B01D 15/34 - Séparation par sélection en fonction de la taille, p. ex. chromatographie d'exclusion de tailleFiltration sur gelPerméation
B01D 15/36 - Adsorption sélective, p. ex. chromatographie caractérisée par le mécanisme de séparation impliquant une interaction ionique, p. ex. échange d'ions, paire d'ions, suppression d'ions ou exclusion d'ions
B01J 39/04 - Procédés utilisant des échangeurs organiques
B01J 39/20 - Composés macromoléculaires obtenus par des réactions ne faisant intervenir que des liaisons carbone-carbone non saturées
B01J 39/26 - Échangeurs de cations pour procédés chromatographiques
B01J 41/04 - Procédés utilisant des échangeurs organiques
B01J 41/14 - Composés macromoléculaires obtenus par des réactions ne faisant intervenir que des liaisons carbone-carbone non saturées
B01J 41/20 - Échangeurs d'anions pour procédés chromatographiques
C10B 55/00 - Cokéfaction des huiles minérales, bitumes, goudrons ou analogues, ou de leurs mélanges, avec des matières carbonées solides
C10B 57/02 - Procédés de carbonisation ou de cokéfaction à phases multiples
C10G 55/04 - Traitement des huiles d'hydrocarbures, en l'absence d'hydrogène, par au moins un procédé de raffinage et par au moins un procédé de craquage uniquement par plusieurs étapes en série comprenant au moins une étape de craquage thermique
Disclosed is an experimental device for the real-time monitoring of the sealing integrity of a cement sheath for well cementation, the device comprising a fixing device (1), a well bore device (2) and a cement slurry injection system (3), wherein the bottom end of an inner casing (22) and the bottom end of an outer barrel (21) are both fixed within a base (12); a cavity between an inner wall of the outer barrel (21) and an outer wall of the inner casing (22) forms a cement sheath cavity (24); an optical fiber sensing cable (23) is arranged on the outer wall of the inner casing (22); a cement slurry storage device (31) is in communication with the cement sheath cavity (24) via a cement slurry injection pipe (32); and a cement slurry injection pump (33) is provided on the cement slurry injection pipe (32). The experimental device for the real-time monitoring of the sealing integrity of a cement sheath for well cementation achieves the real-time continuous monitoring, in a whole well section, of the sealing integrity of a cement sheath for well cementation, with precise and reliable measured values. For different experiments for monitoring of the sealing integrity of a cement sheath, it is only necessary to replace same with outer barrels having different functions for simulating strata and pipelines, and corresponding injection systems, which greatly reduces the experiment cost.
A distillate super/subcritical fluid enhanced hydrogenation method, comprising: preheating a mixture of a distillate raw material, a solvent and hydrogen, then introducing the mixture into a first-stage fixed bed reactor, carrying out first-stage catalytic hydrogenation in a supercritical or subcritical fluid state, separating a reaction effluent, collecting a hydrogenated oil product therein and obtaining a hydrogen-containing gas and a solvent-containing light fraction; and returning the solvent-containing light fraction to the first-stage fixed bed reactor for recycling. The method improves the solubility and diffusion mass transfer performance of hydrogen in a distillate hydrogenation reaction system, and improves the hydrogenation reaction efficiency of the distillate.
C10G 45/22 - Raffinage des huiles d'hydrocarbures au moyen d'hydrogène ou de composés donneurs d'hydrogène pour éliminer des hétéro-atomes sans modifier le squelette de l'hydrocarbure mis en œuvre et sans craquage en hydrocarbures à point d'ébullition inférieurHydrofinissage avec l'hydrogène dissous ou en suspension dans l'huile
C10G 45/44 - Hydrogénation des hydrocarbures aromatiques
C10G 3/00 - Production de mélanges liquides d'hydrocarbures à partir de matières organiques contenant de l'oxygène, p. ex. huiles, acides gras
C07C 1/00 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure
82.
