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Resultados 98 resultados LastUpdate Última actualización 03/10/2022 [14:26:00] pdf PDF xls XLS

Solicitudes publicadas en los últimos 30 días / Applications published in the last 30 days



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SOLVATION ENTROPY ENGINE

NºPublicación: CN115135876A 30/09/2022

Solicitante:

盐动力控股有限公司

AU_2021223583_PA

Resumen de: WO2021165338A1

A power generation process is disclosed, the process comprises dissolving a solute (10) into an unsaturated stream (140) to produce a high concentration stream (130) and converting latent mixing energy present in a high concentration input stream (130) into power by passage through a power unit (20) in which the concentration of the high concentration input stream (130) is reduced. The process comprises using a reduced concentration output stream (140) derived from the high concentration input stream (130) following passage through the power unit (20) as the unsaturated stream (140). A first fraction of the high concentration stream (130) is passed to the power unit (20) for use as the high concentration input stream (130) and a second fraction of the high concentration stream (130) is output from the process.

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OSMOTIC SOLUTION MINING

NºPublicación: CN115135875A 30/09/2022

Solicitante:

盐动力控股有限公司

AU_2021223582_PA

Resumen de: WO2021165337A1

A process for solution mining of minerals is disclosed. The process comprises injecting an unsaturated stream (150) at an injection pressure into a mineral formation (130) to dissolve the mineral and extracting a high concentration stream (110) containing said dissolved mineral. The process comprising converting latent osmotic energy present in said high concentration stream into an increase in the total pressure of said stream by passage through an osmotic power unit (200) and generating electricity and reducing to the injection pressure the total pressure of a reduced concentration output stream (150) by passage through a power generating device (250) and using the reduced concentration output stream (150) at the injection pressure as the unsaturated stream (150). A process for storing a fuel in an underground formation is also disclosed.

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一种应用于闭坑矿山的地热能高效综合利用系统

NºPublicación: CN115127245A 30/09/2022

Solicitante:

山东省鲁南地质工程勘察院(山东省地质矿产勘查开发局第二地质大队)

Resumen de: CN115127245A

本发明提供一种应用于闭坑矿山的地热能高效综合利用系统,包括能源站和地面,所述的能源站还包括板换器,热泵,除砂罐,循环泵和定压补水器,其中板换器,热泵和除砂罐从左到右依次螺栓连接在能源站的内部上侧,其中循环泵和定压补水器均螺栓连接在能源站内部下侧左右两端部位。本发明储能池为清洁能源高效利用体系的补充和调节,去除该系统组件不影响整个能源利用系统运转;由于小微断裂、导水裂隙带、冒落带等对水体的导通,及应用体系整体抽灌水量均衡,系统上部围岩力学性质不会发生显著改变;上下部巷道即巷道及采掘面均属于煤系地层,其围岩化学组分相近,水质类型相同,采灌均衡情况下,水质不会发生改变。

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SYSTEM AND PROCESS FOR DIRECT LITHIUM EXTRACTION AND PRODUCTION OF LOW CARBON INTENSITY LITHIUM CHEMICALS FROM GEOTHERMAL BRINES

NºPublicación: CN115135938A 30/09/2022

Solicitante:

火神能源有限责任公司

AU_2020441128_PA

Resumen de: WO2021204375A1

A system and process for direct lithium extraction from geothermal brines, and more particular to the sequential combination of a binary cycle geothermal plant (200), a direct lithium extraction circuit (400), a lithium chloride concentration and purification circuit (600), and a lithium battery chemical processing circuit (800), for the production of battery-quality lithium hydroxide monohydrate, lithium carbonate or both from geothermal brines. The processing circuits are powered by the electricity and heat produced by the binary cycle geothermal plant without the use of carbon-based fuels. Non-condensable gases that may come out of solution from the geothermal brine are not emitted into the atmosphere.

