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公开(公告)号:CN105889909A
公开(公告)日:2016-08-24
申请号:CN201610377823.5
申请日:2016-05-31
Applicant: 中国华能集团清洁能源技术研究院有限公司 , 福建华电永安发电有限公司
CPC classification number: F23C10/22 , F23C10/28 , F23K1/00 , F23K3/02 , F23K2201/00 , F23K2203/201
Abstract: 本发明属于“城市固废”及“生物质”利用技术领域,具体涉及一种大型流化床锅炉掺烧系统,包括用于对物料进行破碎的碎料机构,所述碎料机构的出料口下方设置有输送带,输送带的另一端设置在细料斗入口处,所述细料斗出料口设置有喷嘴可调节的输送器,所述输送器连接有气源风机;所述输送器通过输送管道与流化床锅炉系统的炉膛给料口连接;本系统具有设备布置灵活、原料加工要求低、可连续输送、处理量大、可实现自动化、易于集中控制等优点。
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公开(公告)号:CN107787354A
公开(公告)日:2018-03-09
申请号:CN201680033472.4
申请日:2016-05-06
Applicant: 小休斯顿·E·希尔
Inventor: 小休斯顿·E·希尔
CPC classification number: C10L9/02 , C10L9/00 , C10L9/10 , F23K2201/00 , Y02A50/2358
Abstract: 本文介绍了用于降低煤的硫含量的方法、装置和系统。将煤装载至装置中,该装置包括在壳体内的可竖直旋转的鼓。可旋转鼓包括穿孔的柱形外壁、实体的柱形内壁以及位于外壁和内壁之间的穿孔的柱形中心壁,其中,煤装载至在中心壁和外壁之间的煤洗涤环路中。微生物洗涤流体流入在内壁与中心壁之间的洗涤流体环路中,其中,微生物洗涤流体包含硫消化细菌和用于该细菌的营养物质。使所述鼓旋转,以便使得微生物洗涤流体从洗涤流体环路移动而穿过在煤洗涤环路中的煤,并收集在外壁和壳体之间的飞溅洗涤环路中。
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公开(公告)号:CN105570919A
公开(公告)日:2016-05-11
申请号:CN201610055688.2
申请日:2016-01-27
Applicant: 北京神雾环境能源科技集团股份有限公司
IPC: F23K1/00
CPC classification number: F23K1/00 , F23K2201/00 , F23K2201/20 , F23K2201/30
Abstract: 本发明公开了处理低阶煤的系统和方法,该系统包括:热风复合式排矸装置,具有低阶煤入口、分选热风入口、矸石出口和精煤出口;筛分装置,具有精煤入口、筛上精煤出口和筛下精煤出口;热解装置,具有入料口、半焦出口、热解油气出口,入料口与筛上精煤出口相连;干燥装置,具有干燥热风入口、筛下精煤入口和干燥粉煤出口,筛下精煤入口与筛下精煤出口相连;余热回收装置,具有半焦入口、冷却半焦出口和热气出口,热气出口与分选热风入口和干燥热风出口相连;粉煤燃烧发电装置,具有粉煤入口,粉煤入口与干燥粉煤出口相连。该系统通过将低阶煤的排矸、干燥、热解和燃烧发电技术集成,为低阶煤的高效转化利用提供了新的途径。
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公开(公告)号:CN106949491A
公开(公告)日:2017-07-14
申请号:CN201710315674.4
申请日:2017-05-08
Applicant: 青岛华煤能源科技有限公司 , 中鑫科创(北京)科技有限公司
CPC classification number: Y02E20/348 , F23K1/00 , F23J15/022 , F23J15/04 , F23K3/02 , F23K2201/00 , F23L15/00
Abstract: 本发明提供一种兰炭粉气化燃烧系统,属于燃烧器技术领域。兰炭粉气化燃烧系统包括原料供应器、兰炭粉处理仓、兰炭粉专用气化燃烧器以及回收机构;原料供应器与兰炭粉处理仓连接,兰炭粉处理仓中设置有搅拌装置,搅拌装置用于将兰炭粉均匀搅拌,兰炭粉处理仓的端口处安装有闸板阀,兰炭粉处理仓靠近闸板阀的一端连接有罗茨风机;兰炭粉专用气化燃烧器的一端与兰炭粉处理仓靠近闸板阀的一端连接,另一端与回收机构连接。该兰炭粉气化燃烧系统不仅结构简单,高效、环保,还具有燃烧效果好、不易损坏、适用范围广的特点。
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公开(公告)号:CN107401755A
公开(公告)日:2017-11-28
申请号:CN201710649473.8
申请日:2017-08-02
Applicant: 大唐东北电力试验研究所有限公司
CPC classification number: Y02E10/72 , F23K1/04 , F03D9/11 , F23K2201/00 , H02J7/35
Abstract: 本发明涉及一种电站锅炉汽轮机的节能系统,所述系统包括:发电用燃煤仓库、燃煤锅炉以及获取燃煤锅炉输出热能的汽轮发电机组,所述发电用燃煤仓库中存储的燃煤通过输煤栈桥输送至燃煤锅炉的锅炉燃烧室,所述的输煤栈桥包括输送燃煤的传送带,所述传送带上方设有太阳能集热层,所述太阳能集热层由多个聚光透镜组成,所述传送带下方设有电发热层,所述电发热层通过太阳能电源提供电能,所述太阳能电源包括太阳能光伏板以及所述太阳能光伏板连接的热-电能转化装置以及所述热-电能转化装置连接的蓄电池,所述蓄电池电连接所述电发热层,其中所述发热层为由金属丝编织而成的片状金属网或一金属板或碳纤维发热丝编织而成的碳纤维发热网。
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Patent Agency Ranking