HYDRATE-CONTAINING STRATUM HEATING SETTLEMENT SIMULATION EXPERIMENT DEVICE AND METHOD
A hydrate-containing stratum heating settlement simulation experiment device and method, the device comprising: a reaction container (1) configured having a reaction cavity (101); a pressurizing assembly (2) and a temperature control assembly (3) which are connected to the reaction container (1) and used for regulating the pressure and temperature in the reaction cavity (101) respectively; a confining pressure assembly (4) surrounding the sidewall of the reaction container (1) and used for adjusting the confining pressure in the reaction cavity (101); an electric heating pipe (5), vertically arranged at the bottom of the reaction cavity (101) and extending upward to be inserted into hydrate, wherein the electric heating pipe is provided with a hollow channel, and meshes communicating with the hollow channel are formed in the side wall thereof; a collecting and measuring device (6), communicating with the electric heating pipe (5) and used for collecting and measuring the amount of gas, liquid and solid generated after the hydrate melts; and a control module, connected to the pressurizing assembly (2), the temperature control assembly (3), the confining pressure assembly (4) and the collecting and measuring device (6). The hydrate-containing stratum heating settlement simulation experiment device and the method may acquire the change rule of the amount of the hydrate decomposing gas, liquid and solid and the stratum settlement amount within different heating ranges and under different heating temperature conditions.
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
E21B 43/24 - Procédés de récupération assistée pour l'extraction d'hydrocarbures utilisant la chaleur, p. ex. injection de vapeur
E21B 43/295 - Gazéification de matières minérales, p. ex. pour produire des mélanges de gaz combustibles
A permafrost formation thawing and subsidence test simulation device and a method. The device comprises: a reaction container (1) provided with a reaction cavity (101); a pressurization assembly (2) and a temperature control assembly (3) connected to the reaction container (1); a confining pressure assembly (4) surrounding a sidewall of the reaction container (1); a simulation conduit system (5) comprising a conduit (501) provided within the reaction cavity (101), and a drilling rod (502) passing through the conduit (501), wherein an annular space (503) is formed between the drilling rod (502) and the conduit (501); a drilling fluid circulation system (6) comprising a drilling fluid storage tank (601), a fluid inlet pipeline (602) communicated with the conduit (501), a fluid return pipeline (603) communicated with the annular space (503), a heating device (604) provided on the fluid inlet pipeline (602), a pressurization pump (605), a switch valve (606), and a filter device (608) provided on the fluid return pipeline (603); a measurement acquisition device (7) communicated with the reaction cavity (101); and a control module connected to the pressurization assembly (2), the temperature control assembly (3), the switch valve (606), and the measurement acquisition device (7). The device can obtain a change pattern of thawing water discharge amounts and formation subsidence amounts in different heating ranges and different heating temperature conditions.
G01N 25/02 - Recherche ou analyse des matériaux par l'utilisation de moyens thermiques en recherchant les changements d'état ou de phaseRecherche ou analyse des matériaux par l'utilisation de moyens thermiques en recherchant le frittage
G09B 25/06 - Modèles à usages non prévus dans , p. ex. dispositif en vraie grandeur pour la démonstration pour la topographieModèles à usages non prévus dans , p. ex. dispositif en vraie grandeur pour la démonstration pour la géographie, p. ex. modèles en relief
84.
Intelligent prediction method and apparatus for reservoir sensitivity
The embodiments of the invention provide an intelligent prediction method and apparatus for reservoir sensitivity, belonging to the technical field of reservoir sensitivity prediction. The method includes: acquiring a reservoir sensitivity influence factor item related to a reservoir sensitivity result to be predicted and numerical values of corresponding reservoir sensitivity influence factors; determining a corresponding type of database according to the reservoir sensitivity influence factor item; determining whether numerical values of reservoir sensitivity influence factors corresponding to core parameters in the numerical values of the reservoir sensitivity influence factors include a first upper boundary value or a first lower boundary value; and using, according to whether the first upper boundary value or the first lower boundary value is included, different intelligent sensitivity prediction models to calculate the reservoir sensitivity result to be predicted.
G01V 99/00 - Matière non prévue dans les autres groupes de la présente sous-classe
E21B 49/08 - Prélèvement d'échantillons de fluides ou test des fluides dans les trous de forage ou dans les puits
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
E21B 47/003 - Détermination des volumes du puits ou trou de forage
G06N 3/04 - Architecture, p. ex. topologie d'interconnexion
G06Q 10/04 - Prévision ou optimisation spécialement adaptées à des fins administratives ou de gestion, p. ex. programmation linéaire ou "problème d’optimisation des stocks"
G01V 1/28 - Traitement des données sismiques, p. ex. pour l’interprétation ou pour la détection d’événements
G06Q 10/06 - Ressources, gestion de tâches, des ressources humaines ou de projetsPlanification d’entreprise ou d’organisationModélisation d’entreprise ou d’organisation
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
G06F 7/60 - Méthodes ou dispositions pour effectuer des calculs en utilisant une représentation numérique non codée, c.-à-d. une représentation de nombres sans baseDispositifs de calcul utilisant une combinaison de représentations de nombres codées et non codées
E21B 43/16 - Procédés de récupération assistée pour l'extraction d'hydrocarbures
E21B 41/00 - Matériel ou accessoires non couverts par les groupes
85.
