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    무회분 석탄의 제조 및 용매 회수 방법
    21.
    发明授权
    무회분 석탄의 제조 및 용매 회수 방법 有权
    无灰煤和回收溶剂的制造方法

    公开(公告)号:KR101703834B1

    公开(公告)日:2017-02-08

    申请号:KR1020150098858

    申请日:2015-07-13

    Applicant: 한국에너지기술연구원

    Inventor: 최호경 전동혁 임정환 임영준 이시훈 유지호 김상도

    IPC: C10L5/04 C10L9/00

    Abstract: 본발명은유기성분을추출하는방법에관한것이며, 특히석탄의유기성분추출용액에희석용매를첨가하고용해도의변화를유발한석탄의유기성분석출및 용매회수방법에관한것이다. 본발명의유기성분추출및 용매회수방법은석탄의유기성분을고순도로추출이가능하며, 액화가스를희석용매로사용함에따라고체석탄을짧은시간에석출하고별도의처리공정없이단순한압력조절로가스를분리할수 있고, 무회분석탄의손실을줄이며, 유기용매의상변화가없기때문에용매의회수율을높여경제적인이점이있다.

    수분안정성이 개선된 이산화탄소 흡수제 및 그 제조방법
    22.
    发明公开
    수분안정성이 개선된 이산화탄소 흡수제 및 그 제조방법 审中-实审
    具有改善水分稳定性的二氧化碳吸收剂及其制造方法

    公开(公告)号:KR1020150114724A

    公开(公告)日:2015-10-13

    申请号:KR1020140039265

    申请日:2014-04-02

    Applicant: 한국에너지기술연구원

    Inventor: 김현욱 박영철 문종호 전동혁 심중보

    IPC: B01J20/22 B01J20/04 B01J20/32 B01D53/14 C01B32/50

    CPC classification number: Y02A50/2342 Y02C10/06 Y02P20/152 B01J20/22 B01D53/14 B01J20/04 B01J20/32 C01B32/50

    Abstract: 본발명은이산화탄소흡착능이우수한금속유기물구조체로구성되는이산화탄소흡수제의부족한수분안정성을개선하여흡습에의한재생반응에서도구조를유지하여반복적으로재사용이가능한수분안정성이개선된이산화탄소흡수제및 그제조방법에관한것으로, 이산화탄소흡수제의부족한수분안정성을소수성물질의코팅을통해개선하여흡습에의한재생과정을거치는이산화탄소흡착을위한루프공정을구현에의한이산화탄소흡착의실용화가가능하다. 또, 본발명을통하여, 금속-유기물구조체를독성과악취를가지는 DMF의사용량을줄이거나배제할수 있어서, 더욱저렴한비용으로금속-유기물구조체를제조할수 있다. 이결과, 금속-유기물구조체로구성되는이산화탄소흡수제의제조비용역시감소시킬수 있다.

    Abstract translation: 本发明涉及具有改善的水分稳定性的二氧化碳吸收剂,其通过改善由对二氧化碳具有优异的吸附性的金属有机结构制成的二氧化碳吸收剂的不足的水分稳定性而反复重复使用,以便甚至保持结构 通过吸湿的再生反应及其制造方法。 本发明通过实现通过用疏水性材料涂布来改善二氧化碳吸收剂的水分稳定性不足,通过吸湿吸收通过再生反应的二氧化碳的循环过程,能够吸附二氧化碳。 此外,本发明能够减少或排除有毒和臭味的DMF,从而能够以更低的成本制造金属 - 有机物结构。 结果,由金属有机物构成的二氧化碳吸收剂的制造成本也可以降低。

    반응성이 증가된 무회분 복합탄의 제조방법, 이에 의한 무회분 복합탄
    23.
    发明公开
    반응성이 증가된 무회분 복합탄의 제조방법, 이에 의한 무회분 복합탄 有权
    制备无自由复合煤增强反应活性的方法和无自由复合煤

