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公开(公告)号:KR101872806B1
公开(公告)日:2018-06-29
申请号:KR1020160171761
申请日:2016-12-15
Applicant: 고등기술연구원연구조합
Abstract: 본발명은개별조업자의학습능력과능력향상을고려해서가상현실환경, 컴퓨터기반의훈련시스템에서훈련원의능력에맞게단계별학습해야할 항목을추천하고, 훈련원의학습패턴에맞게훈련빈도를정하며, 사고방지를위해위험성평가기반에의한부품별훈련원에게요구되는성공지속성을유지하도록모니터링할수 있는가상현실기반조업자의안전훈련시스템에관한것이다.본발명의일 실시예에따르면, 조업자훈련조작장비; 가상현실시각화장비; 플랜트공정모델에대해조업자안전훈련시나리오가실행되어상기조업자훈련조작장비및 상기가상현실시각화장비를통해조작되는조업자의훈련결과를모니터링하여모니터링된조업자의훈련결과를외부로보내는컨트롤러; 상기컨트롤러로부터수신된조업자의훈련결과를해석하여조업자훈련에의해조작되는부품에따른공정데이터와, 훈련이력, 사고이력및 훈련패턴을포함하는훈련데이터를상기컨트롤러로전송하는서버를포함하되, 상기컨트롤러는상기서버로부터수신된공정데이터및 훈련데이터를기반으로다음에훈련할훈련시나리오를결정하는것을특징으로하는가상현실기반조업자의안전훈련시스템이제공된다.
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公开(公告)号:KR101731051B1
公开(公告)日:2017-04-27
申请号:KR1020160106964
申请日:2016-08-23
Applicant: 고등기술연구원연구조합
Abstract: 본발명은고효율초임계이산화탄소발전시스템및 그방법에관한것으로, 더욱구체적으로는순산소연소기에서발생하는연소가스의열을간접가열식초임계이산화탄소발전시스템을공급함으로써, 시스템의신뢰성이향상되고설비와운영비용을절감할수 있는고효율초임계이산화탄소발전시스템및 그방법에관한것이다. 본발명에따른고효율초임계이산화탄소발전시스템및 그방법은가스연료를공급받아일산화탄소와수소로분리하는수소분리부; 상기수소분리부에서배출되는일산화탄소와비응축가스가공급되어연소가스를생성하는연소처리부; 상기연소처리부에서배출되는연소가스에서이산화탄소를분리하는이산화탄소고순도부; 상기이산화탄소고순도부에서배출되는이산화탄소를가압하는압축부; 및상기압축부에서가압된이산화탄소를공급받아전기를생산하는터빈유닛;을포함하며, 상기터빈유닛에서배출되는이산화탄소는다시상기연소처리부로공급될수 있다.
Abstract translation: 本发明中,更具体地通过净间接热euroneun从氧燃烧器供给醋超临界二氧化碳生成系统的燃烧气体的热,该系统的可靠性提高了设备和一个高效率的超临界二氧化碳生成系统和方法,上操作 高效超临界二氧化碳发电系统及其方法技术领域本发明涉及一种高效超临界二氧化碳发电系统及其方法。 根据本发明的高效率的超临界二氧化碳生成系统和方法,用于接收供给的气体燃料分离成一氧化碳和氢的氢分离单元; 1.一种燃烧处理装置,供给从氢分离装置排出的一氧化碳和非冷凝气体而生成燃烧气体, 二氧化碳高纯度部分,用于从燃烧处理部分排出的燃烧气体中分离二氧化碳; 压缩单元,用于加压从二氧化碳高纯度部分排出的二氧化碳; 涡轮机单元,并且当提供给压缩部分的加压二氧化碳以产生电力;其中,来自所述涡轮机单元排出的二氧化碳可以被再次供应到燃烧过程。
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公开(公告)号:KR1020140104599A
公开(公告)日:2014-08-29
申请号:KR1020130017842
申请日:2013-02-20
Applicant: 고등기술연구원연구조합
Abstract: Disclosed is a dual flow path globe valve. The dual flow path globe valve according to the present invention includes a valve body with a through-path connecting the front and rear sides of a globe valve; a trim housing which is extended from the front through-path to the inside of the valve body with a gap in-between and has two fluid holes; and a trim penetrating the trim housing from the outside of the valve body. The trim penetrates the two fluid holes arranged on the trim housing and opens or closes the fluid holes to control the amount of the fluid flowing in the through-path.
