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公开(公告)号:US20120107149A1
公开(公告)日:2012-05-03
申请号:US12912793
申请日:2010-10-27
申请人: Carlos Wong , Livia Wong , Zhaohui Xiong
发明人: Carlos Wong , Livia Wong , Zhaohui Xiong
摘要: A wind turbine energy storage system includes a hollow wind turbine tower shaft having a top end and a bottom end covered by top and bottom end caps respectively to form a tank. A compressor is coupled to the wind turbine for compressing air into the tank through a high pressure pipe and valve assembly. The compressed air stored in the tank can be released on demand or on a fixed schedule. A method of storing energy in a wind turbine is also disclosed.
摘要翻译: 风力涡轮机能量存储系统包括中空的风力涡轮机塔架轴,其具有分别由顶端盖和底端盖覆盖的顶端和底端以形成罐。 压缩机联接到风力涡轮机,用于通过高压管道和阀门组件将空气压入箱中。 储存在罐中的压缩空气可以根据需要或固定的时间表进行释放。 还公开了一种在风力涡轮机中储存能量的方法。
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公开(公告)号:US08662793B2
公开(公告)日:2014-03-04
申请号:US13111954
申请日:2011-05-20
申请人: Carlos Wong , Livia Wong
发明人: Carlos Wong , Livia Wong
IPC分类号: B63B35/44
CPC分类号: F03D13/25 , B63B1/125 , B63B35/44 , B63B2001/126 , B63B2001/128 , B63B2035/446 , F03D9/17 , F03D9/257 , F05B2240/93 , F05B2240/95 , F05B2250/11 , F05B2260/42 , Y02E10/727 , Y02E60/15
摘要: A floating wind farm includes a plurality of floating rafts connected with one another and being disposed in a body of water below the water by a predetermined distance; a plurality of wind turbines connected to the floating rafts respectively and being configured to be driven by wind and thereby generate power; a power generator connected to the floating rafts; a plurality of anchors connected to the floating rafts respectively and disposed in the body of water for confining the location of the floating rafts. Each of the floating rafts includes at least three pipes and a plurality of ballast blocks attached to the pipes. The pipes are configured to store air compressed by the power generated by the wind turbines. The power generator is configured to generate and output electricity from the compressed air stored in the pipes.
摘要翻译: 浮式风力发电场包括彼此连接的多个浮筏,并且设置在水下方的水体中预定距离; 分别连接到浮筏的多个风力涡轮机,并被构造成由风驱动,从而发电; 连接到浮筏的发电机; 分别连接到浮筏上并设置在水体中的多个锚,用于限制浮筏的位置。 每个浮筏包括至少三个管和附接到管的多个压载块。 管道被配置为存储由风力涡轮机产生的动力压缩的空气。 发电机被配置为从存储在管道中的压缩空气产生和输出电力。
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公开(公告)号:US20120294681A1
公开(公告)日:2012-11-22
申请号:US13111954
申请日:2011-05-20
申请人: Carlos WONG , Livia Wong
发明人: Carlos WONG , Livia Wong
IPC分类号: E02D5/74
CPC分类号: F03D13/25 , B63B1/125 , B63B35/44 , B63B2001/126 , B63B2001/128 , B63B2035/446 , F03D9/17 , F03D9/257 , F05B2240/93 , F05B2240/95 , F05B2250/11 , F05B2260/42 , Y02E10/727 , Y02E60/15
摘要: A floating wind farm includes a plurality of floating rafts connected with one another and being disposed in a body of water below the water by a predetermined distance; a plurality of wind turbines connected to the floating rafts respectively and being configured to be driven by wind and thereby generate power; a power generator connected to the floating rafts; a plurality of anchors connected to the floating rafts respectively and disposed in the body of water for confining the location of the floating rafts. Each of the floating rafts includes at least three pipes and a plurality of ballast blocks attached to the pipes. The pipes are configured to store air compressed by the power generated by the wind turbines. The power generator is configured to generate and output electricity from the compressed air stored in the pipes.