    公开(公告)号:KR1020150054321A

    公开(公告)日:2015-05-20

    申请号:KR1020130136635

    申请日:2013-11-12

    Applicant: 한국에너지기술연구원

    Inventor: 유지호 공용진 최호경 전동혁 임영준 임정환 이시훈 김상도

    IPC: C10L5/06 C10J3/00

    CPC classification number: C10L5/14 C10J3/84 C10J2300/093 C10J2300/0976 C10J2300/1853 C10K1/022 C10K1/024

    Abstract: 본발명은원료탄으로부터추출된유기성분과오일을추출분리단계에서균일하게혼합하여고형화시킨무회분복합탄의제조방법, 이에의한무회분복합탄에관한것이다. 본발명에의한무회분복합탄은석탄대비반응성이매우큰 C8~C20의지방산, 지방산에스테르또는트리글리세리드성분을포함하는식물성또는동물성오일이석탄에서추출된유기성분과균일하게혼합되어존재하므로높은반응성을나타낸다. 본발명의무회분복합탄은높은반응성을나타내므로촉매가스화반응을수행하는경우종래무회분석탄에비해보다마일드한조건에서반응이가능하다. 본발명의무회분복합탄은촉매가스화반응을수행하여도촉매활성저하가거의없어재사용이가능하므로매우경제적이다. 본발명의무회분복합탄은 carbon neutral한바이오메스성분즉 식물성또는동물성오일을함유하고있으므로 CO2 배출을줄일수 있다.

    Abstract translation: 本发明涉及一种制备无灰复合煤的方法,该方法在萃取和分离步骤中将原煤中提取的有机组分和油均匀混合并固化,由此生产无灰复合煤。 根据本发明的无灰复合煤具有从煤中提取的有机组分,其与含有与碳,脂肪酸酯相比具有非常高反应性的C8〜C20脂肪酸成分的植物油或动物油均匀混合 或甘油三酸酯,从而表现出高反应性。 由于本发明的无灰复合煤表现出高反应性,因此当进行催化气化时,可以在比常规的无灰煤更温和的条件下进行反应。 本发明的无灰复合煤可以重新使用,因为即使进行催化气化,催化剂活性也很少降解,因此经济效率高。 本发明的无灰复合煤含有碳 - 中性生物质成分,它是植物油或动物油,从而减少CO_2排放。

    팜잔사유로 개질한 석탄을 이용한 석탄-물 혼합연료 제조방법
    24.
    发明公开
    팜잔사유로 개질한 석탄을 이용한 석탄-물 혼합연료 제조방법 无效
    用棕榈油残留使用改性煤的煤水混合物的制造方法

    公开(公告)号:KR1020140146777A

    公开(公告)日:2014-12-29

    申请号:KR1020130069468

    申请日:2013-06-18

    Applicant: 한국에너지기술연구원

    Inventor: 이시훈 김상도 전동혁 임영준 임정환 최호경 유지호 박인수 김태주

    IPC: C10L5/32 C10L1/32

    CPC classification number: C10L5/32 C10L1/326 C10L2250/06 C10L2290/24 C10L2290/28 C10L2290/546

    Abstract: The present invention relates to a manufacturing method of a coal-water mixing fuel and, more specifically, a manufacturing method of a coal-water mixing fuel using modified coals which prevent moisture from being absorbed again while increasing heating value by using solid palm oil residues at room temperature. In the present invention, a coal-water mixing fuel is manufactured in which a solvent oil is not necessary; coals in low level are modified by coating palm oil residues on crushed coal particles; and the modified coal go through a fine crushing process. The manufacturing method of the coal-water mixing fuel using coals modified by using palm oil residues is allowed to manufacture a coal-water mixing fuel with high solid contents by enabling the palm oil residues to prevent moisture from adsorbing after removing moisture of high moisture coals in the low level.

