Patents by Inventor Deuk Soo Park

Deuk Soo Park has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Publication number: 20200086300
    Abstract: Disclosed are a catalyst for producing olefin and a preparation method thereof. The catalyst for producing olefin includes: a support including an alumina and a sub-support component; and a catalytic component comprising a metal component and an alkali metal impregnated on the support. The preparation method includes: providing a support comprising a sub-support component and an alumina; preparing pre-catalyst by dipping a metal component oxide in the support and calcining it; and dipping a metal component oxide and an alkali metal oxide in the pre-catalyst and calcining it.
    Type: Application
    Filed: May 1, 2018
    Publication date: March 19, 2020
    Applicants: SK GAS CO., LTD., KOREA RESEARCH INSTITUTE OF CHEMICAL TECHNOLOGY
    Inventors: Ung Gi HONG, Deuk Soo PARK, Won Choon CHOI
  • Publication number: 20200058723
    Abstract: A display device includes a substrate, a semiconductor layer on the substrate, a first insulating layer on the semiconductor layer, a first conductive layer on the semiconductor layer, a second insulating layer on the first conductive layer, a first contact hole penetrating the first insulating layer and the second insulating layer, a second conductive layer on the second insulating layer, connected to the semiconductor layer through the first contact hole, and including a hydrogen barrier material, and a third insulating layer on the second conductive layer.
    Type: Application
    Filed: March 28, 2019
    Publication date: February 20, 2020
    Inventors: Wang Woo LEE, Moo Soon KO, Hyeon Sik KIM, Young Woo PARK, Se Wan SON, Jin Sung AN, Min Woo WOO, Seong Jun LEE, Jeong Soo LEE, Ji Seon LEE, Deuk Myung JI
  • Publication number: 20200055028
    Abstract: Disclosed is a catalyst for producing the olefin. The catalyst includes a support including alumina and a sub-support component, and a metal oxide impregnated on the support. The metal oxide includes anyone selected from an oxide of chromium, vanadium, manganese, iron, cobalt, molybdenum, copper, zinc, cerium and nickel; and the sub-support component includes anyone selected from zirconium, zinc and platinum.
    Type: Application
    Filed: December 28, 2017
    Publication date: February 20, 2020
    Applicants: SK GAS CO., LTD., KOREA RESEARCH INSTITUTE OF CHEMICAL TECHNOLOGY
    Inventors: Won Choon CHOI, Yong Ki PARK, Su Jin GONG, Seo Hyun SHIM, Deuk Soo PARK, Ung Gi HONG
  • Publication number: 20190388884
    Abstract: Disclosed is an olefin production method including: pretreating a catalyst by providing reduction gas to an alumina type catalyst to produce olefin from the hydrocarbon including not less than 90 wt % of LPG (Stage 1); producing the olefin by providing the catalyst pretreated at Stage 1 into Riser of Fast Fluidization Regime to dehydrogenate the hydrocarbon (Stage 2); separating the mixture of the produced propylene and the catalyst used at Stage 2, and regenerating the separated catalyst (Stage 3); and recycling the catalyst regenerated at Stage 3 to the process of Stage 1 (Stage 4).
    Type: Application
    Filed: May 1, 2018
    Publication date: December 26, 2019
    Applicants: SK GAS CO., LTD., KOREA RESEARCH INSTITUTE OF CHEMICAL TECHNOLOGY
    Inventors: Deuk Soo PARK, Ung Gi HONG, Hyeongchan AHN, Won Choon CHOI, Yong Ki PARK
  • Publication number: 20190330125
    Abstract: Disclosed is an olefin production method which includes: (a) providing the regenerated catalyst and the hydrocarbon including not less than 90 wt % of LPG into Riser of Fast Fluidization Regime, and dehydrogenating in the presence of an alumina type catalyst; (b) separating an effluent from the dehydrogenation reaction into the catalyst and propylene mixture; (c) stripping to remove the hydrocarbon compound included in the catalyst separated at stage (b); (d) mixing the catalyst stripped at stage (c) with the gas including oxygen, and continuously regenerating it; (e) recycling the catalyst regenerated at stage (d) to stage (a), and providing it again into Riser; and (f) producing propylene product by cooling, compressing and separating propylene mixture of the reaction product separated at stage (b).
