DEVICE AND METHOD FOR PREDICTIVE CALIBRATION
    1.
    发明申请
    DEVICE AND METHOD FOR PREDICTIVE CALIBRATION 审中-公开
    用于预测校准的装置和方法

    公开(公告)号:US20140019052A1

    公开(公告)日:2014-01-16

    申请号:US13548666

    申请日:2012-07-13

    IPC分类号: G01V1/36 G06F19/00 G01D18/00

    CPC分类号: G01V11/002 G01V13/00

    摘要: A method of calibrating a measurement device includes: compiling historical calibration data for the measurement device, the historical calibration data including values corresponding to outputs of the measurement device over a first operating duration in environmental conditions associated with an operating environment; projecting the historical calibration data over a subsequent operating duration to generate predictive calibration data; disposing the measurement device in the operating environment and generating measurement signals during the first operating duration and the subsequent operating duration; and generating measurement values from measurement signals generated during the subsequent operating duration based on the predictive calibration data.

    摘要翻译: 一种校准测量装置的方法包括:编译测量装置的历史校准数据,历史校准数据包括对应于在与操作环境相关联的环境条件下的第一操作持续时间内测量装置的输出的值; 在随后的操作持续时间内投影历史校准数据以产生预测校准数据; 将测量装置设置在操作环境中并在第一操作持续时间和随后的操作持续时间内产生测量信号; 以及基于所述预测校准数据,从随后的操作持续时间内产生的测量信号产生测量值。

    Method for producing foamed polymer moulded bodies and foamed polymer moulded bodies
    2.
    发明申请
    Method for producing foamed polymer moulded bodies and foamed polymer moulded bodies 有权
    发泡聚合物成型体和发泡聚合物成型体的制造方法

    公开(公告)号:US20050175830A1

    公开(公告)日:2005-08-11

    申请号:US10513402

    申请日:2003-04-30

    摘要: Method for producing foamed microporous polymer molded bodies by melting a thermoplastic polymer in a first zone of an extrusion device, mixing in a highly volatile blowing agent, conveying the polymer melt containing the blowing agent into a second zone in which dissolution of the blowing agent occurs to saturation of the polymer melt at the foaming temperature, and molding and foaming of the loaded polymer melt to a foamed structure, whereby, in the second zone, a pressure above 90 bar, a blowing agent concentration above the critical minimum concentration for complete foaming, and the foaming temperature, lying above the solidification temperature of the polymer melt saturated with blowing agent, are set such that the polymer molded body obtained has a porosity in the range between 40 and 90 vol. % and an open-cell pore structure with uniform cross-sectional distribution. Foamed microporous polymer molded bodies in the form of particles comprising a thermoplastic polymer with uniform open-cell pore structure, a porosity of 40 to 90 vol. %, an accessible proportion of pore volume of at least 0.75 and an average cell size between 1 and 100 μm.

    摘要翻译: 通过在挤出装置的第一区域中熔化热塑性聚合物来制造发泡微孔聚合物成型体的方法,在高挥发性发泡剂中混合,将含有发泡剂的聚合物熔体输送到发生发泡剂溶解的第二区域 在发泡温度下使聚合物熔体饱和,并将负载的聚合物熔体成型和发泡成泡沫结构,由此在第二区域中压力高于90巴,发泡剂浓度高于完全发泡的临界最小浓度 并且在发泡剂饱和的聚合物熔体的凝固温度以上的发泡温度被设定为使得得到的聚合物成型体的孔隙率在40〜90体积%的范围内。 %和具有均匀横截面分布的开孔细孔结构。 发泡微孔聚合物成型体,其为包含具有均匀开孔形式的热塑性聚合物的颗粒形式,孔隙率为40至90体积%。 %,孔体积的可接近比例为至少0.75,平均泡孔尺寸为1至100μm。

    High speed communication for measurement while drilling
    3.
    发明授权
    High speed communication for measurement while drilling 有权
    高速通信用于测量,同时钻孔

    公开(公告)号:US07230541B2

    公开(公告)日:2007-06-12

    申请号:US10716807

    申请日:2003-11-19

    IPC分类号: G01V3/00

    CPC分类号: G01V11/002

    摘要: A communication system for communication with a downhole tool comprising: a first communication transceiver in a first tool for measurement while drilling and a second communication transceiver in at least one of the first tool, a second tool for measurement while drilling, and an external instrumentation interface. The communication system also includes a bus system comprising a first conductive connection and a second conductive connection in each of the first tool and at least one of the first tool, a second tool and an external instrumentation interface, said first conductive connection and the second conductive connection of the first tool in operable communication with the first communication transceiver and the first conductive connection and the second conductive connection of the at least one of the first tool, a second tool and an external instrumentation interface also in operable communication with the second communication transceiver.

