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    • 72. 发明申请
    • POWER GENERATION DEVICE
    • 发电装置
    • US20090115189A1
    • 2009-05-07
    • US11933432
    • 2007-11-01
    • HSIEN-MING LIN
    • HSIEN-MING LIN
    • F03B13/00F03B13/06
    • F03B17/005F03B13/06Y02E10/22Y02E60/17
    • A power generation device includes a tower forming top and bottom reservoirs and a plurality of vertically arranged compartments between the top and bottom reservoirs. Each compartment is separated from the next lower compartment by a partition that defines a discharge opening. A rotary mechanism is arranged in each compartment and includes a rotary shaft carrying receptacles having openings set in different orientations. The shaft is coupled to a dynamo. Water is deposited in the top reservoir and is allowed to flow downward into the next lower compartment through the discharge opening for filling into the receptacles to cause rotation of the shaft, which in turn drives the dynamo to generate electrical power. Water flowing downward into the bottom reservoir can be selectively pumped back to the top reservoir for maintaining cyclic operation of the power generation device.
    • 发电装置包括塔形成顶部和底部储存器以及在顶部和底部储存器之间的多个垂直布置的隔室。 每个隔室通过限定出料口的隔板与下一个下隔室分开。 旋转机构设置在每个隔室中,并且包括具有设置在不同取向上的开口的旋转轴。 轴连接到发电机。 水沉积在顶部储存器中,并允许通过排放开口向下流入下一个隔室,以便填充到容器中,从而使轴转动,从而驱动发电机以产生电力。 向下流入底部储存器的水可以选择性地泵送回顶部储存器,以维持发电装置的循环运行。
    • 73. 发明申请
    • METHODS AND APPARATUS FOR ADVANCED WIND TURBINE DESIGN
    • 高级风力涡轮机设计方法与装置
    • US20090058095A1
    • 2009-03-05
    • US12212435
    • 2008-09-17
    • Frank J. McClintic
    • Frank J. McClintic
    • F03B9/00
    • F03D9/28F03D7/0236F03D9/11F03D9/17F03D9/25F03D13/20F03D15/10F03D17/00F03D80/80F05B2240/3121F05B2260/406Y02E10/721Y02E10/723Y02E10/725Y02E10/728Y02E60/15Y02E60/17Y02P80/158Y02P90/50
    • A wind turbine system includes a variable blade assembly including adjustable sails and wing shaped masts expanding the wind velocity capture envelope. The blade assembly turns a hydraulic pump, which pressurizes fluid and stores the pressurized fluid in a chamber in the support tower. Pressurized fluid is directed via an electronically controllable proportioning valve to a hydraulic motor which is coupled to an electric generator. A computer control module operates the proportioning valve regulating pressure to the hydraulic motor, maintaining generator rotational speed, and providing consistent output frequency to the power grid. Stored energy in the high pressure tank is used to continue generator operation after the winds cease, allowing early warning notification to the power management system of impending power loss. Residual pressure maintained in the high pressure tank allows restart operations via hydraulic pressure rather than power grid energy drain. On site high energy capacitors store additional energy.
    • 风力涡轮机系统包括可变叶片组件,其包括可调节的帆和翼形桅杆,其扩展风速捕获包络。 叶片组件转动液压泵,其对流体加压并将加压流体存储在支撑塔中的腔室中。 加压流体通过电子可控配比阀引导到耦合到发电机的液压马达。 计算机控制模块操作比例阀调节液压马达的压力,保持发电机转速,并向电网提供一致的输出频率。 高压油箱储存的能量在风停止后用于继续发电机运行,从而能够向电力管理系统提供即将发生的功率损耗的预警通知。 高压罐中的残余压力允许通过液压而不是电力网排放重新启动。 现场高能电容器存储额外的能量。
    • 74. 发明申请
    • SYSTEM FOR SELECTIVELY STORING AND DIVERTING WATER AMONG MULTIPLE RESERVOIRS AND METHOD FOR IMPROVING UTILITY OF RENEWABLE WATER AND ENERGY RESOURCES THROUGHOUT MULTIPLE RIVER BASINS
    • 多种储层选择性和流水的系统及通过多河流域改善可再生水和能源资源利用的方法
    • US20080253837A1
    • 2008-10-16
    • US12102651
    • 2008-04-14
    • Allen David Miller
    • Allen David Miller
    • E02B3/04
    • E02B9/02F03B13/06Y02E10/22Y02E60/17
    • A high altitude pumped-storage system for selectively integrating, storing, and distributing water and energy to increase the regional productivity of existing and future water and energy resources throughout multiple river basins is disclosed. This system addresses in part the increased requirement of supplying energy demands from a renewable energy source, such as wind, solar, or water generated power. The system includes at least one primary reservoir connected to multiple secondary reservoirs by conduits. The system allows for selectively distributing water and energy between secondary reservoirs and at least one primary reservoir. The system may comprise one or more hydroelectric power generation facilities. A method for increasing the regional efficiency of existing and future systems for producing, storing, and delivering energy from sources such as hydroelectric, wind and solar power from the water collected by the system described herein is also disclosed.