6.发明申请公开(公告)号:US20160298040A1
公开(公告)日:2016-10-13
申请号:US15102616
申请日:2014-12-08
Applicant: Tao CHEN
Inventor: Tao CHEN , Kezheng CHEN , Kebin CHEN , Junli CHEN , Jian ZHANG
CPC classification number: C10J3/02 , C10J3/48 , C10J3/482 , C10J3/723 , C10J2300/093 , C10J2300/0996 , C10J2300/1675 , F01K5/02 , F01K13/006 , F23C2900/99011 , F23J7/00 , F23K2201/00 , Y02E20/18
Abstract: A power generating method of Carbon-molecule gasification combustion, the method comprising the following main processes: taking coal with desulfurizing agent, and first conducting desulfirization and gasification in a molecular gasifier to produce clean coal gas; mixing hot coal gas and low excess air for combustion in the furnace of a boiler; conducting coke refining and dust removal in accordance with coal quality and demand; after heat transfer via the heated surface of the boiler, emitting high temperature flue gas complying with the standard from the chimney; and the vapor generated by the boiler drives a steam turbine to generate power. The gasification method can be applied to a power generating system of a gas engine and a gas turbine to produce desired cooling coal gas, and can also produce chemical feed gas. The method has a simple process, which is energy saving.
Abstract translation: 碳分子气化燃烧的发电方法,该方法包括以下主要过程:用脱硫剂取煤,在分子气化炉中首先进行脱硫和气化,生产清洁煤气; 混合热煤气和低过量空气在锅炉炉中燃烧; 按照煤炭质量和需求进行焦炭精炼除尘; 在通过锅炉的加热表面传热后,从烟囱排放符合标准的高温烟气; 并且由锅炉产生的蒸气驱动蒸汽涡轮发电。 气化方法可以应用于燃气发动机和燃气轮机的发电系统,以产生所需的冷却煤气,并且还可以生产化学进料气体。 该方法具有简单的过程,节能。
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公开(公告)号:US20180163149A1
公开(公告)日:2018-06-14
申请号:US15571787
申请日:2016-05-06
Applicant: Houston E. Hill, JR.
Inventor: Houston E. Hill, JR.
CPC classification number: C10L9/02 , C10L9/10 , C10L2290/08 , C10L2290/141 , C10L2290/26 , C10L2290/54 , F23K2201/00
Abstract: Described herein are methods, apparatuses, and systems for reducing the sulfur content of coal. Coal is loaded into an apparatus comprising a vertically rotatable drum within a housing. The rotatable drum comprises a perforated cylindrical outer wall, a solid cylindrical inner wall, and a perforated, cylindrical central wall positioned between the outer wall and the inner wall, wherein the coal is loaded into a coal wash annulus between the central wall and the outer wall. A microbial wash fluid flows into a wash fluid annulus between the inner wall and the central wall, wherein the microbial wash fluid contains sulfur digesting bacteria and nutrients for the bacteria. The drum is rotated to cause the microbial wash fluid to migrate from the wash fluid annulus through the coal in the coal wash annulus and collect in a splash wash annulus between the outer wall and the housing.