    Type: Application
    Filed: May 1, 2018
    Publication date: October 31, 2019
    Applicants: SK GAS CO., LTD., KOREA RESEARCH INSTITUTE OF CHEMICAL TECHNOLOGY
    Inventors: Deuk Soo PARK, Ung Gi HONG, Hyeongchan AHN, Won Choon CHOI, Yong Ki PARK
  • Publication number: 20190229160
    Abstract: A display device includes a substrate including a display area and a non-display area. First, second, and third insulating layers are sequentially disposed on the substrate. Pixels are disposed in the display area. Each of the pixels including a transistor and a light emitting element connected to the transistor. A data line is disposed in the display area. The data line is configured to supply a data signal to each of the plurality of pixels. A wiring portion is disposed in the non-display area. The wiring portion includes a connecting line connected to the data line and a fan-out line connected to the connecting line. A dummy pattern is disposed in the non-display area. The dummy pattern at least partially overlaps the wiring portion.
    Type: Application
    Filed: October 1, 2018
    Publication date: July 25, 2019
    Inventors: JI SEON LEE, MOO SOON KO, YOUNG WOO PARK, SE WAN SON, JIN SUNG AN, MIN WOO WOO, JU WON YOON, WANG WOO LEE, JEONG SOO LEE, DEUK MYUNG JI
  • Publication number: 20190194241
    Abstract: The present invention relates to a pharmaceutical composition comprising an acanthoside B compound as an effective ingredient for preventing or treating dementia or for improving a cognitive function. In the present invention, a desalted glasswort extract, and acanthoside B, which is isolated from the extract and acts as an effective ingredient inhibitory of acetylcholine esterase, were found to have an excellent neuroprotective activity through the inhibition of neuroinflammation and to improve memory retention and remarkably enhance spatial cognitive ability as measured by passive avoidance test and Y-maze test in a scopolamine-induced amnesic animal model. The acanthoside B or glasswort extract of the present invention can be applied to a pharmaceutical composition for preventing or treating dementia, a pharmaceutical composition for improving a cognitive function, or a health functional food or feed for improving memory retention and cognitive function.
    Type: Application
    Filed: May 14, 2018
    Publication date: June 27, 2019
    Inventors: Deuk-Hoi KIM, Mee-Hyang KWEON, Eun-Ah CHO, Joon Soo KIM, Hyun Joo YOON, Seon Yeong PARK
  • Patent number: 10221111
    Abstract: An embodiment of this invention provides a method of effectively producing propylene by separating reaction products obtained by dehydrogenating propane-containing feedstock, using an adsorption process in lieu of conventional low-temperature separation processes.
    Type: Grant
    Filed: December 4, 2015
    Date of Patent: March 5, 2019
    Assignee: SK Gas Co., Ltd.
    Inventors: Chul Jin Kim, Deuk Soo Park, Kyung Min Kim
  • Publication number: 20180265430
    Abstract: An embodiment of this invention provides a method of effectively producing propylene by separating reaction products obtained by dehydrogenating propane-containing feedstock, using an adsorption process in lieu of conventional low-temperature separation processes.
    Type: Application
    Filed: December 4, 2015
    Publication date: September 20, 2018
    Inventors: Chul Jin KIM, Deuk Soo PARK, Kyung Min KIM
  • Patent number: 9062262
    Abstract: Disclosed is a method of recovering 1,3-butadiene from a C4 stream containing butane, isobutane, 2-butene, 1-butene, isobutene, butadiene and acetylene. The process of recovering highly pure 1,3-butadiene includes acetylene conversion for selectively converting acetylene through liquid-phase hydrogenation, so that the acetylene content is decreased to 70 wt ppm or less, and 1,3-butadiene extraction using an extractive distillation column, a pre-separator, a solvent stripping column, a solvent recovery column, and a purification column. Through the acetylene conversion, the concentration of vinylacetylene is decreased to 70 wt ppm or less, after which 1,3-butadiene is recovered using only one extractive distillation column, thereby considerably decreasing the degree of utility and the loss of streams in the course of extraction. The number of units necessary for the process is decreased, thus remarkably reducing the time during which impurities can accumulate in a processing unit.
