公开(公告)号：KR100764589B1

公开(公告)日：2007-10-08

申请号：KR1020060074112

申请日：2006-08-07

Applicant: 재단법인서울대학교산학협력재단

Inventor： 김재필 ,  송동현 ,  김영도

IPC: C09B67/20 ,  C09B62/036 ,  C09B62/032 ,  G02B5/20

CPC classification number: C09B62/036 ,  C09B67/006 ,  G02B5/20 ,  G03F7/0007

Abstract: A dye for PDP filters capable of absorbing neon lights and near infrared rays at the same time is provided, wherein a nucleophile-fixed neon-cut dye and a near infrared absorbing dye having at least one halogen substituent are covalently bonded to each other. A dye for PDP filters capable of absorbing neon lights and near infrared rays at the same time is prepared by covalently bonding (1) a neon-cut dye represented by the following formula 1 and (2) at least one near infrared absorbing dye to each other via a S_N 2 reaction using a (CH2)n-NH2 group of the neon-cut dye as a nucleophile. The at least one near infrared absorbing dye is selected from the group consisting of dithiol metal complex-based derivatives represented by the following formula 2, diimmonium-based derivatives represented by the following formula 3, and phenylenediamine metal complex-based derivatives represented by the following formula 4, which have at least one halogen substituent.

Abstract translation: 提供了能够同时吸收霓虹灯和近红外线的PDP滤光器的染料，其中具有至少一个卤素取代基的亲核试剂固定的氖切割染料和近红外线吸收染料共价键合。 通过共价键合（1）由下式1和（2）表示的氖切割染料至少一种近红外线吸收染料，可以制备能够同时吸收氖光和近红外线的PDP滤光器的染料 另一种通过使用（CH 2）n -NH 2基团的氖切割染料作为亲核试剂的S_N 2反应。 所述至少一种近红外线吸收染料选自由下式2表示的二硫醇金属络合物衍生物，由下式3表示的二亚铵基衍生物和由下式表示的苯二胺金属络合物衍生物 式4，其具有至少一个卤素取代基。

公开(公告)号：KR100829290B1

公开(公告)日：2008-05-14

申请号：KR1020060125806

申请日：2006-12-11

Applicant: 재단법인서울대학교산학협력재단

Inventor： 서일원 ,  류시완 ,  김영도

IPC: B05B17/08

Abstract: An underwater discharge nozzle is provided to maximize the dilution efficiency of sewage by increasing the suction amount of peripheral water by increasing the flow velocity at a crossing part as an inlet port and a discharge port get narrower from an inlet end portion and a discharge end portion toward the center of the underwater discharge nozzle. An underwater discharge nozzle used for a discharge system for discharging sewage under the water is composed of fitting units(30) installed on an underwater perforated dispersion pipe at regular intervals and combined with a vertical pipe; an inlet port(40) for passing sewage flowing from the fitting units; a discharge port(50) connected to the inlet port to discharge the sewage flowing from the inlet port; and a suction port(60) installed at the spot where the inlet port and the discharge port join together, at right angle to the flow of the sewage, in order to suck the water.

Abstract translation: 提供了一种水下排放喷嘴，用于通过增加作为入口端口和排出口的交叉部分处的流速而增加外围水的吸入量，使得污水的稀释效率从入口端部和排出端部变窄 朝向水下排放喷嘴的中心。 用于排放水下污水的排放系统的水下排放喷嘴由安装在水下穿孔分散管上的装配单元（30）组成，并与垂直管组合; 用于使从装配单元流出的污水通过的入口（40）; 连接到所述入口的排出口（50），以排出从所述入口流出的污水; 以及吸入口（60），其安装在入口和排出口连接在一起的位置处，与污水的流动成直角，以便吸水。

公开(公告)号：KR1020080052718A

公开(公告)日：2008-06-12

申请号：KR1020060124235

申请日：2006-12-08

Applicant: 재단법인서울대학교산학협력재단

Inventor： 서일원 ,  김영도 ,  류시완 ,  송창근

IPC: G06F17/50 ,  G06F9/455

CPC classification number: Y02A90/16 ,  G06Q50/26 ,  G06F17/11

Abstract: A hybrid simulation method of an ocean outfall system for the near and far fields is provided to offer a hybrid model of the near and far fields to analyze simultaneously an initial mixing procedure, a transferring and a distributing procedure of the underwater discharge sewage. Various kinds of discharge conditions about the underwater discharge sewage of an ocean outfall system are inputted. The speed and transfer time of tidal currents are calculated by inputting the discharge conditions into a hydrodynamics model. A shape of a discharge hole for underwater discharge is judged. In a case that an individual buoyant jet must be interpreted because of an interval of a distribution tube which is sufficiently big as the shape of the discharge hole, the data is simulated by applying a jet integral model. In the case that a line plume is able to be supposed by realizing the combination between buoyant jets at a short section of the discharge hole, the data is simulated by applying a property length model. The data simulated by the jet integral model and the property length model is simulated by applying the data to a particle tracing model. If the simulation of the particle tracing model is completed, a conversion process of a concentration coordinate system is performed, and a mixing procedure is interpreted.

Abstract translation: 提供近场和远场海洋排污系统的混合模拟方法，提供近场和远场混合模型，同时分析水下排放污水的初始混合程序，转移和分配程序。 输入关于海洋排放系统的水下排放污水的各种排放条件。 通过将排放条件输入到流体力学模型中来计算潮汐流的速度和转移时间。 判断用于水下排放的排出孔的形状。 在由于排放孔的形状足够大的分配管的间隔而必须解释单独的浮力的情况下，通过应用喷射积分模型来模拟数据。 在通过在排气孔的短截面处实现浮力喷嘴之间的组合能够假设线羽流的情况下，通过应用属性长度模型来模拟数据。 通过将数据应用于粒子跟踪模型，模拟由流体积分模型和属性长度模型模拟的数据。 如果粒子跟踪模型的模拟完成，则执行浓度坐标系的转换过程，并且对混合过程进行解释。