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SYSTEMS AND METHODS OF MULTI-MODAL STORAGE, RECOVERY, AND PRODUCTION OF DISPATCHABLE RENEWABLE ENERGY

NºPublicación: WO2022204478A1 29/09/2022

Solicitante:

HYPERLIGHT ENERGY INC [US]

Resumen de: WO2022204478A1

A multi-modal thermal energy storage and recovery system is provided in which a first thermal energy storage subsystem operates within a first temperature range and contains a first thermal energy storage medium having a temperature within the first temperature range. A second thermal energy storage subsystem operates within a second temperature range higher than the first temperature range and contains a second thermal energy storage medium having a temperature within the second temperature range. A heater is operatively connected to the first thermal energy storage system and the second thermal energy storage system. The first thermal energy storage medium heats a working fluid and the second thermal energy storage medium further heats the working fluid. When the working fluid needs supplemental heat or energy the heater provides to the working fluid supplemental heat and/or supplemental energy. The first thermal energy storage subsystem may be a geological formation.

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APPARATUS AND METHODS FOR PRODUCING ELECTRICITY USING GEOTHERMAL ENERGY

NºPublicación: WO2022198336A1 29/09/2022

Solicitante:

GEOGEN TECH INC [CA]

Resumen de: WO2022198336A1

A geothermal power system is disclosed. The system comprises a downhole turbine configured to operate within a wellbore and a downhole electrical generator configured to be driven by the turbine. A channel facilitates flow of a working fluid through the turbine. The channel has a feed portion allowing the working fluid to flow in a direction away from the surface and a return portion allowing the working fluid to flow in a direction towards the surface. A surface structure is in fluid communication with the feed portion and the return portion to circulate the working fluid through the channel.

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GEOTHERMAL HEAT SYSTEM HAVING REDUCED HEAT SOURCE RESIDUAL HEAT OF GEOTHERMAL HEAT PUMP

NºPublicación: US2022307738A1 29/09/2022

Solicitante:

J&G CORP [KR]

KR_102303138_B1

Resumen de: US2022307738A1

Provided is a geothermal heat system having reduced heat source residual heat of a geothermal heat pump. The geothermal heat system includes a ground heat exchanger unit, a geothermal heat pump, and a residual heat storage tank. A portion of heat source residual heat remaining in the geothermal heat pump is transferred on a geothermal heat exchange medium passing through the geothermal heat pump so as to be stored in the residual heat storage tank. As the internal temperature of the residual heat storage tank gradually becomes the same as the temperature of the underground, the thermal load of the underground is removed. At least a portion of the heat source residual heat produced during provision of cooling/heating to the location of use is processed, thereby improving the operating efficiency of the geothermal heat system having reduced heat source residual heat of a geothermal heat pump.

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AIR CONDITIONER

NºPublicación: EP4063750A1 28/09/2022

Solicitante:

QINGDAO HISENSE HITACHI AIR CONDITIONING SYS CO LTD [CN]

US_2022276009_PA

Resumen de: EP4063750A1

An air conditioner. A heat exchanger is provided on a heat exchange loop. The heat exchanger comprises flat tubes (11), a second collecting main (02), a third collecting main (03), and a connecting tube (09). The second collecting main (02) communicates with the third collecting main (03) by means of the connecting tube (09). The second collecting main (02) communicates with the flat tube (11) in a downstream flow of the heat exchanger. The third collecting main (03) communicates with the flat tube (11) in an upstream flow of the heat exchanger. The second collecting main (02) comprises a cavity portion (021), a channel portion (022), and a turbulent flow portion (023). The cavity portion (021) communicates with the connecting tube (09). One end of the channel portion (022) communicates with the cavity portion (021), and the other end communicates with the flat tube (11). The turbulent flow portion (023) is provided in the cavity portion (021), thereby preventing an eddy current from causing a flow blind region in the cavity portion (021), disturbing a flow path of a refrigerant in the cavity portion (021), and facilitating mixing of refrigerants in a high-pressure region and a low-pressure region in the cavity portion (021). Therefore, refrigerants entering different channel portions (022) are evenly distributed, and flow rates of refrigerants in different mind a low-pressure region in the cavity portion (crochannels in the same flat tube (11) and in different flat tubes (11