Abstract translation: 公开了一种双流道截止阀。 根据本发明的双流路截止阀包括:阀体,其具有连接球阀的前侧和后侧的通路; 装饰壳体,其从前部通路延伸到阀体的内部,其间具有间隙,并具有两个流体孔; 以及从阀体的外部穿过装饰壳体的装饰件。 装饰件穿过布置在装饰壳体上的两个流体孔,并打开或关闭流体孔,以控制在通路中流动的流体的量。
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Patent Agency Ranking
公开(公告)号:KR101357720B1
公开(公告)日:2014-02-05
申请号:KR1020120128523
申请日:2012-11-14
Applicant: 고등기술연구원연구조합
Abstract: Disclosed are a refrigeration system for liquefying natural gas and a refrigeration method thereof. The refrigeration system for liquefying natural gas of the present invention comprises a heat exchanger for precooling which precools compressed mixed refrigerant gas; a first gas-liquid separator which separates the mixed refrigerant coming from the heat exchanger for precooling into a gas component and a liquid component; a first expansion valve which expands the liquid mixed refrigerant discharged from the first gas-liquid separator; a first heat exchanger which cools natural gas firstly by using the mixed refrigerant expanded at the first expansion valve and cools the gas mixed refrigerant discharged from the first gas-liquid separator; a second gas-liquid separator which separates the mixed refrigerant discharged from the first gas-liquid separator and cooled in the first heat exchanger into the gas component and the liquid component; a second expansion valve which expands the liquid mixed refrigerant discharged second gas-liquid separator; a second heat exchanger which secondarily cools the natural gas by using the mixed refrigerant expanded in the second expansion valve and cools the gas mixed refrigerant discharged from the second gas-liquid separator; a third expansion valve which expands the mixed refrigerant discharged from the second gas-liquid separator and cooled in the second heat exchanger; and a third heat exchanger which cools the natural gas thirdly by using the mixed refrigerant expanded in the third expansion valve. [Reference numerals] (AA) Natural gas
Abstract translation: 公开了一种用于液化天然气的制冷系统及其制冷方法。 本发明的液化天然气制冷系统包括一个用于预冷却的压缩混合制冷剂气体的热交换器, 第一气液分离器,将来自用于预冷却的热交换器的混合制冷剂分离成气体成分和液体成分; 第一膨胀阀,其使从第一气液分离器排出的液体混合制冷剂膨胀; 第一热交换器,首先通过使用在第一膨胀阀膨胀的混合制冷剂冷却天然气,并冷却从第一气液分离器排出的气体混合制冷剂; 第二气液分离器,将从第一气液分离器排出的混合制冷剂分离并在第一热交换器中冷却成气体成分和液体成分; 第二膨胀阀,其使得液体混合制冷剂排出的第二气液分离器膨胀; 第二热交换器,其通过使用在第二膨胀阀中膨胀的混合制冷剂二次冷却天然气,并冷却从第二气液分离器排出的气体混合制冷剂; 第三膨胀阀,其使从所述第二气液分离器排出的混合制冷剂膨胀并在所述第二热交换器中冷却; 以及第三热交换器,其通过使用在第三膨胀阀中膨胀的混合制冷剂来第三次冷却天然气。 (标号)(AA)天然气
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公开(公告)号:KR101644942B1
公开(公告)日:2016-08-02
申请号:KR1020160056425
申请日:2016-05-09
Applicant: 고등기술연구원연구조합
CPC classification number: Y02T10/166 , Y02T70/5281 , B63J3/02 , B63B35/44 , B63B2035/444 , B63J2/12 , F01K23/10 , F02C6/00 , F02G5/02
Abstract: 본발명은폐열회수발전시스템과이를포함하는선박에관한것으로, 더욱구체적으로는엔진으로부터배출되는중저온배기가스열원을추가열원발생장치를이용하여고온열원으로승온한후, 고온열원으로터빈에공급되는작동유체의온도를증가시키는폐열회수발전시스템과이를포함하는선박에관한것이다. 본발명에따른폐열회수발전시스템은작동유체를초임계상태로가압하는압축기; 상기압축기에서가압된작동유체가엔진에서발생하는배기가스와열교환되는제 1 열교환기; 상기제 1 열교환기에서열교환된작동유체가공급되는터빈; 상기터빈에서팽창된고온의작동유체를냉각하는냉각기; 및공기와연료를공급받아연소시키는연소장치;를포함하며, 상기엔진에서발생하는배기가스는상기연소장치에서발생하는연소가스와합류되어상기제 1 열교환기로공급될수 있다.
Abstract translation: 本发明涉及废热回收系统和包括该废热回收系统的船。 更具体地,废热回收系统通过使用附加的热源发生装置来提高从发动机排出的中低温排气热源的温度,以将中低温热源转化为高温热 来源并且提高用高温热源供应到涡轮机的驱动流体的温度。 根据本发明,废热回收发生系统包括:压缩机,其以超临界状态按压驱动流体; 第一热交换器,其能够使压缩机中被驱动的驱动流体与发动机中产生的废气进行热交换; 接收在第一热交换器中热变换的驱动流体的涡轮机; 冷却器,其冷却在涡轮机中膨胀的高温驱动流体; 以及接收空气和用于燃烧的燃料的燃烧装置。 在发动机中产生的废气与由燃烧装置产生的燃烧气体接合,供给第一热交换器。
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公开(公告)号:KR101370940B1
公开(公告)日:2014-03-25
申请号:KR1020120020697
申请日:2012-02-29
Applicant: 고등기술연구원연구조합
Abstract: 이원냉동시스템과이의가동방법이개시된다. 본발명의이원냉동시스템은이원이상의냉동사이클이구비된이원냉동시스템에서, 제 1 냉매의냉동사이클의운전정상화를위해해당냉매의냉동사이클이아닌다른냉동사이클을활용하되, 1차열교환기에서열교환된상기제 1 냉매의일부가상기다른냉동사이클에서냉각된후 다시상기 1차열교환기를거쳐상기제 1 냉매의냉동사이클로복귀하게하는것을특징으로한다.
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