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公开(公告)号:KR100151641B1
公开(公告)日:1998-10-01
申请号:KR1019950025874
申请日:1995-08-22
Applicant: 한국에너지기술연구원
IPC: F23D14/00
Abstract: 본 발명은 가스연료를 연소용 촉매에서 전2차공기식(완전확산식)으로 연소시킬때에 촉매층내로 연소용 공기의 확산을 원활하게 하여 연소성능을 향상시키며 촉매버너로부터의 열전달을 증가시키기 위하여 촉매버너표면에 연소용 공기를 공급할 수 있도록 촉매버너 본체에 팬을 설치하고 이를 제어할 수 있는 것으로서, 연소용 공기를 전2차공기식 촉매연소버너 표면에 강제적으로 공급하여 연소성능를 향상시켜 촉매버너를 수직, 상향, 하향의 어떠한 방식으로 설치하든지 완전요소가 가능케하고, 촉매층의 온도가 촉매의 내구성 온도 이상으로 올라가지 않도록 촉매층에 설치된 열전대(5)의 온도를 감지하여 제어기(8)에 의해서 팬(6)의 풍량을 제어하는 것이다.
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公开(公告)号:KR1019970011559A
公开(公告)日:1997-03-27
申请号:KR1019950025874
申请日:1995-08-22
Applicant: 한국에너지기술연구원
IPC: F23D14/00
Abstract: 본 발명은 가스연료를 연소용 촉매에서 전2차공기식(완전확산식)으로 연소시킬때에 촉매층내로 연소용 공기의 확산을 원활하게 하여 연소성능를 향상시키며 촉매버너로부터의 열전달을 증가시키기 위하여 촉매버너표면에 연소용 공기를 공급할 수 있도록 촉매버너 본체에 팬을 설치하고 이를 제어할 수 있는 것으로서, 연소용 공기를 전2차공기식 촉매버너 본테에 팬을 설치하고 이를 제어할 수 있는 것으로서, 연소용 공기를 전2차공기식 촉매연소버너 표면에 강제적으로 공급하여 연소성능을 향상시켜 촉매버너를 수직, 상향, 하향의 어떠한 방식으로 설치하든지 완전연소가 가능케하고, 촉매층의 온도가 촉매의 내구성 온도 이상으로 올라가지 않도록 촉매층에 설치된 열전대(5)의 온도를 감지하여 제어기(8)에 의해서 팬(6)의 풍량을 제어하는 것이 .
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公开(公告)号:KR200097153Y1
公开(公告)日:1996-06-05
申请号:KR2019930026059
申请日:1993-12-02
Applicant: 한국에너지기술연구원
IPC: F23D14/18
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公开(公告)号:KR200097152Y1
公开(公告)日:1996-06-05
申请号:KR2019930026060
申请日:1993-12-02
Applicant: 한국에너지기술연구원
IPC: F23D14/18
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Patent Agency Ranking
公开(公告)号:KR101141548B1
公开(公告)日:2012-05-03
申请号:KR1020090121252
申请日:2009-12-08
Applicant: 한국에너지기술연구원
Abstract: PURPOSE: A method for desulfurizing coal by biological and physical methods is provided to simplify entire process and to improve process reactivity. CONSTITUTION: A method for desulfurizing coal comprises: a step of desulfurizing coal using microorganism as a biological method; a step of drying the coal; and a step of adding oil to the dried coal and stirring as a physical method. The microorganism is selected from Gordonia amicalis, Gordonia desulfuricans, and Gordonia alkanivorans. The oil is diesel, bunker fuel, waste cooking oil, water animal oil, and wood tar.
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公开(公告)号:KR101005801B1
公开(公告)日:2011-01-05
申请号:KR1020080133059
申请日:2008-12-24
Applicant: 한국에너지기술연구원
IPC: C08B37/08 , C08F220/54 , C08L5/08 , C02F1/52 , C02F5/08
CPC classification number: C08B37/003 , C08F220/54 , C08L5/08
Abstract: 본 발명은 키토산과 N-이소프로필아크릴아미드를 이용한 열감응 고분자 응집제 및 이의 제조방법에 관한 것으로, 보다 상세하게는 자연에서 풍부하게 존재하고 생체거대분자(biomacromolecule)인 키토산과 열감응 고분자인 폴리(N-이소프로필아크릴아미드)의 단량체 NIPAM(N-이소프로필아크릴아미드)을 중합하여 소수성과 친수성을 갖는 키토산-NIPAM 열감응 고분자 응집제 및 이의 제조방법을 제공한다.