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DEVICE ARRANGEMENT FOR ACCUMULATING EXCESS HEAT IN A NATURAL WATER-PERMEABLE LAYER AND FOR ITS RECOVERY

NºPublicación: EP4063780A1 28/09/2022

Solicitante:

AKADEMIA GORNICZO HUTNICZA IM STANISLAWA STASZICA W KRAKOWIE [PL]

Resumen de: EP4063780A1

The subject of the invention is a device arrangement for accumulating excess heat in a natural water-permeable layer and for its recovery, the main component of which is a heat storage (1) filled with water which constitutes a closed area, separated from the water-permeable layer (2), comprising at least one extraction well (8) made in this area and at least one discharge well (8) as well as an installation enabling the extraction and discharge of water as well as the collection and delivery of excess heat to the heat storage (1) by means of a heat exchanger (15), as well as an installation providing temperature and water level control in the heat storage (1), and the automation and optimization of the process of storing and collecting excess heat.

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一种节能通风的被动式住宅结构

NºPublicación: CN115111785A 27/09/2022

Solicitante:

郑州大学综合设计研究院有限公司河南省建筑设计研究院有限公司永城市规划建筑设计所

Resumen de: CN115111785A

本发明属于建筑设计技术领域,公开了一种节能通风的被动式住宅结构,所述被动式住宅结构由至少一个住宅单元及其附属结构组成,住宅单元的每层为一至四户并上下层对位,层高为2.8‑3米,一个或多个住宅单元组成一栋楼,在每栋楼内设有风井,在风井内设有水汽回收模块和加热模块,在楼屋面设有与加热模块相连通的太阳能集热模块,本发明通过对户型结构进行调整,使得每户都能进行南北通风,通过太阳能集热模块对风井内的空气进行加热形成烟囱效应,通过水汽回收模块进行水汽回收并送入地下室进行雾化降温,通过地热泵源对空气进行温度调节达到室内冬暖夏凉。

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一种干热岩开采微地震监测系统

NºPublicación: CN115113263A 27/09/2022

Solicitante:

中国地质调查局水文地质环境地质调查中心

Resumen de: CN115113263A

本发明涉及一种干热岩开采微地震监测系统,涉及能源开采技术领域。包括换热装置和中控处理模块,通过在中控处理模块的中央处理单元根据使用需求和岩体结构情况预设注液压力范围,并根据注入注液井中的液体种类设置不同的初始注液泵转速以向注液井中注液,通过裂缝的分布情况实时对注液泵转速在初始注液泵转速的基础上进行调节,以使注液压力保持在预设的注液压力范围范围内,从而达到对注液过程的精确控制,通过压力传感器实时对注液压力进行监测以及温度传感器对根据使用需求开采过程中回液温度进行实时监测,进一步提高了对注液过程的精确控制,提高了资源利用率。

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SCALE SUPPRESSION UNIT

NºPublicación: JP2022138749A 26/09/2022

Solicitante:

株式会社小澤製作所

WO_2022190907_PA

Resumen de: WO2022190907A1

[Problem] To provide a scale suppression unit whereby the dissolution rate of phosphate ions can be changed in accordance with the degree of scaling, adhesion of scale can be more reliably suppressed, and scale suppression means can be inexpensively and easily implemented in various types of systems. [Solution] This scale suppression unit 1 has a P-containing alloy 2 and a P-containing alloy storage part 3 which stores the P-containing alloy 2 and through which a hot spring or hot water can flow in and out. Therefore, by adjusting the surface area of the P-containing alloy 2, the dissolution rate of phosphate ions can be changed in accordance with the degree of scaling to more reliably suppress adhesion of scale, and the present invention can be inexpensively and easily implemented in various types of systems.