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公开(公告)号:EP3294440A1
公开(公告)日:2018-03-21
申请号:EP16793239
申请日:2016-05-06
Applicant: HILL JR HOUSTON E
Inventor: HILL JR HOUSTON E
CPC classification number: C10L9/00 , C10L9/02 , F23K2201/00 , Y02A50/2358
Abstract: Described herein are methods, apparatuses, and systems for reducing the sulfur content of coal. Coal is loaded into an apparatus comprising a vertically rotatable drum within a housing. The rotatable drum comprises a perforated cylindrical outer wall, a solid cylindrical inner wall, and a perforated, cylindrical central wall positioned between the outer wall and the inner wall, wherein the coal is loaded into a coal wash annulus between the central wall and the outer wall. A microbial wash fluid flows into a wash fluid annulus between the inner wall and the central wall, wherein the microbial wash fluid contains sulfur digesting bacteria and nutrients for the bacteria. The drum is rotated to cause the microbial wash fluid to migrate from the wash fluid annulus through the coal in the coal wash annulus and collect in a splash wash annulus between the outer wall and the housing.
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公开(公告)号:WO2016182888A1
公开(公告)日:2016-11-17
申请号:PCT/US2016/031138
申请日:2016-05-06
Applicant: HILL, Jr., Houston, E.
Inventor: HILL, Jr., Houston, E.
CPC classification number: C10L9/02 , C10L9/00 , C10L9/10 , F23K2201/00 , Y02A50/2358
Abstract: Described herein are methods, apparatuses, and systems for reducing the sulfur content of coal. Coal is loaded into an apparatus comprising a vertically rotatable drum within a housing. The rotatable drum comprises a perforated cylindrical outer wall, a solid cylindrical inner wall, and a perforated, cylindrical central wall positioned between the outer wall and the inner wall, wherein the coal is loaded into a coal wash annulus between the central wall and the outer wall. A microbial wash fluid flows into a wash fluid annulus between the inner wall and the central wall, wherein the microbial wash fluid contains sulfur digesting bacteria and nutrients for the bacteria. The drum is rotated to cause the microbial wash fluid to migrate from the wash fluid annulus through the coal in the coal wash annulus and collect in a splash wash annulus between the outer wall and the housing.
Abstract translation: 本文描述了用于降低煤的硫含量的方法,装置和系统。 煤被装载到包括壳体内的可垂直旋转的滚筒的设备中。 可旋转滚筒包括穿孔的圆柱形外壁,实心圆柱形内壁和位于外壁和内壁之间的穿孔的圆柱形中心壁,其中煤被装载到中心壁和外侧之间的洗煤环 壁。 微生物洗涤流体流入内壁和中心壁之间的洗涤流体环空,其中微生物洗涤流体含有硫消化细菌和细菌的营养物质。 滚筒旋转以使微生物洗涤液从洗涤液环通过煤洗环区中的煤迁移,并收集在外壁和壳体之间的飞溅洗涤环中。
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公开(公告)号:WO2015085653A1
公开(公告)日:2015-06-18
申请号:PCT/CN2014/001103
申请日:2014-12-08
Applicant: 陈涛
CPC classification number: C10J3/02 , C10J3/48 , C10J3/482 , F01K5/02 , F01K13/006 , F23C2900/99011 , F23J7/00 , F23K2201/00 , Y02E20/18
Abstract: 一种碳-分子气化燃烧发电方法,该方法包括以下主要工艺:加脱硫剂煤炭,先在分子气化炉内除硫气化成清洁煤气;热煤气与低过量空气混合,在锅炉的炉膛燃烧;根据煤质和需要,可提炼煤焦和除尘;高温烟气经锅炉受热面换热,从烟囱达标排出;锅炉产生的蒸汽,带动汽轮机发电。所述气化方法也可配套应用在燃气内燃机和燃气轮机发电系统,制造所需的冷煤气,还能生产化工原料气。该方法应用面广阔,工艺简单,操作安全,环保节能。
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