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    • 73. 发明授权
    • Distillative separation of mixtures and apparatus for this purpose
    • 用于此目的的混合物和设备的蒸馏分离
    • US5897748A
    • 1999-04-27
    • US743077
    • 1996-11-04
    • Gerd Kaibel
    • Gerd Kaibel
    • B01D3/16B01D3/00B01D3/14B01D3/20B01D3/32
    • B01D3/141B01D3/008B01D3/14B01D3/20B01D3/32Y10S261/72
    • To compensate the bypassing, at the edges, of the liquid flowing downward in a distillation column, in order to achieve optimum mass transfer with the ascending vapor, a specific nonuniform distribution of the liquid trickling density over the column cross-section is established including the steps of establishing a nonuniform distribution of the liquid trickling density over the column cross-section in the distillation column and adjusting the liquid trickling density in the wall regions, said nonuniform distribution being achieved bya) arranging a number of outlet orifices or the diameter of the outlet orifices of a liquid distributor orb) arranging baffles in the stripping sections at height intervals from 0.1 to 2 m, in the case of dumped packings with baffles which project into the column space from the wall by about from 0.5 to 3 times packing dimensions orc) choosing the thickness and position of an insulating layer of a column jacket in the rectifying sections of a column at operating temperatures above ambient temperature according to a temperature difference between column and environment so that a desired additional area-related liquid flow is achieved in an edge region of the column.
    • 为了补偿在蒸馏塔中向下流动的液体旁路旁路,为了实现与上升蒸汽的最佳质量传递,建立了液体滴流密度在柱截面上的特定不均匀分布,包括 在蒸馏塔中的柱截面上建立液体滴流密度的不均匀分布的步骤,并且调节壁区域中的液体滴注密度,所述不均匀分布通过以下步骤实现:a)布置多个出口孔或直径 液体分配器的出口孔,或b)以0.1至2米的高度间隔排列在汽提部分中的挡板,在具有挡板的倾倒式填料的情况下,该挡板从壁向墙壁空间注入约0.5至3倍的填料 尺寸或c)选择塔的整流部分中柱套的绝缘层的厚度和位置 根据柱和环境之间的温度差,操作温度高于环境温度,使得在塔的边缘区域中实现所需的附加区域相关液体流动。
    • 76. 发明授权
    • Process for obtaining maleic anhydride by distillation
    • 通过蒸馏获得马来酸酐的方法
    • US08461356B2
    • 2013-06-11
    • US12532660
    • 2008-03-19
    • Gunther WindeckerGerd KaibelMichael SteinigerThilo BuntrockJens WeigunyDany Vanden HautteThierry Lurquin
    • Gunther WindeckerGerd KaibelMichael SteinigerThilo BuntrockJens WeigunyDany Vanden HautteThierry Lurquin
    • C07D307/36
    • B01D3/14B01D3/141C07C51/573C07C57/145
    • What is described is a process for obtaining maleic anhydride by distillation from a solution of maleic anhydride in a high-boiling absorbent which has been obtained by gas phase oxidation of a hydrocarbon and at least partial absorption of the oxidation products into the absorbent, by i) introducing the solution into the side of a feed column with a rectifying section disposed above the feed point and a stripping section disposed below the feed point, ii) providing an upper combining column which communicates with the upper end of the rectifying section and a lower combining column which communicates with the lower end of the stripping section, iii) providing a draw column which communicates with the upper combining column and the lower combining column, iv) drawing maleic anhydride off as a side draw from the draw column, and drawing off compounds having a lower boiling point than maleic anhydride at the top of the upper combining column and the high-boiling absorbent at the bottom of the lower combining column. The maleic anhydride obtained as a side draw has a low content of acrylic acid and acetic acid.