키토산, 열감응 고분자, 고분자 응집제, 폐수처리-
公开(公告)号:KR100845174B1
公开(公告)日:2008-07-10
申请号:KR1020070025493
申请日:2007-03-15
Applicant: 한국에너지기술연구원
Abstract: A method for treating sewage sludge by sewage sludge-coal-oil dual agglomeration process is provided to utilize sewage sludge as an energy source with high energy efficiency without an additional dehydrating process by forming a hard agglomerated nucleus of coal and oil, selectively forming a floc on a polymer flocculant using organic components in sewage sludges with different physical properties, and adhering the floc to a circumference of the coal-oil agglomerated nucleus. A method for treating sewage sludge by sewage sludge-coal-oil dual agglomeration process comprises: an agglomerated nucleus forming process(S1) of agitating coal sludge with mixed oil to form a coal-oil agglomerated nucleus; a conditioning process(S3) of conditioning sewage sludge such that the sewage sludge has hydrophobicity, adding a flocculant to the conditioned sewage sludge, and agitating the sewage sludge with the flocculant; a double agglomerating process(S4) of agitating an agglomerated nucleus formed in the agglomerated nucleus forming process with the conditioned sewage sludge to form a double agglomerate in which sludge is adhered to an outer face of the agglomerated nucleus; and a tumbling process(S5) of tumbling the double agglomerate formed in the double agglomerating process by a tumbler to form a hard and large agglomerate. The agglomerated nucleus forming process comprises a sieve separating process(S2) of separating the agglomerated nucleus and an inorganic matter by a sieve.
Abstract translation: 提供了一种污水污泥 - 煤油双重凝聚工艺处理污水污泥的方法,通过形成煤和油的硬聚集核,选择性地形成絮凝物,利用污水污泥作为能源效率高的能源,无需额外的脱水工艺 在使用具有不同物理性能的污水污泥中的有机组分的聚合物絮凝剂上,并将絮凝物粘附到煤 - 油聚集的核的圆周上。 污泥 - 油 - 油双重凝聚工艺处理污泥污泥的方法包括:用混合油搅拌煤泥以形成煤油聚集核的凝聚核成型工艺(S1); 调节污水污泥的调理过程(S3),使污水污泥具有疏水性,向调理污水污泥中加入絮凝剂,并用絮凝剂搅拌污泥; 搅拌在凝聚核形成过程中形成的聚集的核的调焦污泥的双重聚集方法(S4),以形成粘附到凝聚核的外表面的污泥的双重聚集体; 以及通过转鼓在双重凝聚过程中形成的双重聚集体翻转以形成硬的和大的附聚物的翻滚方法(S5)。 凝聚核形成方法包括通过筛子分离凝聚的核和无机物的筛选分离方法(S2)。
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公开(公告)号:KR100438763B1
公开(公告)日:2004-07-05
申请号:KR1020020017926
申请日:2002-04-02
Applicant: 한국에너지기술연구원
IPC: C21D9/00
Abstract: PURPOSE: A method for supplying and disposing reducing gas of a tempering furnace with a catalytic combustion reaction, and an apparatus thereof are provided to substantially reduce energy consumption by simultaneously supplying reducing gas into the tempering furnace and treating waste gas discharged using catalytic combustion method. CONSTITUTION: The apparatus comprises a plurality of catalytic burners(11) mounted on the furnace main body(10) for tempering to which dehumidified reducing waste gas inlet pipe(16) and reducing waste gas exhaust pipe(15) are connected; a gas supply pipe(12) for supplying fuel gas into the catalytic burners(11) mounted on the furnace main body(10); an air supply pipe(18) for supplying air to the catalytic burners(11); a catalytic heat exchanger(20) connected to the air supply pipe(18) and reducing gas exhaust pipe(15) to emit the clean gas to the outside by preheating air and treating the reducing gas into clean gas at the same time; a cooler(17) connected to the reducing gas exhaust pipe(15) to cool reducing waste gas exhausted; a dehumidifier(30) for injecting the dehumidified reducing gas into the furnace main body(10) again through the reducing waste gas inlet pipe(16) by dehumidifying the reducing gas cooled by the cooler(17); and a controller(40) for controlling temperature, flux and pressure of the furnace main body(10) and catalytic heat exchanger(20).