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一种结合中浅层地热的湿法脱硫零水耗系统及其工作方法

NºPublicación: CN115096009A 23/09/2022

Solicitante:

西安交通大学

Resumen de: CN115096009A

本发明公开的一种结合中浅层地热的湿法脱硫零水耗系统及其工作方法,属于烟气节水和余热回收技术领域。包括二级余热回收装置、脱硫塔、一级余热回收装置、烟气净化装置、生物质掺烧锅炉、串联U形地热井、供暖用水取热三通阀、冬季生活用水三通阀、取热出口三通阀和切换冷源三通阀。结合了反季节储能和湿法脱硫节水,并充分利用冬季冷资源节水,夏季通过多级余热回收系统逐步提升循环冷却水温度,并将热能储存在地下。本发明的自动化程度高,能耗低的同时节水效果好,废水处理成本低,结合季节切换冷源并进行跨季节储能取能,实现了能源的充分利用。

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一种高导热透水能源桩及其制造方法

NºPublicación: CN115094875A 23/09/2022

Solicitante:

郑州大学

Resumen de: CN115094875A

本发明涉及一种高导热透水能源桩及其制造方法,其中,一种高导热透水能源桩,包括混凝土桩身、埋设在混凝土桩身中的钢筋骨架以及换热管结构,换热管结构包括固设于钢筋骨架上的多根换热管、连接各所述换热管进水口的主进水管道、连接各换热管出水口的主出水管道、与主进水管道连接的进水管以及与主出水管道连接的出水管。本发明的高导热透水能源桩,换热管结构固定在内、外层钢筋笼上,使得换热管结构与内、外层钢筋笼形成一个相连的整体,加强了透水能源桩的稳定性,液体通过多根换热管接触更大面积的被加热的混凝土,从而提升能源桩换热效率。

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METHOD FOR PRODUCING A FOUNDATION ELEMENT IN THE GROUND AND FOUNDATION ELEMENT

NºPublicación: US2022298738A1 22/09/2022

Solicitante:

BAUER SPEZIALTIEFBAU [DE]

CN_114466959_A

Resumen de: US2022298738A1

The invention relates to a method for producing a foundation element in the ground, in which a hole is produced in the ground and a hardenable mass is introduced into the hole, which hardens to form the foundation element. According to the invention provision is made in that an insert body is inserted approximately centrally into the hole, the insert body being spaced apart from a circumferential wall of the hole, wherein a ring-shaped intermediate space is formed between the circumferential wall of the hole and the insert body, and in that a hardenable mass is introduced into the ring-shaped intermediate space, which hardens to form a ring-shaped foundation element.

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GROUND HEAT EXCHANGER AND WIND TURBINE

NºPublicación: US2022299010A1 22/09/2022

Solicitante:

HC PROPERTIES INC [CA]

Resumen de: US2022299010A1

An inground geothermal system has an upper end extending above ground level at a height to support a wind turbine. The wind turbine generates an electrical current for use by the geothermal system or for storage in batteries.

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METHOD OF GENERATING HIGH-TEMPERATURE AND HIGH-PRESSURE STEAM BY BURYING BOILER CAN BODY INSIDE DRY HIGH-TEMPERATURE ROCK BODY HAVING TEMPERATURE AROUND FROM 200 DEGREES TO 800 DEGREES CELSIUS UNDERGROUND

NºPublicación: JP2022138160A 22/09/2022

Solicitante:

長浦善昭

JP_2021183899_A

Resumen de: JP2021183899A

To provide a geothermal power generation method which generates high-temperature and high-pressure steam by burying a boiler can body in a dry high-temperature rock body having a temperature around from 200 degrees to 800 degrees Celsius underground and converts the same into electric energy.SOLUTION: Inside a dry high-temperature rock body having a temperature around from 200 degrees to 800 degrees Celsius underground, only a boiler can body or a non-furnace can body (referred to as boiler can body, for short, hereinafter) is buried, and all apparatuses needed to drive this boiler can body are installed on the ground. The main function of this boiler is separated into two, which are the boiler can body, and the apparatus for driving the boiler can body. By burying only this boiler can body in the dry high-temperature rock body, high-temperature and high-pressure steam is generated, and it is converted into electric energy.SELECTED DRAWING: Figure 8

