会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 32. 发明申请
    • METHOD FOR HEATING A HYDROCARBONS RESERVOIR
    • 加热油气藏的方法
    • US20100200223A1
    • 2010-08-12
    • US12644843
    • 2009-12-22
    • Dominique MauduitBruno MartyPierre LemetayerEmmanuel Toguem Nguete
    • Dominique MauduitBruno MartyPierre LemetayerEmmanuel Toguem Nguete
    • E21B43/24E21B47/00E21B47/06E21B36/00
    • E21B43/24
    • A method is proposed for heating a hydrocarbons reservoir, comprising the provision of an installation comprising: a first wellbore equipped with an injection string fitted with an adjustable choke and an extraction string fitted with an adjustable choke, a set of sensors, intended to measure physical variables, an automatic device making it possible to control and monitor the operation of the installation; the circulation of steam from one string to the other; the control of the steam injection flow rate in function of a target value; the keeping of a set of physical variables within a predetermined range of values by continuous action of the automatic device on the choke of the injection string, and on the choke of the extraction string. The method makes it possible to more precisely control injection of the steam into the wellbore, throughout the circulation phase, optimizing the steam injection flow rate throughout the circulation phase while still ensuring the safe operation of the steam circulation phase.
    • 提出了一种用于加热烃储存器的方法,包括提供一种装置,包括:第一井筒,其具有装备有可调扼流圈的注射管和装有可调节扼流圈的抽吸管,一组传感器,用于测量物理 变量,自动设备,使其可以控制和监视安装的操作; 蒸汽从一个串到另一个的循环; 以目标值的形式控制蒸汽注入流量; 通过自动装置在喷射串的扼流圈上的连续动作以及提取串的扼流圈将一组物理变量保持在预定值范围内。 该方法可以在整个循环阶段更精确地控制蒸汽进入井眼,从而优化整个循环阶段的蒸汽注入流量,同时确保蒸汽循环阶段的安全运行。
    • 33. 发明授权
    • Process and installation for the treatment of DSO
    • 处理和安装DSO的处理
    • US07332145B2
    • 2008-02-19
    • US11221915
    • 2005-09-09
    • Denis Chretien
    • Denis Chretien
    • B01J19/00C01B17/04
    • C10L3/12
    • Disclosed is a process for the treatment of gas containing mercaptans and acid gases, including the following steps: (1) separating the acid gases from the said gas and obtaining a sweetened gas and the flow of acid gases containing H2S; (2) reacting the H2S thus obtained in step (1) according to the Claus reaction; (3) concentrating the mercaptans in at least one cut of the said sweetened gas; (4) extracting the mercaptans of the said cut; and further comprising: (5) transforming the mercaptans into dialkyl-disulfide (DSO); (6) hydrogenating DSO into H2S; and (7) reacting the H2S thus obtained at step (6) according to the Claus reaction. An installation for carrying out this procedure is also described.
    • 公开了一种处理含有硫醇和酸性气体的气体的方法,包括以下步骤:(1)从所述气体中分离出酸性气体并获得增甜气体,并且含有H 2 SUB> S; (2)根据Claus反应使由步骤(1)得到的H 2 S 2 S反应; (3)将硫醇浓缩在所述增甜气体的至少一个切口中; (4)提取所述切割的硫醇; 并且还包括:(5)将硫醇转化为二烷基二硫醚(DSO); (6)将DSO氢化成H 2 S; 和(7)根据Claus反应使步骤(6)得到的H 2 S 2 S反应。 还描述了用于执行该过程的安装。
    • 40. 发明授权
    • Method of subsurface modelling
    • US10371858B2
    • 2019-08-06
    • US15039130
    • 2014-11-20
    • Total S.A.
    • Pierre Bergey
    • G01V99/00G06F17/11
    • Disclosed is a method of modelling a subsurface volume. History data for one or more parameters over a first period of time is obtained. The first period of time comprises a plurality of schedule periods, each schedule period having associated with it a sampled value of the considered parameter at the corresponding time. A merge error value is attributed to plural pairs of consecutive schedule periods, the merge error value representing a magnitude of the error in a merged value of each parameter over the duration corresponding to a pair of schedule periods being considered, relative to the sampled values for said pair of schedule periods being considered. The pair of schedule periods which have the smallest error value attributed thereto is merged, and the merged schedule period has attributed to it, the corresponding merged value of the corresponding parameter. The error value calculation and merger steps are repeated so as to reduce the total number of schedule periods.