    Abstract translation: 本发明涉及一种煤 - 水混合燃料的制造方法,更具体地说,涉及一种使用改性煤的煤 - 水混合燃料的制造方法,其中通过使用固体棕榈油残余物来增加热值,从而防止水分再次被吸收 在室温下。 在本发明中,制造了不需要溶剂油的煤水混合燃料; 通过在碎煤颗粒上涂覆棕榈油残留物来改变低水平的煤炭; 改性煤通过细粉碎过程。 使用通过使用棕榈油残渣改性的煤的煤 - 水混合燃料的制造方法允许制造具有高固体含量的煤 - 水混合燃料,使得棕榈油残余物能够在除去高湿度煤的水分后防止水分吸附 处于低水平。

    저등급 석탄의 개질방법
    25.
    发明授权
    저등급 석탄의 개질방법 有权
    低排放煤的修改方法

    公开(公告)号:KR101317772B1

    公开(公告)日:2013-10-15

    申请号:KR1020120104361

    申请日:2012-09-20

    Applicant: 한국에너지기술연구원

    Inventor: 이시훈 노남선 문승현 김상도 전동혁 임영준 임정환 최호경 유지호 이승재 유인수

    IPC: C10L5/04 C10L5/26 C10L9/08 C10L9/10

    CPC classification number: C10L5/04 C10L5/26 C10L9/08 C10L9/10 C10L2290/24 C10L2290/28 C10L2290/32

    Abstract: PURPOSE: A method for modifying low-rank coal is provided to economically modify low-rank coal into high-rank coal having a high heating value and minimizing the possibility of reabsorbing water and naturally catching fire while saving energy by using heat exchange. CONSTITUTION: A method for modifying low-rank coal comprises the steps of: pulverizing coal; producing coating oil by mixing and churning heavy oil and solvent oil; producing coal slurry by mixing and churning the particles of pulverized coal and coating oil at a normal temperature; separating coal cake and coating oil from the coal slurry by using a solid-liquid separator; evaporating and drying moisture and solvent oil contained in the coal cake; preheating carrier gas and recirculated oil by recovering heat from the vapor; and molding the evaporated and dried coal cake.

    Abstract translation: 目的:提供一种改进低等级煤的方法,将低等级煤经济地修改为具有高发热量的高级煤,并将通过使用热交换节约能源的水重新吸收和自然捕火的可能性降至最低。 构成:一种改性低等级煤的方法,包括以下步骤:粉煤; 通过混合和搅拌重油和溶剂油生产涂层油; 在常温下混合搅拌粉煤颗粒和涂油,生产煤浆; 通过使用固液分离器从煤浆中分离煤饼和涂层油; 蒸发并干燥煤饼中含有的水分和溶剂油; 通过从蒸气中回收热量来预热载气和再循环油; 并模制蒸发和干燥的煤饼。

    휘발성 유기화합물 처리장치
    26.
    发明公开
    휘발성 유기화합물 처리장치 有权
    用于处理挥发性有机化合物的设备和使用其的能量利用方法

    公开(公告)号:KR1020130016479A

    公开(公告)日:2013-02-18

    申请号:KR1020110078438

    申请日:2011-08-08

    Applicant: 한국에너지기술연구원

    Inventor: 이시훈 임정환 임영준 김상도 전동혁 유지호 최호경

    IPC: B01D53/96 B01D53/02

    CPC classification number: Y02A50/235 B01D53/06 B01D53/96 B01D2253/102 B01D2257/708

    Abstract: PURPOSE: A volatile organic compound processing apparatus and an energy conversion method of a volatile organic compound are provided to minimize a loss by reproducing an absorbent through low temperature heating, reduce the burden of a small and medium sized businesses and improve the air environment by jointly managing and processing the absorbent of a volatile organic compound whereby a small or medium sized firm is individually processed, and converting into energy by utilizing a desorbed volatile organic compound as a fuel for an incinerator or a combined heat and power plant. CONSTITUTION: A volatile organic compound processing apparatus includes a storage unit(10), a desorption unit, and a combustion unit(30). A storage unit stores the absorbent of a volatile organic compound. A desorption unit desorbs a volatile organic compound by injecting low temperature heating air into an absorbent discharged from the storage unit. A combustion unit uses the mixed gas of the desorbed volatile organic compound and the low temperature heating air as an auxiliary fuel and an air supplying source. The desorption unit includes a frame(21), a conveyer belt(22), a feeding part(23), and an outlet part(24). A conveyer belt transfers the absorbent in a predetermined speed inside the frame. A feeding part injects low temperature heating air inside the frame. An outlet part discharges a desorbed volatile organic compound and a gas mixture of a low temperature heated air. [Reference numerals] (26) Heat exchanger; (AA) Storing Absorbed absorbent; (BB) Storing desorbed absorbent; (CC) Exhaust gas