Artificial sandstone and/or conglomerate core based on lithology and pore structure control and preparation method and application thereof
The present disclosure relates to the technical field of artificial cores, in particular to a preparation method of artificial sandstone and/or conglomerate core based on lithology and pore structure control. The method comprises the following steps: mixing and molding sand particles and a inorganic cementing agent in sequence, and further adding a curing agent for performing solidification to prepare an artificial sandstone and/or conglomerate core; wherein composition of the sand particles is determined according to lithology and pore structure of the artificial sandstone and/or conglomerate core. The present disclosure combines the lithology and the pore structure of the artificial sandstone and/or conglomerate core with the composition of the sand particles, particularly regulates and controls the composition of the sand particles according to the pore throat distribution pattern and the average pore throat radius, thereby performing precise control on the artificial sandstone and/or conglomerate core.
C09K 8/467 - Compositions de cimentation, p. ex. pour la cimentation des tubes dans les trous de forageCompositions de bouchage, p. ex. pour tuer des puits contenant des liants inorganiques, p. ex. ciment Portland contenant des additifs pour des utilisations spécifiques
C04B 28/02 - Compositions pour mortiers, béton ou pierre artificielle, contenant des liants inorganiques ou contenant le produit de réaction d'un liant inorganique et d'un liant organique, p. ex. contenant des ciments de polycarboxylates contenant des ciments hydrauliques autres que ceux de sulfate de calcium
86.
Combined treatment method of petroleum-contaminated soil
A combined remediation method of petroleum-contaminated soil includes: impurity removal pretreatment, photocatalytic pre-oxidation, stepwise thermal desorption of petroleum from soil, and high-temperature oxidation; with iron-titanium composite metal oxide (ITCMO) as a catalyst, conducting oxidation pretreatment under light conditions so that some cross-linked structures in macromolecular petroleum contaminants are broken and degraded; and conducting stepwise pyrolysis to achieve a removal rate of more than 98.00%. The new method adopts a combined remediation technology of photocatalytic pre-oxidation-stepwise pyrolysis, which realizes a relatively-high removal rate of petroleum hydrocarbons and the efficient and harmless remediation of high-concentration petroleum-contaminated soil, and remedied soil can be reused.
3 and an acidic molecular sieve by a binder and calcining. When the bifunctional catalyst provided by the present application is used for hydrodesulfurization of gasolines, deep desulfurization, olefin reduction and octane number preservation can be realized simultaneously, thereby obtaining a high-quality oil product.
B01J 23/10 - Catalyseurs contenant des métaux, oxydes ou hydroxydes métalliques non prévus dans le groupe des terres rares
B01J 29/70 - Zéolites aluminosilicates cristallinesLeurs composés isomorphes de types caractérisés par leur structure spécifique non prévus dans les groupes
B01J 35/00 - Catalyseurs caractérisés par leur forme ou leurs propriétés physiques, en général
B01J 37/02 - Imprégnation, revêtement ou précipitation
C10G 45/12 - Raffinage des huiles d'hydrocarbures au moyen d'hydrogène ou de composés donneurs d'hydrogène pour éliminer des hétéro-atomes sans modifier le squelette de l'hydrocarbure mis en œuvre et sans craquage en hydrocarbures à point d'ébullition inférieurHydrofinissage caractérisé par le catalyseur utilisé contenant des alumino-silicates cristallins, p. ex. des tamis moléculaires
88.
Bifunctional catalyst for deep desulfurization and gasoline quality improvement and preparation method therefor
3 and an acid molecular sieve through a binder, and then modifying with the rare earth element. The bifunctional catalyst for deep desulfurization and gasoline quality improvement can achieve deep desulfurization of high-sulfur fluid catalytic cracking gasoline, and ensure no significant loss of octane number under relatively mild conditions.
