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    • 1. 发明公开
    • 진공 펌프 보호 방법 및 진공 퍼지 장치
    • 自清洁真空泵系统
    • KR1020020030703A
    • 2002-04-25
    • KR1020010056166
    • 2001-09-12
    • 에어 프로덕츠 앤드 케미칼스, 인코오포레이티드
    • 조리치로버트샘실바데이빗제임스
    • F16T1/00
    • B01D45/00Y10T137/0396Y10T137/3084Y10T137/6606Y10T137/86083
    • PURPOSE: A self-cleaning vacuum purge system is provided to avoid exposing workers to hazardous chemicals, risking expensive downtime for the operation, or releasing toxic or noxious fumes into the environment. CONSTITUTION: A vacuum purge system is provided to protect a vacuum pump(10) from becoming flooded with liquid that on occasion is purged with vapors from process equipment. The liquid is trapped in a vessel and then evaporated and exhausted through the vacuum pump as vapor. Evaporation of trapped liquid is effected by reducing or stopping the purge stream to the trapping vessel while continuing to operate the vacuum pump, thereby reducing the absolute pressure within the vessel. Evaporation of liquid can also be effected by supplying heat to the trapped vessel, either in cooperation with or instead of the pressure reduction. Use of a programmable logic controller enables a cyclic operation that traps(11) liquid from entering the pump, removes the trapped liquid as vapor, and then resumes normal purge operation.
    • 目的:提供自清洁真空吹扫系统,以避免工人受到危险化学品的侵害,可能导致操作昂贵的停机时间,或将有毒或有毒的烟雾释放到环境中。 构成:提供真空吹扫系统,以保护真空泵(10)不被液体淹没,有时用过程设备蒸汽吹扫。 将液体捕获在容器中,然后蒸发并通过真空泵作为蒸气排出。 捕集的液体的蒸发通过在继续操作真空泵的同时将吹扫流还原或停止到捕集容器,从而降低容器内的绝对压力来实现。 液体的蒸发也可以通过与压缩还原反应或代替减压来向被捕集的容器提供热量来实现。 使用可编程逻辑控制器可以进行循环操作,捕获(11)液体进入泵,将捕集的液体作为蒸汽去除,然后恢复正常的清洗操作。
    • 2. 发明公开
    • 칩을 이용한 집진장치.
    • 集尘器芯片的结构
    • KR1020140088413A
    • 2014-07-10
    • KR1020130000263
    • 2013-01-02
    • 정 무 헌
    • 정무헌
    • B01D46/42B01D46/00B01D45/00B01D39/14
    • B01D39/2027B01D45/00B01D46/02B01D46/24B01D46/42B01D2239/10
    • The present invention relates to the recycling of chips generated during metal processing of a dust collector filter. A sliding portion which can be slid to be closed is formed in an upper portion of a filter case, the side opposite to the sliding portion is provided in a fine mesh, and multiple wefts and warps are configured densely on a left side surface and a right side surface of a mesh body. The chips are used through formyl in the filter case described above, and thus the present invention can be used repeated times compared to general dust collector filters. Accordingly, the chips, which are industrial waste, can be recycled for higher economic advantage.
    • 本发明涉及在集尘器过滤器的金属加工期间产生的碎屑的再循环。 可以滑动关闭的滑动部分形成在过滤器壳体的上部,与滑动部分相对的一侧设置成细孔,多个纬纱和经纱配置在左侧表面上, 网状体的右侧表面。 通过上述过滤器壳体中的甲酰基使用这些芯片,因此与一般的集尘器过滤器相比可以重复使用本发明。 因此,作为工业废弃物的芯片可以被再循环以获得更高的经济优势。
    • 5. 发明授权
    • 유체분리기
    • 流体分离装置
    • KR101195364B1
    • 2012-10-29
    • KR1020120004921
    • 2012-01-16
    • 박태열
    • 박태열
    • B01D53/26B01D45/00B01D5/00G21D1/02
    • Y02E30/40B01D53/26B01D5/00B01D45/00G21D1/02
    • PURPOSE: A fluid separator is provided to reduce the pressure loss of fluid on a flow path when the components of the fluid are separated by the difference of density. CONSTITUTION: A fluid separator includes base plates(110) and guiding plates(120). The base plates are curved to the opposite direction and are alternately arranged. The base plates include first base curved parts and second base curved parts. The curvatures of the first base curved parts and the second base curved parts are identical, and the first base curved parts and the second base curved parts respectively form continuously connected sine waveforms or cosine waveforms. The guiding plates are curved to the opposite direction and are alternately arranged. Openings are formed at the center parts of the guiding plates.
    • 目的:提供一种流体分离器,以便当流体的组分被密度差分开时,减小流路上流体的压力损失。 构成:流体分离器包括基板(110)和引导板(120)。 基板向相反方向弯曲并且交替布置。 基板包括第一基部弯曲部分和第二基部弯曲部分。 第一基部弯曲部和第二基部弯曲部的曲率相同,第一基部弯曲部和第二基部弯曲部分别形成连续正弦波形或余弦波形。 引导板向相反方向弯曲并且交替布置。 开口形成在导向板的中心部分。
    • 6. 发明授权
    • 진공 펌프 보호 방법 및 진공 퍼지 장치
    • 진공펌프보호방법및진공퍼지장치
    • KR100433069B1
    • 2004-05-28
    • KR1020010056166
    • 2001-09-12
    • 에어 프로덕츠 앤드 케미칼스, 인코오포레이티드
    • 조리치로버트샘실바데이빗제임스
    • F16T1/00
    • B01D45/00Y10T137/0396Y10T137/3084Y10T137/6606Y10T137/86083
    • A vacuum purge system is provided to protect the vacuum pump from becoming flooded with liquid that on occasion is purged with vapors from process equipment. The liquid is trapped in a vessel and then evaporated and exhausted through the vacuum pump as vapor. Evaporation of trapped liquid is effected by reducing or stopping the purge stream to the trapping vessel while continuing to operate the vacuum pump, thereby reducing the absolute pressure within the vessel. Evaporation of liquid can also be effected by supplying heat to the trapped vessel, either in cooperation with or instead of the pressure reduction. Use of a programmable logic controller enables a cyclic operation that traps liquid from entering the pump, removes the trapped liquid as vapor, and then resumes normal purge operation.