    • 公开了一种高空抽水蓄能系统,用于选择性地整合,储存和分配水和能源,以提高现有和未来的多个流域水资源的区域生产力。 该系统部分地解决了从可再生能源(例如风能,太阳能或水发电)提供能源需求的增加的需求。 该系统包括通过管道连接到多个次级储存器的至少一个主储存器。 该系统允许在二级储存器和至少一个主储存器之间选择性地分配水和能量。 该系统可以包括一个或多个水力发电设备。 还公开了一种用于提高现有和未来的系统的区域效率的方法,用于从由本文所述的系统收集的水中产生,存储和递送来自诸如水电,风能和太阳能的来源的能量。
    • 75. 发明申请
    • Power Generator and Power Generation Method
    • 发电机和发电方法
    • US20080191486A1
    • 2008-08-14
    • US12064392
    • 2006-08-24
    • Tomio Sugano
    • Tomio Sugano
    • F03B13/06C25B1/04
    • F03B17/061F05B2240/93Y02E10/28Y02E60/17Y02E60/366
    • A power generating apparatus and a power generating method capable of reducing a power generating price by generating a power by high head turbines and a generator used in a dam type or conduit type power plant even if the head of water is small. The power generating apparatus comprises first water wheels (2) driven by the flow of water (W1), pumps (3) connected to the first water wheels (2) and pumping up a part of the water (W1), a pressure control valve (7) raising the pressure of the water (W1) discharged from the pumps (3) to a predetermined pressure, a second water wheel (4) installed on the ground and driven by the water (W1) from the pressure control valve (7), and a generator (5) installed on the ground and driven by the second water wheel (4).
    • 一种发电装置和发电方法,即使水头较小,能够通过高压涡轮机和在坝式或导管式发电厂中使用的发电机产生电力来降低发电价格。 发电装置包括由水流(W 1)驱动的第一水轮(2),连接到第一水轮(2)并泵送一部分水(W1)的泵(3),压力 控制阀(7)将从泵(3)排出的水(W1)的压力提高到预定压力;第二水轮(4),其安装在地面上并由水(W1)从压力 控制阀(7)和安装在地面上并由第二水轮(4)驱动的发电机(5)。
    • 76. 发明授权
    • Air-conditioning system and method of installing energy recovery apparatus
    • 空调系统及安装能量回收装置的方法
    • US07296429B2
    • 2007-11-20
    • US10808625
    • 2004-03-24
    • Yuji TanakaYukihiro FujitaEiji KoyamaKouich Satou
    • Yuji TanakaYukihiro FujitaEiji KoyamaKouich Satou
    • F25D17/02F25D17/00F25B27/00
    • F24F12/00F24F3/06F24F11/83Y02E10/28Y02E60/17Y10S165/902
    • There is provided an energy recovery apparatus capable of recovering a hydraulic energy in a regenerative air-conditioning system including a pressure sustaining valve and capable of coping with a discharge change caused by variation in air-conditioning load, the air-conditioning system being capable of carrying out normal operation even in a case where the energy recovery apparatus fails. The energy recovery apparatus is configured so as to feed water from a water tank to air-conditioning loads such as a heat source or a fan coil at a higher place through a feed pipe line by a pump and to lead the water passed through the air-conditioning loads into the water tank via a return pipe line including the pressure sustaining valve, a branch pipe line is disposed so as to branch into the water tank from the return pipe line in upstream of the pressure sustaining valve, and the energy recovery apparatus is connected in to the branch pipe line.