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ENERGY STORAGE SYSTEMS AND METHODS

NºPublicación: WO2022197504A1 22/09/2022

Solicitante:

ONE ENERGY ENTPR INC [US]

US_2022293841_PA

Resumen de: WO2022197504A1

The technical description relates to energy storage systems and methods. Specific examples described herein relate to in-ground energy storage systems and methods of selectively discharging electrical energy from an energy storage system. An example energy storage system comprises a first fluid storage tank, a second fluid storage tank, a first fluid disposed in the first fluid storage tank, a second fluid disposed in the second fluid storage tank, a heating unit operably connected to the first fluid storage tank and adapted to heat the first fluid, a cooling unit operably connected to the second fluid storage tank and adapted to cool the second fluid, and thermoelectric generator exposed to the first fluid and the second fluid. The thermoelectric generator is adapted to convert a temperature difference between the first fluid and the second fluid directly to electrical energy.

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METHOD FOR CONTROLLING AN INSTALLATION CONNECTED TO A GEOTHERMAL SOURCE FOR SUPPLYING THERMAL ENERGY TO AT LEAST ONE BUILDING, AND REGULATING SYSTEM AND INSTALLATION RELATING THERETO

NºPublicación: WO2022194951A1 22/09/2022

Solicitante:

ACCENTA [FR]

FR_3120935_PA

Resumen de: WO2022194951A1

The installation comprises at least one source of geothermal energy by means of which geothermal storage is performed, at least one other source of energy, and equipment for converting and distributing energy in the structure. The geothermal source comprises heat exchange probes installed in the geothermal medium. They allow for an exchange of heat between the geothermal medium and a heat-transport fluid passing through the probes. The method for controlling the installation involves: • defining a forecast trajectory (TP) for the temperature of the geothermal medium over the course of time; • evaluating, at least more or less in real time, the temperature of the geothermal medium; • making an adjustment to the thermal power exchanged between the geothermal medium and the heat-transport fluid which on leaving the geothermal probe has a temperature (TW), in the direction of making the temperature of the geothermal medium consistent with the forecast trajectory. The mean (TM) of the forecast trajectory (TP) is stable and preferably exhibits, with respect to the natural ground temperature (TN) a certain differential that gives rise to a non-zero annual thermal flux between the natural ground and the geothermal medium. Use to avoid the temperature drift of the geothermal medium and, in the preferred version, to increase the geothermal storage by the above-mentioned natural flux.

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Heat exchange system for the thermal regulation of a building

NºPublicación: AU2021224071A1 22/09/2022

Solicitante:

SIEGENTHALER ANDY

WO_2021165824_A1

Resumen de: AU2021224071A1

The invention relates to a heat exchange system (S), which is arranged on the roof of a building (B), comprising a substrate (103) which is partially saturated with water and is topped with a vegetated layer (101) promoting condensation and evapotranspiration, and to a thermal diffusion device (200) comprising a pump (202) and a collecting network (201) allowing heat exchanges with the exchange volume (100).

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Ventilation control system for an underground

NºPublicación: AU2020432490A1 22/09/2022

Solicitante:

SENER INGENIERIA Y SISTEMAS [ES]

ES_2850377_A1

Resumen de: AU2020432490A1

Ventilation control system (100) and method for an underground network (200) comprising a set of fans (210), the ventilation control system (100) comprising computational means with a memory (110a) for storing current and historical data flows captured by a set of sensors (220) associated with each of the undergrounds in the underground network (200), wherein said data includes for each underground: - external conditions (120) comprising temperature values outside the underground network

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Natural enhanced geothermal system using a hot sedimentary aquifer