B01J 23/10 - Catalyseurs contenant des métaux, oxydes ou hydroxydes métalliques non prévus dans le groupe des terres rares
B01J 29/70 - Zéolites aluminosilicates cristallinesLeurs composés isomorphes de types caractérisés par leur structure spécifique non prévus dans les groupes
B01J 35/00 - Catalyseurs caractérisés par leur forme ou leurs propriétés physiques, en général
B01J 37/02 - Imprégnation, revêtement ou précipitation
C10G 45/12 - Raffinage des huiles d'hydrocarbures au moyen d'hydrogène ou de composés donneurs d'hydrogène pour éliminer des hétéro-atomes sans modifier le squelette de l'hydrocarbure mis en œuvre et sans craquage en hydrocarbures à point d'ébullition inférieurHydrofinissage caractérisé par le catalyseur utilisé contenant des alumino-silicates cristallins, p. ex. des tamis moléculaires
89.
Saturated salt water drilling fluid of salt response type intelligent polymer and preparation method thereof
The invention relates to the field of drilling fluid, in particular to a saturated salt water drilling fluid of salt response type intelligent polymer and preparation method thereof. The drilling fluid contains two or more of the following components stored in admixture or separately: bentonite, NaOH, KCl, calcium carbonate, barite, NaCl, supramolecular fluid loss additive, supramolecular shear-enhancing agent, plugging agent, coating agent and water. The drilling fluid provided by the invention has the characteristics of salt response and self-assembly, can keep rheological properties such as rapid recovery of the sheared structure, low extreme high shear rate viscosity, good shear dilution property and the like in a high-salt environment, has good fluid loss reduction performance, reservoir protection performance and debris dispersion inhibition performance, and has good temperature resistance and pollution resistance performance.
A composite nitrogen huff and puff method for a bounded fault block reservoir comprises: selecting the reservoir to be developed, wherein the reservoir to which the development method is applicable is roughly screened according to the following conditions: the reservoir is a bounded fault block reservoir, buried depth<5000 m, residual oil saturation>0.5, reservoir thickness>10 m, horizontal permeability>100 mD, vertical permeability to horizontal permeability ratio>0.35, reservoir porosity>0.20, and stratigraphic dip>8°; and sequentially performing the following huff and puff phases: a nitrogen huff and puff phase, a nitrogen and water composite huff and puff phase, a nitrogen and foaming agent composite huff and puff phase, and a nitrogen and carbon dioxide composite huff and puff phase.
2 enrichment unit comprises an air separating enrichment unit and a boiler injection gas premixed tank; the air separating enrichment unit comprises an air separating primary device used for separating air into oxygen and nitrogen preliminarily, and an air separating secondary device used for further enriching a part of the oxygen which is subjected to the preliminary separation; and the boiler injection gas premixed tank is used for mixing the preliminarily separated nitrogen, the preliminarily separated part of the oxygen and/or the further enriched oxygen.
Preparation methods of a high modulus carbon fiber (HMCF) and a precursor (mesophase pitch (MP)) thereof are provided. The preparation method of MP includes: separating components with a molecular weight distribution (MWD) of 400 to 1,000 from a heavy oil raw material through size-exclusion chromatography (SEC); subjecting the components to ion-exchange chromatography (IEC) to obtain modified feedstock oil, where, the components are passed through macroporous cation-exchange and anion-exchange resins in sequence to remove acidic and alkaline components; and subjecting the modified feedstock oil to thermal polycondensation and carbonization to obtain high-quality MP with prominent spinnability. With high mesophase content, low softening point, low viscosity, and prominent meltability and spinnability, the obtained MP is a high-quality raw material for preparing HMCFs. The obtained MP can be subjected to melt spinning, pre-oxidation, carbonization, and graphitization to obtain an MP-based HMCF.
B01D 15/34 - Séparation par sélection en fonction de la taille, p. ex. chromatographie d'exclusion de tailleFiltration sur gelPerméation
B01D 15/36 - Adsorption sélective, p. ex. chromatographie caractérisée par le mécanisme de séparation impliquant une interaction ionique, p. ex. échange d'ions, paire d'ions, suppression d'ions ou exclusion d'ions
B01J 20/28 - Compositions absorbantes ou adsorbantes solides ou compositions facilitant la filtrationAbsorbants ou adsorbants pour la chromatographieProcédés pour leur préparation, régénération ou réactivation caractérisées par leur forme ou leurs propriétés physiques
D01F 9/15 - Filaments de carboneAppareils spécialement adaptés à leur fabrication par décomposition de filaments organiques à partir de brai ou de résidus de distillation à partir de brai de charbon
D01F 9/155 - Filaments de carboneAppareils spécialement adaptés à leur fabrication par décomposition de filaments organiques à partir de brai ou de résidus de distillation à partir de brai de pétrole
C10C 3/08 - Traitement du brai, de l'asphalte, du bitume par extraction sélective
B01D 15/18 - Adsorption sélective, p. ex. chromatographie caractérisée par des caractéristiques de structure ou de fonctionnement relatives aux différents types d'écoulement
93.