    摘要翻译: 一种用于与井下工具进行通信的通信系统,包括:第一工具中的第一通信收发器,用于在钻孔期间进行测量;以及第二通信收发器,所述第一通信收发器在所述第一工具中的至少一个,用于在钻孔时测量的第二工具以及外部仪器接口 。 通信系统还包括总线系统,其包括第一工具和第一工具,第二工具和外部仪表接口中的至少一个中的第一导电连接和第二导电连接,所述第一导电连接和第二导电 与第一通信收发器可操作地通信的第一工具的连接和第一工具,第二工具和外部仪表接口中的至少一个的第一导电连接和第二导电连接,也可与第二通信收发器 。

    Integrally asymmetrical polyolefin membrane
    4.
    发明授权
    Integrally asymmetrical polyolefin membrane 有权
    整体不对称聚烯烃膜

    公开(公告)号:US06497752B1

    公开(公告)日:2002-12-24

    申请号:US09868593

    申请日:2001-08-24

    IPC分类号: B01D5322

    摘要: Process for producing integrally asymmetrical hydrophobic polyolefinic membranes with a separation layer, in particular for gas exchange, via thermally induced liquid-liquid phase separation. A solution of at least one polyolefin in a solvent system containing a compound A and a compound B is extruded to form a shaped object. Compound A is a strong solvent and compound B a weak non-solvent for the polymer. After leaving the die, the shaped object is cooled using a solid or liquid cooling medium, which does not dissolve the polymer and does not react chemically with it, until the phase separation and solidification of the high-polymer-content phase take place. The integrally asymmetrical membrane producible in this manner has a porosity of greater than 30% to 75% by volume, a sponge-like, open-pored, microporous support layer without macrovoids and on average isotropic pores, a separation layer on at least one of its surfaces with pores

    摘要翻译: 通过热诱导的液 - 液相分离制备具有分离层,特别是用于气体交换的整体不对称疏水性聚烯烃膜的方法。 将至少一种聚烯烃在含有化合物A和化合物B的溶剂体系中的溶液挤出以形成成形物体。 化合物A是强溶剂,化合物B是聚合物的弱非溶剂。 离开模具后,使用固体或液体冷却介质冷却成形物体,其不溶解聚合物并且不与其发生化学反应,直到发生高分子量含量相的相分离和凝固。 以这种方式生产的整体不对称膜具有大于30体积%至75体积%的孔隙率,不具有大孔和平均各向同性孔的海绵状,开孔,微孔支撑层,在至少一个 其表面具有小于100nm的孔(如果有的话)和至少为1的气体分离因子α(CO 2 / N 2)。膜优选用于血氧。

    Integrally asymmetrical polyolefin membrane for gas exchange
    5.
    发明授权
    Integrally asymmetrical polyolefin membrane for gas exchange 有权
    用于气体交换的整体不对称聚烯烃膜

    公开(公告)号:US06409921B1

    公开(公告)日:2002-06-25

    申请号:US09463316

    申请日:2000-02-28

    IPC分类号: A61M118

    摘要: Process for producing hydrophobic polyolefinic membranes for gas exchange via thermally induced liquid-liquid phase separation is disclosed. A solution of at least one polyolefin in a solvent system, of a compound A and a compound B having a viscosity less than 60 mPa s, is extruded to form a shaped object. The compound A is a solvent and compound B preferably a non-solvent of the polymer, and the boiling point of compound A is at least 50° C. higher than that of compound B. After the shaped object leaves the die, at least one surface thereof is subjected to an atmosphere promoting evaporation of compound B, and the shaped object is subsequently cooled until the phase separation and solidification of the high-polymer-content phase take place. The integrally asymmetrical membrane producible in this manner has a porosity of greater than 50% to 75% by volume, a sponge-like, open-pored, microporous support layer without macrovoids and on average isotropic pores, and at least one separation layer with pores

    摘要翻译: 公开了通过热诱导的液 - 液相分离制备用于气体交换的疏水聚烯烃膜的方法。 将至少一种聚烯烃在溶剂体系中的化合物A和粘度小于60mPa·s的化合物B的溶液挤出以形成成形物体。 化合物A是溶剂,化合物B优选为聚合物的非溶剂,化合物A的沸点比化合物B的沸点高至少50℃。成形物离开模头后,至少一个 其表面经受促进化合物B蒸发的气氛,随后冷却成形物体直到发生高分子含量相的相分离和固化。 以这种方式可生产的整体不对称膜具有大于50体积%至75体积%的孔隙率,没有大孔和平均各向同性孔的海绵状,开孔,微孔支撑层,以及至少一个具有孔的分离层 <100nm,如果有的话。 该膜优选用于血氧合。

    Method for producing an integrally asymmetrical polyolefin membrane
    6.
    发明授权
    Method for producing an integrally asymmetrical polyolefin membrane 有权
    用于制造整体不对称的聚烯烃膜的方法

    公开(公告)号:US06375876B1

    公开(公告)日:2002-04-23

    申请号:US09869153

    申请日:2001-09-04

    IPC分类号: B29C6500

    摘要: Process for producing an integrally asymmetrical hydrophobic polyolefinic membrane with a sponge-like, open-pored, microporous support structure and a separation layer with a denser structure compared to the support structure, via a thermally induced liquid-liquid phase separation process. A solution of at least one polyolefin in a solvent system consisting of a compound A and a compound B is extruded to form a shaped object. Compound A is a weak solvent and compound B a non-solvent for the polymer. After leaving the die, the shaped object is cooled using a solid or liquid cooling medium that does not dissolve or react chemically with the polymer at temperatures up to the die temperature, until the phase separation and solidification of the high-polymer-content phase take place.

