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    • 2. 发明授权
    • Method for producing ballast bodies
    • 压载体的制造方法
    • US09562332B2
    • 2017-02-07
    • US14241991
    • 2012-08-27
    • Torsten ErweFrank GrimbergThomas GrossThomas Kleiner
    • Torsten ErweFrank GrimbergThomas GrossThomas Kleiner
    • E01B27/02E01B3/44E01B1/00
    • E01B27/02E01B1/001E01B3/44
    • The invention relates to a method for producing load transferring regions in a ballast body of a track superstructure by introducing curable liquid plastics or reactive plastic mixtures from a mixing unit by means of at least two distributor pipes with outlets into the load transferring regions and allowing the plastic or the reactive plastic mixture to cure in said load transferring regions. The two distributor pipes with outlets are positioned on the left or on the right from the outside of the rails into the region between the two rails such that the outlets are located adjacent to each other and are laterally spaced from the front face (3) of the tie (2) that has the load transferring region to be reinforced. The two outlets are opened in order to allow the plastic or the reactive plastic mixture to exit at a controlled rate. Each distributor pipe outlet is guided to the respective end face (4, 4′) of the tie (2) from the inside to the outside in a lateral manner with respect to the front face (3) of the tie (2) and around the respective end face (4, 4′) of the tie (2) to the rear face (5) of the tie (2). The distributor pipe outlets are guided in a lateral manner along the rear face (5) of the tie (2) into the region between the two rails (9, 9′) such that the outlets are located adjacent to each other and are laterally spaced from the rear face (5) of the tie (2).
    • 本发明涉及一种用于在轨道上部结构的压载体中产生载荷传递区域的方法,其特征在于,通过至少两个具有出口的分配器管道将可固化的液体塑料或反应性塑料混合物从混合单元引入到载荷传递区域中, 塑料或反应性塑料混合物在所述负载转移区域中固化。 具有出口的两个分配器管从轨道的外部位于左侧或右侧,进入两个轨道之间的区域,使得出口彼此相邻并且与前面(3)的横向间隔开 具有要加固的载荷传递区域的连接件(2)。 打开两个出口以便塑料或反应性塑料混合物以受控的速率离开。 每个分配器管出口相对于领带(2)的前面(3)以内侧和外侧的方式被引导到系带(2)的相应的端面(4,4'),并且围绕 领带(2)的相应端面(4,4')连接到领带(2)的后表面(5)。 分配器管出口沿着连接件(2)的后表面(5)以横向方式被引导到两个导轨(9,9')之间的区域中,使得出口彼此相邻并且横向隔开 从领带(2)的后面(5)。
    • 3. 发明申请
    • METHOD FOR PRODUCING BALLAST BODIES
    • 生产压块体的方法
    • US20140300015A1
    • 2014-10-09
    • US14241991
    • 2012-08-27
    • Torsten ErweFrank GrimbergThomas GrossThomas Kleiner
    • Torsten ErweFrank GrimbergThomas GrossThomas Kleiner
    • E01B1/00
    • E01B27/02E01B1/001E01B3/44
    • The invention relates to a method for producing load transferring regions in a ballast body of a track superstructure by introducing curable liquid plastics or reactive plastic mixtures from a mixing unit by means of at least two distributor pipes with outlets into the load transferring regions and allowing the plastic or the reactive plastic mixture to cure in said load transferring regions. The two distributor pipes with outlets are positioned on the left or on the right from the outside of the rails into the region between the two rails such that the outlets are located adjacent to each other and are laterally spaced from the front face (3) of the tie (2) that has the load transferring region to be reinforced. The two outlets are opened in order to allow the plastic or the reactive plastic mixture to exit at a controlled rate. Each distributor pipe outlet is guided to the respective end face (4, 4′) of the tie (2) from the inside to the outside in a lateral manner with respect to the front face (3) of the tie (2) and around the respective end face (4, 4′) of the tie (2) to the rear face (5) of the tie (2). The distributor pipe outlets are guided in a lateral manner along the rear face (5) of the tie (2) into the region between the two rails (9, 9′) such that the outlets are located adjacent to each other and are laterally spaced from the rear face (5) of the tie (2).