Artificial sandstone and/or conglomerate core based on lithology and permeability control and preparation method and application thereof
The present disclosure relates to the technical field of artificial cores, in particular to a preparation method of artificial sandstone and/or conglomerate core based on lithology and permeability control. The method comprises the following steps: mixing and molding sand particles and a cementing agent in sequence, and further adding a curing agent for performing solidification to prepare the artificial sandstone and/or conglomerate core; wherein composition of the sand particles is determined according to properties of the artificial sandstone and/or conglomerate core comprising lithology and permeability. The present disclosure combines the properties of the artificial sandstone and/or conglomerate core with the proportion of the sand particles, particularly regulates and controls the composition of the sand particles according to the lithology and permeability of the artificial sandstone and/or conglomerate core, thereby performing precise control on the artificial sandstone and/or conglomerate core.
C09K 8/467 - Compositions de cimentation, p. ex. pour la cimentation des tubes dans les trous de forageCompositions de bouchage, p. ex. pour tuer des puits contenant des liants inorganiques, p. ex. ciment Portland contenant des additifs pour des utilisations spécifiques
The attenuation material composition disclosed in the present disclosure comprises a room temperature vulcanized silicone rubber, an epoxy resin, a first curing agent and a second curing agent, wherein the first curing agent comprises ethyl orthosilicate and dibutyltin oxide; and the weight ratio of the room temperature vulcanized silicone rubber to the epoxy resin is (0.1-1):1.
The present invention belongs to the field of geophysical exploration, and discloses physical seismic simulation test apparatus and method based on reflected wave field for a hydrate formation. The apparatus comprises a hydrate preparation device and a reflected acoustic wave test device, wherein the hydrate preparation device is configured to generate simulated hydrates, and the reflected acoustic wave test device is configured to continuously emit ultrasonic waves to the simulated hydrates in the generation process, process the received reflected waves to identify and extract reflection characteristic information and acoustic wave velocity change information, and continuously monitor the degree of saturation of the simulated hydrates at the same time to obtain a corresponding relationship between the reflection characteristic information and acoustic wave velocity change information and the degree of saturation of the simulated hydrates. The apparatus and method provided by the present invention obtain the reflection characteristics of a hydrate formation and acoustic wave velocity change by acquiring the reflected wave field of the hydrate formation, thereby obtain the relationship with the degree of saturation of the hydrates, and have important guiding significance for interpretation of the offshore seismic exploration data of natural gas hydrates and estimation of the degree of saturation of natural gas hydrates.
An acoustic wave testing device for a shallow water flow comprises: a reactor (1) provided with a testing chamber (2), wherein a side surface of the reactor extending in a length direction is capable of applying a confining pressure to the testing chamber (2); an acoustic wave testing component provided within the testing chamber (2) and comprising a transmission member (3) and a receiving member (4), wherein a line connecting the transmission member (3) and the receiving member is perpendicular to the length direction; a temperature and pressure testing component (5) provided within the testing chamber (2); a pushing force component (6) provided at an end of the reactor (1) extending in the length direction, at least a portion of the pushing force component (6) extending into the testing chamber (2); a liquid injection component (7) communicated with the testing chamber (2); and a control portion (8) electrically connected to the transmission member (3), the receiving member (4), the temperature and pressure testing component (5), the pushing force component (6), and the liquid injection component (7), and used to acquire acoustic wave information transmitted by the transmission member (3), acoustic wave information received by the receiving member (4), and pressure and temperature information acquired by the temperature and pressure testing component (5). The acoustic wave testing device for a shallow water flow is capable of testing acoustic responses of a shallow water flow under different pressure changes, and facilitates studying an impact pattern of the shallow water flow on acoustic features.
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
97.