摘要翻译: 浮式风力发电场包括彼此连接的多个浮筏,并且设置在水下方的水体中预定距离; 分别连接到浮筏的多个风力涡轮机,并被构造成由风驱动,从而发电; 连接到浮筏的发电机; 分别连接到浮筏上并设置在水体中的多个锚,用于限制浮筏的位置。 每个浮筏包括至少三个管和附接到管的多个压载块。 管道被配置为存储由风力涡轮机产生的动力压缩的空气。 发电机被配置为从存储在管道中的压缩空气产生和输出电力。
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公开(公告)号:US07874036B2
公开(公告)日:2011-01-25
申请号:US12211194
申请日:2008-09-16
申请人: Carlos Wong , Livia Wong , Zhaohui Xiong
发明人: Carlos Wong , Livia Wong , Zhaohui Xiong
IPC分类号: E01D1/00
CPC分类号: E01D1/00 , E01D2/02 , E01D2/04 , E01D2101/30 , F17C2205/0107 , F17C2205/0119 , F17C2205/013 , F17C2221/031 , F17C2223/0123 , H02J15/006 , Y02E60/15 , Y02P80/12
摘要: An energy storage bridge includes a plurality of bridge girders. The bridge girder includes a number of steel pipes and a plurality of web plates. The steel pipes are assembled either in a single row or in multiple rows in the structural depth direction to form the girder together with the web plate welded between the two halves of the pipe; or with two web plates welded to each side of the pipe. The bridge girder forms an energy storage unit between two consecutive movement joints of the bridge, and two consecutive storage units can be joined by high pressure flexible pipe to form a giant energy storage unit.
摘要翻译: 储能桥包括多个桥梁。 桥梁包括多个钢管和多个腹板。 钢管在结构深度方向上以单列或多列组装,以与焊接在管的两半之间的腹板一起形成梁; 或者将两个网板焊接到管道的每一侧。 桥梁在桥梁的两个连续的运动接头之间形成能量存储单元,并且两个连续的存储单元可以通过高压柔性管道连接以形成巨大的储能单元。
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公开(公告)号:US20110131740A1
公开(公告)日:2011-06-09
申请号:US12967004
申请日:2010-12-13
申请人: CARLOS WONG , LIVIA WONG , ZHAOHUI XIONG
发明人: CARLOS WONG , LIVIA WONG , ZHAOHUI XIONG
CPC分类号: E01D1/00 , E01D2/02 , E01D2/04 , E01D2101/30 , F17C1/00 , F17C13/08 , F17C2201/0109 , F17C2201/035 , F17C2201/054 , F17C2203/0639 , F17C2205/0107 , F17C2205/0119 , F17C2205/013 , F17C2221/031 , F17C2223/0123 , F17C2223/035 , F17C2227/0157 , F17C2260/046 , F17C2270/0581 , H02J15/006 , Y02E60/15
摘要: An energy storage bridge includes a plurality of bridge girders and a bridge deck. The bridge girders include multiple steel pipes for carrying loads and storing energy in a form of compressed air contained therein and a plurality of web plates. The bridge deck is disposed on top of the bridge girders and configured for loading live loads. The steel pipes are assembled in at least a row aligned vertically. Each web plate connects a row of the steel pipes at a center line separating the steel pipes into two halves. Alternatively, a steel pipe is connected by two webs at the two sides of the pipe. Each bridge girder forms an energy storage unit between two consecutive movement joints of the energy storage bridge. Every two consecutive storage units are joined by a high pressure flexible pipe to form a giant energy storage unit. Each energy storage unit is provided with inlet and outlet pipes to in-take compressed air from electric compressors driven by the grid power or by regenerated powers, and to release the compressed air to generate electricity. The bridge girders are disposed at a predetermined transverse spacing across the width of the bridge deck and configured for supporting the bridge deck as a roadway surface.