    • 提供真空吹扫系统以保护真空泵免于被液体淹没,液体有时用来自工艺设备的蒸气吹扫。 将液体收集在容器中,然后蒸发并通过真空泵作为蒸气排出。 通过在继续操作真空泵的同时减少或停止到捕集容器的清洗流来实现捕集液的蒸发,由此降低容器内的绝对压力。 液体的蒸发也可以通过向捕集的容器提供热量来实现,或者与减压协作或者代替减压。 使用可编程逻辑控制器可以实现循环操作,捕捉液体进入泵,将捕获的液体作为蒸汽去除,然后恢复正常的吹扫操作。
    • 9. 发明授权
    • 화력발전소의 연돌에서 배출되는 이산화탄소의 회수장치 및 방법
    • 用于回收热电厂烟囱二氧化碳的装置和方法
    • KR101445756B1
    • 2014-10-07
    • KR1020140069239
    • 2014-06-09
    • 최무웅신두만
    • 최무웅신두만
    • B01D53/62B01D47/02B01D53/26F23G7/06
    • Y02C10/04Y02P70/34B01D53/62B01D45/00B01D47/02B01D53/005B01D53/75B01D53/78B01D2257/504B01F7/22F23J15/02
    • The present invention relates to an apparatus and method for recovering carbon dioxide from chimney of thermal power plant. The apparatus for recovering carbon dioxide according to the present invention includes: a carbon dioxide dissolution tank (20) for dissolving exhaust gas containing carbon dioxide (CO_2) discharged from a chimney (10) of the thermal power plant by using water; a first carbon dioxide substitution tank (30) for firstly recovering carbon dioxide while stirring the exhaust gas passing through the carbon dioxide dissolution tank (20) with water through a rotation wing (34); a second carbon dioxide substitution tank (40) for secondly recovering carbon dioxide from the exhaust gas passing through the first carbon dioxide substitution tank (30) through heat-generation of the coil (44); a carbon dioxide separation tank (50) for separating the exhaust gas passing through the second carbon dioxide substitution tank (40) into carbon dioxide and other gases except for the carbon dioxide by a partition wall (52); and a carbon dioxide storage tank (80) for storing the carbon dioxide separated from the carbon dioxide separation tank (50).
    • 本发明涉及一种用于从火力发电厂烟囱中回收二氧化碳的装置和方法。 根据本发明的二氧化碳回收装置包括:二氧化碳溶解罐(20),用于通过使用水来溶解从火力发电厂的烟囱(10)排出的含有二氧化碳(CO_2)的废气; 第一二氧化碳替代罐(30),用于首先回收二氧化碳,同时用水通过旋转翼(34)搅拌通过二氧化碳溶解罐(20)的废气; 第二二氧化碳置换罐(40),用于通过所述线圈(44)的发热二次从通过所述第一二氧化碳置换罐(30)的废气中回收二氧化碳; 用于通过分隔壁(52)将通过第二二氧化碳置换罐(40)的废气分离成二氧化碳和除二氧化碳之外的其它气体的二氧化碳分离罐(50); 和用于储存从二氧化碳分离罐(50)分离的二氧化碳的二氧化碳储存罐(80)。
    • 10. 发明公开
    • 습분분리기용 다공판
    • 水分离装置执行板
    • KR1020130084129A
    • 2013-07-24
    • KR1020120004920
    • 2012-01-16
    • 박태열
    • 박태열
    • B01D53/26B01D45/00B01D5/00G21D1/02
    • Y02E30/40B01D53/26B01D5/00B01D45/00G21D1/02
    • PURPOSE: A perforated plate for a moisture separator is provided to reduce the pressure reduction of vapor while the vapor passes through perforated holes on a perforated plate by changing the structures of the perforated holes on the perforated plate. CONSTITUTION: A perforated plate (100) is arranged in a moisture separator which removes moisture from vapor in a nuclear or thermoelectric power plant. A plurality of perforated holes (120) is formed on the front surface of the perforated plate. The inlet corner of the perforated hole is rounded. The radius (r) of the rounded corner is 1/10-1/4 of the diameter (D) of the perforated hole. The thickness (T) of the perforated plate is 1/4-2 of the diameter of the perforated hole.
    • 目的:提供一种用于湿气分离器的多孔板,用于通过改变多孔板上的穿孔的结构来减少蒸汽的压力降低,同时蒸气穿过多孔板穿过孔。 构成:多孔板(100)布置在水分分离器中,其从核或热电发电厂的蒸气中除去水分。 在多孔板的前表面上形成有多个穿孔(120)。 穿孔的入口角是圆形的。 圆角的半径(r)为穿孔的直径(D)的1 / 10-1 / 4。 多孔板的厚度(T)为穿孔的直径的1/4〜2。