    • 本发明涉及一种用于在轨道上部结构的压载体中产生载荷传递区域的方法,其特征在于,通过至少两个具有出口的分配器管道将可固化的液体塑料或反应性塑料混合物从混合单元引入到载荷传递区域中, 塑料或反应性塑料混合物在所述负载转移区域中固化。 具有出口的两个分配器管从轨道的外部位于左侧或右侧,进入两个轨道之间的区域,使得出口彼此相邻并且与前面(3)的横向间隔开 具有要加固的载荷传递区域的连接件(2)。 打开两个出口以便塑料或反应性塑料混合物以受控的速率离开。 每个分配器管出口相对于领带(2)的前面(3)以内侧和外侧的方式被引导到系带(2)的相应的端面(4,4'),并且围绕 领带(2)的相应端面(4,4')连接到领带(2)的后表面(5)。 分配器管出口沿着连接件(2)的后表面(5)以横向方式被引导到两个导轨(9,9')之间的区域中,使得出口彼此相邻并且横向隔开 从领带(2)的后面(5)。
    • 5. 发明申请
    • REGENERATIVE ADSORPTION PROCESSES FOR REMOVING ORGANIC COMPONENTS FROM GAS STREAMS
    • 从气体流中去除有机成分的再生吸附工艺
    • US20080250924A1
    • 2008-10-16
    • US12100456
    • 2008-04-10
    • Ole BrettschneiderKnud WernerTorsten Erwe
    • Ole BrettschneiderKnud WernerTorsten Erwe
    • B01D46/46
    • B01D53/04B01D53/002B01D2253/102B01D2257/2064B01D2257/70B01D2257/7027B01D2259/4009C01B7/04C01B7/0718C01B7/0725Y02P20/129Y02P20/154Y02P20/22
    • Processes are described comprising: providing a crude gas stream having a temperature not exceeding 40° C., the crude gas stream comprising at least one organic impurity; condensing at least a portion of the at least one organic impurity from the crude gas stream at a temperature not exceeding 0° C. to form a prepurified gas stream; and subjecting (at least a portion, preferably substantially all, and more preferably the entirety, of) the prepurified gas stream to adsorption on a first adsorption medium to provide a purified gas stream; wherein the first adsorption medium is subjected to a regeneration comprising: (i) providing a circulating inert gas stream having a temperature of at least 100° C.; (ii) passing the circulating inert gas stream over the first adsorption medium to form an organic impurity-loaded inert gas stream; (iii) cooling the loaded inert gas stream to a temperature not exceeding 40° C.; (iv) condensing at least a portion of the organic impurity from the cooled, loaded inert gas stream to provide a prepurified circulating inert gas stream; subjecting (at least a portion, preferably substantially all, and more preferably the entirety, of) the prepurified circulating inert gas stream to adsorption on a second adsorption medium to provide a purified circulating inert gas stream; and recycling the purified circulating inert gas stream to the circulating inert gas stream.
    • 描述的方法包括:提供温度不超过40℃的粗气流,粗气流包含至少一种有机杂质; 在不超过0℃的温度下从粗气流中冷凝至少一部分至少一种有机杂质以形成预净化气流; 并且使第一吸附介质((至少一部分,优选基本上全部,更优选整个))的预纯化气流吸附以提供纯化气流; 其中所述第一吸附介质经受再生,其包括:(i)提供具有至少100℃的温度的循环惰性气流; (ii)使循环的惰性气流通过第一吸附介质以形成负载有机杂质的惰性气流; (iii)将负载的惰性气流冷却至不超过40℃的温度; (iv)从冷却的负载惰性气流中冷凝至少一部分有机杂质以提供预净化的循环惰性气流; 使预纯化的循环惰性气体流(至少一部分,优选基本上全部,更优选全部)在第二吸附介质上吸附以提供纯化的循环惰性气流; 并将纯化的循环惰性气流再循环到循环惰性气流中。