公开(公告)号：KR1020090013504A

公开(公告)日：2009-02-05

申请号：KR1020070077718

申请日：2007-08-02

Applicant: 성균관대학교산학협력단

Inventor： 한귀영 ,  강용혁 ,  서태범

IPC: C01B3/38 ,  C01B3/26 ,  B01J37/02

CPC classification number: Y02P20/134

Abstract: A supported catalyst for steam reforming of methane using solar energy and a method for steam reforming of methane using the supported catalyst are provided to allow solar light to reach the inside of a catalyst supporter by using an SiC ceramic foam that is a porous catalyst supporter, and to solve a problem that a temperature gradient increases by improving temperature-increasing efficiency while reaction gas passes through the supporter. A method for steam reforming of methane using solar energy comprises a first step of wash coating a reforming catalyst on a catalyst supporter to prepare a supported catalyst, a second step of charging the prepared supported catalyst into a reactor, and a third step of supplying methane and steam into the reactor to react the methane and steam. The catalyst supporter is a porous SiC ceramic foam of a cylindrical shape. The methane reforming catalyst is a nickel-based catalyst. The reactor is a reactor in which a solar receiver formed in the form of a quartz plate of a curved surface is installed.

Abstract translation: 提供了一种使用太阳能进行甲烷蒸汽重整的载体催化剂和使用负载催化剂的甲烷蒸汽重整方法，以使太阳能光能通过使用多孔催化剂载体的SiC陶瓷泡沫体到达催化剂载体的内部， 并且解决了当反应气体通过支持体时通过提高升温效率来提高温度梯度的问题。 使用太阳能对甲烷进行蒸汽重整的方法包括在催化剂载体上洗涤重整催化剂以制备负载催化剂的第一步骤，将制备的负载型催化剂装入反应器的第二步骤，以及第三步骤， 并将蒸汽倒入反应器中以使甲烷和蒸汽反应。 催化剂载体是一种圆柱形多孔SiC陶瓷泡沫体。 甲烷重整催化剂是镍基催化剂。 反应器是其中安装有形成为曲面石英板形式的太阳能接收器的反应器。

公开(公告)号：KR100839941B1

公开(公告)日：2008-06-20

申请号：KR1020070002005

申请日：2007-01-08

Applicant: 성균관대학교산학협력단

Inventor： 엄영익 ,  김가을 ,  고광선 ,  경계현 ,  강성구 ,  강용혁 ,  조현진 ,  장현수 ,  정용우 ,  최현우

IPC: H04L12/22

CPC classification number: H04L63/164

Abstract: A system and a method for controlling an abnormal IPSec traffic by using IPSec setup information and session information are provided to block the transmitted abnormal IPSec setup and communication step packets after storing information about normal IPSec setup and communication step packets by using an IPSec setup information table and an IPSec session information table. An extension header processing unit(10) receives an IPSec(Internet Protocol Security) packet, divides the packet into an IPSec setup step packet and an IPSec communication step packet, and extracts each information used for traffic control. An IPSec setup step packet confirmation unit(20) has an IPSec setup database unit(21) for managing IPSec setup information, and receives the information extracted from the IPSec setup step packet. The IPSec setup step packet confirmation unit compares the extracted information with information stored in the IPSec session database unit, and determines whether to pass the IPSec packet. An IPSec communication step packet confirmation unit(30) has an IPSec session database unit(31) for managing IPSec session information, and receives information extracted from the IPSec communication step packet. The IPSec communication step packet confirmation unit compares the extracted information with information stored in the IPSec session database unit, and determines whether to pass the IPSec packet. A control unit(40) passes or blocks the IPSec packet according to the determination result of the IPSec setup step packet confirmation unit or the IPSec communication step packet confirmation unit.

Abstract translation: 提供一种通过使用IPSec设置信息和会话信息来控制异常IPSec流量的系统和方法，通过使用IPSec设置信息表来存储关于正常的IPSec建立和通信步骤分组的信息之后的所传输的异常IPSec建立和通信步骤分组 和IPSec会话信息表。 扩展头处理单元（10）接收IPSec（因特网协议安全）分组，将分组划分为IPSec建立步骤分组和IPSec通信步骤分组，并提取用于业务控制的每个信息。 IPSec建立步骤包确认单元（20）具有用于管理IPSec建立信息的IPSec建立数据库单元（21），并接收从IPSec建立步骤包中提取的信息。 IPSec建立步骤分组确认单元将提取的信息与存储在IPSec会话数据库单元中的信息进行比较，并确定是否通过IPSec分组。 IPSec通信步骤包确认单元（30）具有用于管理IPSec会话信息的IPSec会话数据库单元（31），并且接收从IPSec通信步骤包中提取的信息。 IPSec通信步骤包确认单元将所提取的信息与存储在IPSec会话数据库单元中的信息进行比较，并判断是否通过IPSec数据包。 控制单元（40）根据IPSec建立步骤分组确认单元或IPSec通信步骤分组确认单元的确定结果来传递或阻止IPSec分组。