    Type: Grant
    Filed: July 18, 2008
    Date of Patent: June 23, 2015
    Assignee: SK INNOVATION CO., LTD.
    Inventors: Hee Du Lee, Kyung Jong Oh, Min Su Ko, Min Gyoo Park, Seong Jun Lee, Yoon Jae Yim, Seung Hoon Oh, Tae Jin Kim, Yong Seung Kim, Deuk Soo Park, Hong Chan Kim
  • Patent number: 9056308
    Abstract: Disclosed are a molecular sieve catalyst and a preparation method thereof to produce light olefins from cracking naphtha catalytically in severe environments of high temperature and high moisture. In detail, the catalyst is prepared by spray-drying and calcining the mixed slurry, in which 0.01˜5.0 wt % of MnO2 and 1˜15 wt % of P2O5 are simultaneously imbedded in catalyst which consists of zeolite, clay and inorganic complex. According to the present invention, the method that manganese and phosphate are imbedded simultaneously in zeolite and inorganic complex is used to increases thermal-stability of obtained spherical catalyst, and increase olefin yield of cracking hydrocarbon such as naphtha by protecting acid-site of zeolite. To synthesize the required catalyst, the important procedures are mixing ratio and mixing sequence of Mn, P, zeolite, and inorganic complex.
    Type: Grant
    Filed: January 30, 2014
    Date of Patent: June 16, 2015
    Assignee: SK INNOVATION CO., LTD.
    Inventors: Dae Hyun Choo, Hong Chan Kim, Suk Joon Kim, Ji Min Kim, Tae Jin Kim, Sun Choi, Seung Hoon Oh, Yong Seung Kim, Deuk Soo Park, Yong Ki Park, Chul Wee Lee, Hee Young Kim, Won Choon Choi, Na Young Kang, Bu Sub Song
  • Patent number: 8840864
    Abstract: A method of preparing ZSM-5, including: providing a nanocrystalline ZSM-5 seed having a size of 70-150 nm; adding the nanocrystalline ZSM-5 seed to a stock solution including water glass as a silica source, an alumina source, a neutralizer and water to form a reaction mixture; and maintaining the reaction mixture at 150-200° C. to crystallize the reaction mixture. The method is advantageous in that ZSM-5 having small and uniform crystal sizes and including no impurities can be synthesized in a short period of time.
    Type: Grant
    Filed: October 18, 2010
    Date of Patent: September 23, 2014
    Assignees: SK Innovation., Ltd., Korea Research Institute of Chemical Technology
    Inventors: Sun Choi, Deuk Soo Park, Suk Joon Kim, Dae Hyun Choo, Yong Ki Park, Chul Wee Lee, Hee Young Kim, Won Choon Choi, Na Young Kang, Bu Sub Song
  • Publication number: 20140213431
    Abstract: Disclosed are a molecular sieve catalyst and a preparation method thereof to produce light olefins from cracking naphtha catalytically in severe environments of high temperature and high moisture. In detail, the catalyst is prepared by spray-drying and calcining the mixed slurry, in which 0.01˜5.0 wt % of MnO2 and 1˜15 wt % of P2O5 are simultaneously imbedded in catalyst which consists of zeolite, clay and inorganic complex. According to the present invention, the method that manganese and phosphate are imbedded simultaneously in zeolite and inorganic complex is used to increases thermal-stability of obtained spherical catalyst, and increase olefin yield of cracking hydrocarbon such as naphtha by protecting acid-site of zeolite. To synthesize the required catalyst, the important procedures are mixing ratio and mixing sequence of Mn, P, zeolite, and inorganic complex.