    Abstract translation: 目的:提供挥发性有机化合物处理装置和挥发性有机化合物的能量转换方法,以通过低温加热再现吸收剂来减少损失,减少中小型企业的负担,并共同改善空气环境 管理和处理挥发性有机化合物的吸收剂,由此单独处理小型或中型企业,并且通过利用解吸的挥发性有机化合物作为焚化炉或热电联产的燃料转化为能量。 构成:挥发性有机化合物处理装置包括存储单元(10),解吸单元和燃烧单元(30)。 存储单元存储挥发性有机化合物的吸收剂。 解吸单元通过将低温加热空气注入从存储单元排出的吸收剂中解吸挥发性有机化合物。 燃烧单元使用解吸的挥发性有机化合物和低温加热空气的混合气体作为辅助燃料和空气供给源。 解吸单元包括框架(21),输送带(22),进料部分(23)和出口部分(24)。 输送带以帧内的预定速度传送吸收剂。 进料部分在框架内部注入低温加热空气。 出口部分排出解吸的挥发性有机化合物和低温加热空气的气体混合物。 (26)热交换器; (AA)储存吸收剂; (BB)储存脱附吸收剂; (CC)废气

    디메틸에테르 수증기 개질반응과 수성가스 전환반응의 촉매 및 그를 이용한 합성가스 제조방법
    30.
    发明公开
    디메틸에테르 수증기 개질반응과 수성가스 전환반응의 촉매 및 그를 이용한 합성가스 제조방법 无效
    二甲醚蒸汽重整和水汽移动反应的催化剂及其制备方法

    公开(公告)号:KR1020150145412A

    公开(公告)日:2015-12-30

    申请号:KR1020140074745

    申请日:2014-06-19

    Applicant: 한국에너지기술연구원

    Inventor: 유지호 김수현 이시훈 김상도 최호경 전동혁 임정환 임영준

    IPC: C01B3/26 B01J23/00 B01J32/00

    CPC classification number: B01J23/00 B01J32/00 C01B3/26 C01B3/20

    Abstract: 본발명은디메틸에테르(dimethyl ether, DME)수증기개질반응및 수성가스전환반응의촉매개발에관한것으로, 상기촉매는촉매담지체; 상기촉매담지체에분산된디메틸에테르수증기개질반응용금속이온또는금속혼합물; 및상기촉매담지체에분산된수성가스전환반응용금속이온또는금속혼합물을포함하고, 상기촉매담지체는구성입자의입경이 0.05 내지 5mm이고, 카복실 (carboxyl) 기능기를포함하는저급탄소원인, 디메틸에테르수증기개질반응및 수성가스전환반응의촉매이다. 특히디메틸에테르수증기개질반응및 수성가스전환반응을동시에수행할수 있는촉매를경제적인저급탄소원을촉매담지체로이용하고이에금속이온을이온교환방법으로이온교환시켜제조하여디메틸에테르수증기개질반응에사용하고반응시발생하는일산화탄소를동시에제거및 수소로개질함으로써수소제조효율을상승시킬수 있다.

    Abstract translation: 本发明涉及二甲醚(DME)蒸汽重整和水煤气变换反应催化剂的开发。 催化剂用于DME蒸汽重整和水煤气变换反应,包括:催化剂载体; 用于重整分散在催化剂载体中的DME蒸汽的金属离子或金属混合物; 以及用于分散在催化剂载体中的水煤气变换反应的金属离子或金属混合物,其中催化剂载体是由0.05至5mm直径的颗粒和具有羧基官能团的低级碳源组成。 特别地,可以通过使用经济的低等级碳源作为催化剂载体并通过离子交换法交换金属离子来提高氢生产的效率,从而产生在相同温度下进行DME蒸汽重整和水煤气变换反应的催化剂 时间和用途,用于DME蒸汽重整,同时除去反应过程中产生的一氧化碳并将其重整成氢。

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