Calcium-resistant zwitterionic polymer, preparation method and application thereof, and water-based drilling fluid containing polymer as dispersant
The invention discloses a calcium-resistant zwitterionic polymer, a preparation method and an application thereof, and a water-based drilling fluid containing the polymer as a dispersing agent, wherein the polymer contains a structural unit A, a structural unit B and a structural unit C, and the structural unit A is at least one selected from the group consisting of structural units with a structure shown in a formula (11), a structure shown in a formula (12) and a structure shown in a formula (13); the structural unit B is a structural unit with a structure shown in a formula (2); the structural unit C is at least one selected from the group consisting of structural units having a structure represented by formula (31) and a structure represented by formula (32); the weight-average molecular weight of the polymer is 350,000 to 600,000.
C08F 220/58 - Amides contenant de l'oxygène en plus de l'oxygène de la fonction carbonamide
C08F 228/02 - Copolymères de composés contenant un ou plusieurs radicaux aliphatiques non saturés, chaque radical ne contenant qu'une seule liaison double carbone-carbone et l'un au moins étant terminé par une liaison au soufre ou par un hétérocycle contenant du soufre par une liaison au soufre
C08F 212/14 - Monomères contenant un seul radical aliphatique non saturé contenant un cycle substitué par des hétéro-atomes ou des groupes contenant des hétéro-atomes
A gas-liquid separation device comprises: an outer housing extending vertically, which is provided with a gas outlet at an upper end of the outer housing and a liquid outlet at a lower end of the outer housing; an inner housing disposed in the outer housing and extending vertically, an upper end of the inner housing being coupled to the outer housing in a sealed manner, a lower end of the inner housing being opened, with an annular space formed between the outer housing and the inner housing; a feeding tube inserted into the outer housing and communicated with the inner housing, with a cyclone mechanism between the feeding tube and the inner housing to output fluid into the inner housing as a swirling flow. The present disclosure can reduce the disturbance of the downward gas flow and the upward gas flow in the separation space, thus improving the separation efficiency.
B01D 45/12 - Séparation de particules dispersées dans des gaz ou des vapeurs par gravité, inertie ou force centrifuge en utilisant la force centrifuge
B01D 45/16 - Séparation de particules dispersées dans des gaz ou des vapeurs par gravité, inertie ou force centrifuge en utilisant la force centrifuge produite par le mouvement hélicoïdal du courant gazeux
B01D 45/08 - Séparation de particules dispersées dans des gaz ou des vapeurs par gravité, inertie ou force centrifuge par inertie par projection contre les diaphragmes séparateurs
B01D 45/02 - Séparation de particules dispersées dans des gaz ou des vapeurs par gravité, inertie ou force centrifuge par gravité
B01D 45/06 - Séparation de particules dispersées dans des gaz ou des vapeurs par gravité, inertie ou force centrifuge par inertie par inversion du sens de l'écoulement
B01D 53/24 - 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 force centrifuge
The present invention provides a self-suspension hydraulic fracturing coated proppant having a targeting function, and preparation and an application. The proppant comprises: A) particles existing in an amount of 70-99.99% of the total weight of the proppant, and B) a nanometer particle enhanced porous composite material coating with which the surfaces of the particles are coated, and existing in an amount of 0.01-30% of the total weight of the proppant, wherein nanometer particle enhanced porous composite materials comprise nanometer particles (preferably, the weight of the nanometer particles is 1-50% (preferably, 10-20%) of the total weight of the nanometer particle enhanced porous composite material coating) and a porous composite material. Compared with a functional coated proppant produced by means of a traditional process, the materials such as resin used in the present method are derived from industrial production, the nanometer particles are creatively added to improve the performance of the proppant, and the method has a more simplified operation process and a lower production cost.
A preparation method of an ionic liquid shale inhibitor for drilling fluid comprises the following step: subjecting the imidazole-based ionic liquid to a polymerization reaction in water environment under an inert atmosphere, and the produced polymer is used as an ionic liquid shale inhibitor for drilling fluid. The ionic liquid shale inhibitor for drilling fluid has the advantages of desirable inhibition effect, good compatibility, strong high-temperature resistance, simple preparation method and low cost.
C08F 26/06 - Homopolymères ou copolymères de composés contenant un ou plusieurs radicaux aliphatiques non saturés, chaque radical ne contenant qu'une seule liaison double carbone-carbone et l'un au moins étant terminé par une liaison simple ou double à l'azote ou par un hétérocycle contenant de l'azote par un hétérocycle contenant de l'azote
brevets