    Type: Application
    Filed: January 30, 2014
    Publication date: July 31, 2014
    Applicants: KOREA RESEARCH INSTITUTE OF CHEMICAL TECHNOLOGY, SK INNOVATION CO., LTD
    Inventors: DAE HYUN CHOO, HONG CHAN KIM, SUK JOON KIM, JI MIN KIM, TAE JIN KIM, SUN CHOI, SEUNG HOON OH, YONG SEUNG KIM, DEUK SOO PARK, YONG KI PARK, CHUL WEE LEE, HEE YOUNG KIM, WON CHOON CHOI, NA YOUNG KANG, BU SUB SONG
  • Patent number: 8673802
    Abstract: Disclosed are a molecular sieve catalyst and a preparation method thereof to produce light olefins from cracking naphtha catalytically in severe environments of high temperature and high moisture. In detail, the catalyst is prepared by spray-drying and calcining the mixed slurry, in which 0.01˜5.0 wt % of MnO2 and 1˜15 wt % of P2O5 are simultaneously imbedded in catalyst which consists of zeolite, clay and inorganic complex. According to the present invention, the method that manganese and phosphate are imbedded simultaneously in zeolite and inorganic complex is used to increases thermal-stability of obtained spherical catalyst, and increase olefin yield of cracking hydrocarbon such as naphtha by protecting acid-site of zeolite. To synthesize the required catalyst, the important procedures are mixing ratio and mixing sequence of Mn, P, zeolite, and inorganic complex.
    Type: Grant
    Filed: February 5, 2009
    Date of Patent: March 18, 2014
    Assignees: SK Innovation Co., Ltd., Korea Research Institute of Chemical Technology
    Inventors: Dae Hyun Choo, Hong Chan Kim, Suk Joon Kim, Ji Min Kim, Tae Jin Kim, Sun Choi, Seung Hoon Oh, Yong Seung Kim, Deuk Soo Park, Yong Ki Park, Chul Wee Lee, Hee Young Kim, Won Choon Choi, Na Young Kang, Bu Sub Song
  • Patent number: 8293961
    Abstract: Disclosed is a catalytic cracking process for the production of light olefins from a hydrocarbon feedstock using fast fluidization, which is a preferred process for more efficiently increasing the production of light olefin hydrocarbons. According to this invention, a fast fluidization regime is applied to a fluidized bed catalytic cracking process of producing light olefins using zeolite, such that a volume fraction and distribution of the catalyst sufficient to induce the catalytic cracking reaction can be provided, thus effectively enhancing the production of light olefin hydrocarbons, in particular, ethylene and propylene, at high selectivity.
    Type: Grant
    Filed: June 7, 2006
    Date of Patent: October 23, 2012
    Assignee: SK Innovation Co., Ltd.
    Inventors: Sun Choi, Yong Seung Kim, Deuk Soo Park, Suk Joon Kim, Ji Min Kim, Hong Chan Kim, Seung Hoon Oh, Tae-Jin Kim, Dae Hyun Choo
  • Publication number: 20120230910
    Abstract: Disclosed herein is a method of preparing ZSM-5, including: providing a nanocrystalline ZSM-5 seed having a size of 70˜300 nm; adding the nanocrystalline ZSM-5 seed to a stock solution including water glass as a silica source, an alumina source, a neutralizer and water to form a reaction mixture; and maintaining the reaction mixture at 150˜200° C. to crystallize the reaction mixture. The method is advantageous in that ZSM-5 having small and uniform crystal sizes and including no impurities can be synthesized in a short period of time.
    Type: Application
    Filed: October 18, 2010
    Publication date: September 13, 2012
    Inventors: Sun Choi, Deuk Soo Park, Suk Joon Kim, Dae Hyun Choo, Yong Ki Park, Chul Wee Lee, Hee Young Kim, Won Choon Choi, Na Young Kang, Bu Sub Song
  • Patent number: 7939702
    Abstract: Disclosed is a process for increasing production of light olefinic hydrocarbons from hydrocarbon feedstock by catalytic cracking. In the process, an effective separation process structure and recycle method of light olefins are used not only to increase the productivity and efficiency of an overall process, thus effectively increasing the production of light olefins, but also to simplify the overall process.