    • 所描述的是通过蒸馏从马来酸酐在高沸点吸收剂中的溶液获得马来酸酐的方法,其通过烃的气相氧化和至少部分吸收氧化产物进入吸收剂中获得, 将溶液引入进料塔的侧面,其中设置在进料点上方的精馏部分和设置在进料点下方的汽提部分,ii)提供与精馏部分的上端连通的上部混合塔和下部 组合柱与汽提部分的下端连通,iii)提供与上部混合塔和下部混合塔连通的牵引柱,iv)将拉伸马来酸酐作为拉伸塔的牵引拉出,拉出 在上部混合塔的顶部具有比马来酸酐低的沸点的化合物和在底部o的高沸点吸收剂 f下组合列。 作为侧馏分获得的马来酸酐具有低含量的丙烯酸和乙酸。
    • 78. 发明授权
    • Dividing wall column for fractionation of a multicomponent mixture
    • 分隔壁柱用于多组分混合物的分馏
    • US08092655B2
    • 2012-01-10
    • US09782305
    • 2001-02-14
    • Wolfram BurstHorst HartmannGerd KaibelGuido Harms
    • Wolfram BurstHorst HartmannGerd KaibelGuido Harms
    • B01D1/14B01D3/42C07C67/54
    • B01D3/141B01D3/14Y10S159/906Y10S203/20
    • A dividing wall column is described which includes the following segments:a) an upper column region (1),b) an enrichment section (2) of the feed section,c) a stripping section (4) of the feed section,d) an upper part (3) of the offtake section,e) a lower part (5) of the offtake section,f) an intermediate region (9) of the feed section,g) an intermediate region (10) of the offtake section andh) a lower column region (6).The dividing wall column has a dividing wall (7) is located vertically between the segments b) (2) and d) (3) and between the segments c) (4) and e) (5). The segments b) (2), d) (3), c) (4) and e) (5) have separation-active internals, Segment b (2) has a cross-sectional area Ab which is at least 10% smaller than the cross-sectional area Ad of segment d) (3), and segment c) has a cross-sectional area Ac which is at least 10% greater than the cross-sectional area Ae of segment e) (5).
    • 描述了分隔壁柱,其包括以下部分:a)上部柱区域(1),b)进料部分的富集部分(2),c)进料部分的汽提部分(4),d) 所述出料部分的上部(3),e)所述出料部分的下部(5),f)所述进料部分的中间区域(9),g)所述出料部分的中间区域(10)和 h)较低的列区域(6)。 分隔壁柱具有位于段b)(2)和d)(3)之间以及段c)(4)和e)(5)之间的分隔壁(7)。 段b)(2),d)(3),c)(4)和e)(5)具有分离活性内部,段b(2)的横截面积Ab至少减小10% 比段d)(3)的截面面积Ad大,截面积Ac的截面面积Ac比段e)(5)的横截面面积Ae至少大10%。
    • 79. 发明申请
    • LIQUID COOLING DEVICE IN INTERNAL COMBUSTION ENGINES AND PROCESS FOR MANUFACTURING SAME
    • 内燃机中的液体冷却装置及其制造方法
    • US20100162971A1
    • 2010-07-01
    • US12160797
    • 2007-01-26
    • Claudius KormannGerd KaibelDirk Neumann
    • Claudius KormannGerd KaibelDirk Neumann
    • F01P9/00B21K3/00
    • F01P3/02F01P7/165F01P2003/027F01P2003/182F28D2021/0094F28F13/185Y10T29/49231
    • The invention relates to an apparatus for liquid cooling of an internal combustion engine (11) and a process for producing it. The apparatus of the invention comprises a cooling circuit (13) which comprises at least one cooling channel (23, 24, 41) for a liquid coolant which is in thermal contact with at least one component (12a, 12b, 31) of the internal combustion engine (11), wherein a wall of the cooling channel (23, 24, 41) which comes into contact with the coolant has a microstructured surface having a certain porosity and roughness at least in a subregion. According to the invention, such an apparatus is produced by constructing a cooling circuit for a liquid coolant which has cooling channels which can at least partly be brought into thermal contact with the internal combustion engine, wherein a microstructured surface is produced on at least part of the walls of the cooling channels which come into contact with the liquid coolant.
    • 本发明涉及内燃机(11)的液体冷却装置及其制造方法。 本发明的装置包括冷却回路(13),该冷却回路包括至少一个用于液体冷却剂的冷却通道(23,24,41),该冷却通道与内部的至少一个部件(12a,12b,31)热接触 内燃机(11),其中与冷却剂接触的冷却通道(23,24,41)的壁具有至少在一个次级区域中具有一定孔隙率和粗糙度的微结构化表面。 根据本发明,这种装置是通过构造一种具有冷却通道的冷却回路来制造的,所述冷却回路具有至少部分地与内燃机热接触的冷却通道,其中微结构化表面在至少部分 与液体冷却剂接触的冷却通道的壁。