    • 提供一种能够回收包括压力维持阀的再生空调系统中的液压能量并能够应对由空调负荷变化引起的排出变化的能量回收装置,该空调系统能够 即使在能量回收装置发生故障的情况下也进行正常动作。 能量回收装置被配置为通过泵将来自水箱的水通过供给管线从水供给到较高处的诸如热源或风扇盘管的空调负载,并引导通过空气的水 通过包括压力维持阀的返回管路将负载转移到水箱中,分支管线设置成从压力维持阀上游的回流管路分支到水箱中,能量回收装置 连接到分支管路。
    • 78. 发明申请
    • METHODS AND APPARATUS FOR ADVANCED WIND TURBINE DESIGN
    • 高级风力涡轮机设计方法与装置
    • US20070138798A1
    • 2007-06-21
    • US11679063
    • 2007-02-26
    • Frank McClintic
    • Frank McClintic
    • F03D9/00H02P9/04
    • F03D9/28F03D7/0236F03D9/11F03D9/17F03D9/25F03D13/20F03D15/10F03D17/00F03D80/80F05B2240/3121F05B2260/406Y02E10/721Y02E10/723Y02E60/15Y02E60/17Y02P80/158Y02P90/50
    • A wind turbine system includes a variable blade assembly including adjustable sails and wing shaped masts expanding the wind velocity capture envelope. The blade assembly turns a hydraulic pump, which pressurizes fluid and stores the pressurized fluid in a chamber in the support tower. Pressurized fluid is directed via an electronically controllable proportioning valve to a hydraulic motor which is coupled to an electric generator. A computer control module operates the proportioning valve regulating pressure to the hydraulic motor, maintaining generator rotational speed, and providing consistent output frequency to the power grid. Stored energy in the high pressure tank is used to continue generator operation after the winds cease, allowing early warning notification to the power management system of impending power loss. Residual pressure maintained in the high pressure tank allows restart operations via hydraulic pressure rather than power grid energy drain. On site high energy capacitors store additional energy.
    • 风力涡轮机系统包括可变叶片组件,其包括可调节的帆和翼形桅杆,其扩展风速捕获包络。 叶片组件转动液压泵,其对流体加压并将加压流体存储在支撑塔中的腔室中。 加压流体通过电子可控配比阀引导到耦合到发电机的液压马达。 计算机控制模块操作比例阀调节液压马达的压力,保持发电机转速,并向电网提供一致的输出频率。 高压油箱储存的能量在风停止后用于继续发电机运行,从而能够向电力管理系统提供即将发生的功率损耗的预警通知。 高压罐中的残余压力允许通过液压而不是电力网排放重新启动。 现场高能电容器存储额外的能量。
    • 80. 发明申请
    • Enhanced pumped storage power system
    • 增强抽水蓄能电力系统
    • US20050034452A1
    • 2005-02-17
    • US10641650
    • 2003-08-15
    • Lester Davis
    • Lester Davis
    • E02B9/00F03B3/10F03B13/08F16D31/02
    • F03B13/06E02B9/00F03B3/103F03B13/08Y02E10/22Y02E10/223Y02E10/46Y02E60/17
    • An enhanced pumped storage power system. More particularly, the invention is a regenerative power system that utilizes the gravitational forces of downward movement of large quantities of water to convert same to electrical energy. In the preferred mode of implementation, the system utilizes a man-made lake at a first level of elevation. Though higher altitudes can be effective, the lake need only be approximately twenty to thirty feet in elevation. The lake, which may exceed one hundred acres in size, may be elevated above and adjacent a natural body of water, such as seawater at a coastline. As such, sandy terrain associated with the region facilitates initial construction of the system. An underground generator is utilized for the power conversion and pumping of the water back to the upper reservoir during times of low energy demand, allowing for significant noise reduction. Importantly, the system of the present invention may be utilized to provide significant levels of power to serve relatively large geographic areas during times of peak energy demand, when other sources of power are more expensive and subject to power outages. Finally, it should be noted that the components of the system are aesthetically-pleasing in nature, allowing the system to be effectively utilized in a residential area.
    • 增强型抽水蓄能电力系统。 更具体地,本发明是利用大量水向下运动的重力将其转换为电能的再生电力系统。 在优选的实施方式中,该系统在第一级高度采用人造湖。 尽管较高的海拔高度可以有效,但湖泊的高程只有大约二十到三十英尺。 可能超过一百英亩大小的湖可能会升高到与天然水体相邻的地方,例如海岸线的海水。 因此,与该地区相关的沙地有利于系统的初步建设。 地下发电机用于在低能量需求期间将水的功率转换和泵送回上部储存器,从而可以显着降低噪音。 重要的是,本发明的系统可用于提供显着水平的功率以在峰值能量需求的时间期间服务相对较大的地理区域,当其它电力来源更昂贵并遭受停电时。 最后,应该指出的是,系统的组成部分本质上是美观的,允许系统在居民区有效利用。