摘要翻译: 储能桥包括多个桥梁和桥面。 桥梁包括用于承载载荷并以其中包含的压缩空气的形式存储能量的多个钢管和多个腹板。 桥面板设置在桥梁的顶部,并配置为装载活载荷。 钢管以至少一排垂直方式组装。 每个腹板将中间线连接一排钢管,将钢管分成两半。 或者,钢管在管的两侧通过两个腹板连接。 每个桥梁在能量储存桥的两个连续的运动接头之间形成能量存储单元。 每两个连续的存储单元通过高压柔性管连接以形成巨大的储能单元。 每个能量存储单元都设有入口管和出口管,用于从由电网驱动的电动压缩机或再生电力中吸取压缩空气,并释放压缩空气发电。 桥梁横跨跨桥台面的宽度以预定的横向间隔设置,并且构造成支撑桥面板作为道路表面。
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公开(公告)号:US20100064674A1
公开(公告)日:2010-03-18
申请号:US12211194
申请日:2008-09-16
申请人: Carlos Wong , Livia Wong , Zhaohui Xiong
发明人: Carlos Wong , Livia Wong , Zhaohui Xiong
CPC分类号: E01D1/00 , E01D2/02 , E01D2/04 , E01D2101/30 , F17C2205/0107 , F17C2205/0119 , F17C2205/013 , F17C2221/031 , F17C2223/0123 , H02J15/006 , Y02E60/15 , Y02P80/12
摘要: The invention is an Energy Storage Bridge (ESB) consisting of air-tight steel pipes, which are used to store the compressed air as stored energy, also used as the load carrying structural elements of the bridge. The stored energy can be the unwanted grid power or the intermittent regenerated energy sources. When the energy is needed, the compressed air is released to convert back to electricity, or to make use of the compressed air to produce hot water during its compression cycle, and cool air at its decompression and expansion cycle when it absorbs heat- an air conditioning technology called Air Cycle Air Conditioning (ACAC) widely used in commercial aircraft. For sea-crossing bridges, because of their great lengths the bridge body volume is enormous, and because of their remoteness from populated areas, they suit well for mass energy storage attached to power plants. With safety measures built in the steel pipes, the ESB can be applied to city road bridges. Since these bridges are not far from populated areas, they can be used as small energy storage units that provide the nearby industrial and commercial complex as well as residential buildings hot water and compressed air for air-conditioning using ACAC technology. The process eliminates the conversion of compressed air back to electricity, but directly uses the compression and decompression cycles to supply hot water and cool air for air-conditioning to the nearby consumers.
摘要翻译: 本发明是一种由气密钢管组成的能量存储桥(ESB),用于将压缩空气作为储存能量存储,也用作承载桥梁的结构元件。 存储的能量可以是不需要的电网电力或间歇再生的能源。 当需要能量时,压缩空气被释放以转换回电,或者利用压缩空气在其压缩循环期间产生热水,并且当其吸收空气时在其减压和膨胀循环中冷却空气 空调技术称为空中循环空调(ACAC),广泛应用于商用飞机。 对于跨海大桥,由于桥梁体积庞大,桥梁体积巨大,而且由于人口稠密,因此适用于发电厂的大量能源储存。 采用钢管内置安全措施,ESB可应用于城市道路桥梁。 由于这些桥梁距离人口稠密地区不远,因此可用作小型储能装置,可使用ACAC技术提供附近的工业和商业综合体以及住宅建筑热水和用于空调的压缩空气。 该过程消除了将压缩空气转换回电,但直接使用压缩和减压循环为附近的消费者提供热水和冷空气用于空调。
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公开(公告)号:US08896144B2
公开(公告)日:2014-11-25
申请号:US12912793
申请日:2010-10-27
申请人: Carlos Wong , Livia Wong , Zhaohui Xiong
发明人: Carlos Wong , Livia Wong , Zhaohui Xiong
摘要: A wind turbine energy storage system includes a hollow wind turbine tower shaft having a top end and a bottom end covered by top and bottom end caps respectively to form a tank. A compressor is coupled to the wind turbine for compressing air into the tank through a high pressure pipe and valve assembly. The compressed air stored in the tank can be released on demand or on a fixed schedule. A method of storing energy in a wind turbine is also disclosed.
摘要翻译: 风力涡轮机能量存储系统包括中空的风力涡轮机塔架轴,其具有分别由顶端盖和底端盖覆盖的顶端和底端以形成罐。 压缩机联接到风力涡轮机,用于通过高压管道和阀门组件将空气压入箱中。 储存在罐中的压缩空气可以根据需要或固定的时间表进行释放。 还公开了一种在风力涡轮机中储存能量的方法。
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