Abstract translation: 目的:提供一种供给和处理回火炉的还原气体以进行催化燃烧反应的方法及其设备,以通过同时将还原气体供入回火炉中并用催化燃烧方法处理排出的废气来实质上减少能量消耗。 该设备包括多个安装在炉主体(10)上的催化燃烧器(11),用于回火,除湿的还原性废气入口管(16)和还原性废气排出管(15)连接到所述催化式燃烧器(11) 用于将燃料气体供应到安装在炉主体(10)上的催化燃烧器(11)中的供气管(12); 用于向催化燃烧器(11)供应空气的供气管(18); 通过预热空气并将还原气体同时处理成清洁气体,连接到供气管道(18)和还原气体排气管道(15)以将清洁气体排放到外部的催化热交换器(20) 连接到还原气体排气管(15)的冷却器(17),用于冷却排出的还原性废气; 除湿器(30),用于通过对由冷却器(17)冷却的还原气体进行除湿,再次通过还原废气入口管(16)将除湿的还原气体注入炉主体(10)中; 和用于控制炉主体(10)和催化剂热交换器(20)的温度,流量和压力的控制器(40)。
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公开(公告)号:KR1020030079121A
公开(公告)日:2003-10-10
申请号:KR1020020017926
申请日:2002-04-02
Applicant: 한국에너지기술연구원
IPC: C21D9/00
Abstract: PURPOSE: A method for supplying and disposing reducing gas of a tempering furnace with a catalytic combustion reaction, and an apparatus thereof are provided to substantially reduce energy consumption by simultaneously supplying reducing gas into the tempering furnace and treating waste gas discharged using catalytic combustion method. CONSTITUTION: The apparatus comprises a plurality of catalytic burners(11) mounted on the furnace main body(10) for tempering to which dehumidified reducing waste gas inlet pipe(16) and reducing waste gas exhaust pipe(15) are connected; a gas supply pipe(12) for supplying fuel gas into the catalytic burners(11) mounted on the furnace main body(10); an air supply pipe(18) for supplying air to the catalytic burners(11); a catalytic heat exchanger(20) connected to the air supply pipe(18) and reducing gas exhaust pipe(15) to emit the clean gas to the outside by preheating air and treating the reducing gas into clean gas at the same time; a cooler(17) connected to the reducing gas exhaust pipe(15) to cool reducing waste gas exhausted; a dehumidifier(30) for injecting the dehumidified reducing gas into the furnace main body(10) again through the reducing waste gas inlet pipe(16) by dehumidifying the reducing gas cooled by the cooler(17); and a controller(40) for controlling temperature, flux and pressure of the furnace main body(10) and catalytic heat exchanger(20).
Abstract translation: 目的:提供一种用于提供和处理具有催化燃烧反应的回火炉的还原气体的方法及其装置,其设备通过同时向回火炉供应还原气体并处理使用催化燃烧方法排出的废气来显着降低能量消耗。 构成:该装置包括安装在炉主体(10)上的多个催化燃烧器(11),用于回收除湿的还原废气入口管(16)和还原废气排放管(15)的回火; 用于将燃料气体供应到安装在炉主体(10)上的催化燃烧器(11)中的气体供给管(12) 用于向催化燃烧器(11)供应空气的供气管(18); 连接到空气供给管(18)的催化热交换器(20)和还原气体排出管(15),通过预热空气将清洁气体排出到外部,同时将还原气体处理成清洁气体; 连接到还原气体排出管(15)的冷却器(17),用于冷却排出的还原废气; 用于通过对由冷却器(17)冷却的还原气体进行除湿再次通过还原废气入口管(16)将除湿的还原气体再次进入炉主体(10)的除湿器(30)。 以及用于控制炉主体(10)和催化热交换器(20)的温度,通量和压力的控制器(40)。
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