NºPublicación: AU2020430096A1 22/09/2022

Solicitante:

UNIV JOHNS HOPKINS

WO_2021167701_A1

Resumen de: AU2020430096A1

A natural enhanced geothermal system (NAT-EGS) that uses a hot sedimentary aquifer (HSA) is disclosed. An example method may include pumping, via an extraction well, heated water from an extraction depth of a HSA, wherein the HSA satisfies a threshold geothermal characteristic. The example method may include extracting, via an energy conversion unit, heat from the heated water to capture energy, resulting in cooled water. The example method may include injecting, via an injection well, the cooled water at an injection depth of the HSA, wherein the injection depth is deeper than the extraction depth.

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GEOTHERMAL ENERGY RECOVERY PROCESS WITH SELECTIVE RECIRCULATION

NºPublicación: EP4058673A1 21/09/2022

Solicitante:

SAUDI ARABIAN OIL CO [SA]

KR_20220093130_PA

Resumen de: WO2021096696A1

A system and a method of geothermal energy recovery includes injecting carbon dioxide into a geothermal reservoir through an injection well (150), extracting a working fluid (202) including previously injected carbon dioxide and hydrocarbons entrained in a flow of the carbon dioxide within the reservoir from an extraction well (160), separating components of the heated working fluid based on chemical composition, selectively mixing the separated components according to the current conditions of the extracted working fluid to produce an output modified working fluid that having a chemical composition that is optimized for energy recovery efficiency, and expanding the modified working fluid to generate mechanical or electrical energy.

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OUTER PIPE FOR FORMING A COAXIAL HEAT TRANSFER PIPING, AND A HEAT TRANSFER PIPING INSTALLATION METHOD

NºPublicación: EP4058740A1 21/09/2022

Solicitante:

SENERA OY [FI]

WO_2021094644_A1

Resumen de: WO2021094644A1

An outer pipe (100) formed from a crystallized plastic material for forming an outer jacket of a coaxial heat transfer piping has a first operating form in which, in a cross-section of the outer pipe, a main part of a wall of the outer pipe substantially follows a first circle (101). The wall (105) of the outer pipe comprises an elongated recess (103) extending in a longitudinal direction of the outer pipe, at which recess in the cross-section of the outer pipe in the first operating form of the outer pipe the wall of the outer pipe deviates inwardly from said perimeter of the first circle (101), such that the perimeter of the wall of the outer pipe is longer than the perimeter of said first circle and the outer pipe is forceable into an expanded operating form in which said main part of the wall of the outer pipe in the cross-section of the outer pipe substantially follows, as a result of straightening of the recess (103), a second circle (104) which is larger than the first circle.

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THREADED CONNECTION FOR CASING STRING OF AN OIL WELL

Nº publicación: JP2022541053A 21/09/2022

Solicitante:

ヴァルレックオイルアンドガスフランス

US_2022259927_A1

Resumen de: WO2021013646A1

Threaded tubular connection for the casing of hydrocarbon wells obtained by makeup of a male tool joint with a female tool joint, the connection comprising in this order from a free edge (19) of the male tool joint: an inner metal-metal seal (25, 26), a first threaded portion (16a, 18a), an intermediate abutment (22, 24), an intermediate metal-metal seal (27, 28) and a second threaded portion (16b, 18b), the free edge (19) being at a non-zero axial distance (d) from the female tool joint, the threaded portions each comprising a helix equipped with a load flank, a thread crest, a stabbing flank, a thread root, such that a pitch of the load flank (LFLp1, LFLb1) and a pitch of the stabbing flank (SFLp1, SFLb1) of the first threaded portion, and respectively a pitch of the load flank (LFLp2, LFLb2) and a pitch of the stabbing flank (SFLp2, SFLb2) of the second threaded portion fulfil the following condition: [Math 12] SFL b 1 = LFL b 1 = SFL b 2 = LFL b 2 = SFL p1 = LFL p 1 = SFL p 2 = LFL p 2.

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