    Type: Grant
    Filed: June 1, 2006
    Date of Patent: May 10, 2011
    Assignee: SK Energy Co., Ltd.
    Inventors: Sun Choi, Yong Seung Kim, Deuk Soo Park, Suk Joon Kim, Il Mo Yang
  • Publication number: 20100137664
    Abstract: Disclosed is a method of recovering 1,3-butadiene from a C4 stream containing butane, isobutane, 2-butene, 1-butene, isobutene, butadiene and acetylene. The process of recovering highly pure 1,3-butadiene includes acetylene conversion for selectively converting acetylene through liquid-phase hydrogenation, so that the acetylene content is decreased to 70 wt ppm or less, and 1,3-butadiene extraction using an extractive distillation column, a pre-separator, a solvent stripping column, a solvent recovery column, and a purification column. Through the acetylene conversion, the concentration of vinylacetylene is decreased to 70 wt ppm or less, after which 1,3-butadiene is recovered using only one extractive distillation column, thereby considerably decreasing the degree of utility and the loss of streams in the course of extraction. The number of units necessary for the process is decreased, thus remarkably reducing the time during which impurities can accumulate in a processing unit.
    Type: Application
    Filed: July 18, 2008
    Publication date: June 3, 2010
    Inventors: Hee Du Lee, Kyung Jong Oh, Min Su Ko, Min Gyoo Park, Seong Jun Lee, Yoon Jae Yim, Seung Hoon Oh, Tae Jin Kim, Yong Seung Kim, Deuk Soo Park, Hong Chan Kim
  • Patent number: 7718840
    Abstract: Disclosed is a process for producing light olefins from hydrocarbon feedstock. The process is characterized in that a porous molecular sieve catalyst consisting of a product obtained by evaporating water from a raw material mixture comprising a molecular sieve with a framework of Si—OH—Al— groups, a water-insoluble metal salt, and a phosphate compound, is used to produce light olefins, particularly ethylene and propylene, from hydrocarbon, while maintaining excellent selectivity to light olefins. According to the process, by the use of a specific catalyst with hydrothermal stability, light olefins can be selectively produced in high yield with high selectivity from hydrocarbon feedstock, particularly full-range naphtha. In particular, the process can maintain higher cracking activity than the reaction temperature required in the prior thermal cracking process for the production of light olefins, and thus, can produce light olefins with high selectivity and conversion from hydrocarbon feedstock.
    Type: Grant
    Filed: June 27, 2006
    Date of Patent: May 18, 2010
    Assignees: SK Energy Co., Ltd., Korea Research Institute of Chemical Technology
    Inventors: Sun Choi, Yong Seung Kim, Deuk Soo Park, Suk Joon Kim, Il Mo Yang, Hee Young Kim, Yong Ki Park, Chul Wee Lee, Won Choon Choi, Kwang An Ko, Na Young Kang
  • Patent number: 7663013
    Abstract: A porous solid acid catalyst for producing light olefins is prepared through pillaring and a solid state reaction of a raw material mixture. The catalyst is made of a porous material having a crystalline structure that is different from that of the raw material mixture. The catalyst exhibits excellent catalytic activity (i.e., conversion and selectivity) in the production of light olefins from hydrocarbon feeds such as full range naphthas.
    Type: Grant
    Filed: November 5, 2008
    Date of Patent: February 16, 2010
    Assignee: SK Energy Co., Ltd.
    Inventors: Sun Choi, Deuk Soo Park, Suk Joon Kim, Ahn Seop Choi, Hee Young Kim, Yong Ki Park, Chul Wee Lee, Won Choon Choi, Sang Yun Han, Jeong Ri Kim