    摘要翻译: 通过热诱导的液 - 液相分离方法制备具有海绵状,开孔,微孔载体结构的整体不对称的疏水聚烯烃膜和具有比载体结构更致密结构的分离层的方法。 将至少一种聚烯烃在由化合物A和化合物B组成的溶剂体系中的溶液挤出以形成成形物体。 化合物A是弱溶剂,化合物B是聚合物的非溶剂。 离开模具后,使用固体或液体冷却介质冷却成型物体,该固体或液体冷却介质在高达模具温度的温度下不与聚合物溶解或化学反应,直到高分子量含量相的相分离和凝固 地点。

    Membrane contactor and method of making the same
    8.
    发明申请
    Membrane contactor and method of making the same 审中-公开
    膜接触器及其制作方法

    公开(公告)号:US20060081524A1

    公开(公告)日:2006-04-20

    申请号:US10966193

    申请日:2004-10-15

    IPC分类号: B01D63/04

    摘要: A hollow fiber membrane contactor includes a perforated center tube, a first mat comprising a first hollow fiber membrane, a second mat comprising a second hollow fiber membrane, a first tube sheet, a second tube sheet, a shell, and end caps. The first and second hollow fiber membranes are dissimilar. The first and second mats surround the center tube, and the first and second tube sheets affix the first and second mats to the center tube. The first hollow fiber membrane has a first lumen, and the second hollow fiber membrane has a second lumen. The first lumen may be open at the first tube sheet and closed at the second tube sheet while the second lumen may be open at the second tube sheet and closed at the first tube sheet. The shell surrounds the first and second mats, and it is sealed to the tube sheets. The end caps are affixed to the shell thereby defining headspaces therebetween the tube sheets and the end caps.

    摘要翻译: 中空纤维膜接触器包括穿孔中心管,包括第一中空纤维膜的第一垫,包括第二中空纤维膜的第二垫,第一管板,第二管板,壳和端盖。 第一和第二中空纤维膜是不相似的。 第一和第二垫围绕中心管,并且第一和第二管板将第一和第二垫固定到中心管。 第一中空纤维膜具有第一管腔,第二中空纤维膜具有第二管腔。 第一管腔可以在第一管板处打开并且在第二管板处封闭,而第二管腔可以在第二管板处打开并且在第一管板处封闭。 壳体围绕第一和第二垫,并且其被密封到管板。 端盖固定到外壳上,从而在其间形成管板和端盖之间的前部空间。

    Polyolefin membrane with integrally asymmetrical tructure and process for producing such a membrane
    9.
    发明申请
    Polyolefin membrane with integrally asymmetrical tructure and process for producing such a membrane 有权
    具有整体不对称结构的聚烯烃膜和用于生产这种膜的方法

    公开(公告)号:US20050145107A1

    公开(公告)日:2005-07-07

    申请号:US10502346

    申请日:2003-01-08

    摘要: Process for producing an integrally asymmetrical hydrophobic polyolefinic membrane with a sponge-like, open-pored, microporous support structure and a separation layer with a denser structure, using a thermally induced liquid-liquid phase separation process. A solution of at least one polyolefin is extruded to form a shaped object. The solvent used is one for which the demixing temperature of a solution of 25% by weight of the polyolefin in this solvent is 10 to 70° C. above the solidification temperature. After leaving the die, the shaped object is cooled using a liquid cooling medium that does not dissolve the polymer up to the die temperature, until the phase separation and solidification of the high-polymer-content phase take place. The integrally asymmetrical membrane producible in this manner has a porosity of greater than 30% to 75% by volume, a sponge-like, open-pored, microporous support layer without macrovoids and with on average isotropic pores, and on at least one of its surfaces a separation layer with pores

    摘要翻译: 使用热诱导的液 - 液相分离方法制造具有海绵状,开孔,微孔载体结构的整体不对称的疏水性聚烯烃膜和具有更致密结构的分离层的方法。 将至少一种聚烯烃的溶液挤出以形成成形物体。 使用的溶剂是在该溶剂中25重量%聚烯烃的溶液的分层温度高于固化温度10-70℃的溶剂。 在离开模具之后,使用不溶解聚合物直至模具温度的液体冷却介质来冷却成型物体,直到发生高分子含量相的相分离和凝固。 以这种方式生产的整体不对称膜具有大于30体积%至75体积%的孔隙率,不具有大孔和平均各向同性孔的海绵状,开孔,微孔支撑层,并且在其至少一个 表面具有<100nm孔径的分离层(如果有的话)。 膜优选用于气体分离或气体转移过程,特别是用于血液氧合。