公开(公告)号：US09124135B2

公开(公告)日：2015-09-01

申请号：US13059919

申请日：2010-01-06

申请人： Keiko Abe ,  Masahiro Watanabe ,  Yasuhiro Kobayashi ,  Toshiyuki Furukawa ,  Hisaaki Takabayashi ,  Yoshikazu Hirose

发明人： Keiko Abe ,  Masahiro Watanabe ,  Yasuhiro Kobayashi ,  Toshiyuki Furukawa ,  Hisaaki Takabayashi ,  Yoshikazu Hirose

IPC分类号： G05D3/12 ,  G06F7/00 ,  F02B43/00 ,  G06E1/00 ,  G01R11/56 ,  H02J3/32 ,  F03D7/00 ,  F03D9/02 ,  H01M10/46 ,  H01M10/48 ,  H02J7/00

CPC分类号： H02J3/32 ,  F03D7/00 ,  F03D9/11 ,  F03D9/25 ,  G01R31/3651 ,  G01R31/3679 ,  H01M10/46 ,  H01M10/48 ,  H02J7/0075 ,  Y02E10/723 ,  Y02E10/766 ,  Y02E70/30

摘要： While a control method is established which can maximize the lifetime of an storage battery based on a SOC capable of maximizing the lifetime of the storage battery under a temperature condition and a wind condition at an electricity generation site and on currently known ones of other operational conditions, a control system is constructed which can feedback to an actual wind power generation and storage battery system. The control system includes a wind power generation and storage battery system, an storage battery operation and deterioration data collection unit for collecting data of the wind power generation and storage battery system, an storage battery operation and deterioration relation assessment unit for assessing a relation between an operation of the storage battery and deterioration thereof based on the collected data, an storage battery operation planning unit for planning such a method of operating the storage battery as to satisfy a necessary lifetime requirement using information obtained by the storage battery operation and deterioration relation assessment unit, and an storage battery operation instruction unit for instructing the wind power generation and storage battery system to operate the storage battery in accordance with the plan of the storage battery operation planning unit.

摘要翻译： 虽然建立了一种控制方法，其可以基于能够在发电站点的温度条件和风况下以及当前已知的其他操作条件下最大化蓄电池的寿命的SOC来最大化蓄电池的寿命 构建了可以反馈给实际的风力发电和蓄电池系统的控制系统。 控制系统包括风力发电和蓄电池系统，用于收集风力发电和蓄电池系统的数据的蓄电池操作和劣化数据收集单元，用于评估风力发电和蓄电池系统之间的关系的蓄电池操作和劣化关系评估单元 存储电池的操作及其收集数据的劣化的蓄电池运行规划单元，用于规划使用由蓄电池运行和劣化关系评估单元获得的信息满足所需寿命要求的方法的蓄电池运行规划单元 以及蓄电池操作指示单元，用于根据蓄电池操作规划单元的计划指示风力发电蓄电池系统操作蓄电池。

公开(公告)号：US08866443B2

公开(公告)日：2014-10-21

申请号：US13059253

申请日：2011-01-17

申请人： Keiko Abe ,  Yasuhiro Kobayashi ,  Masahiro Watanabe ,  Hisaaki Takabayashi ,  Yoshikazu Hirose ,  Shinichi Sano ,  Ichiro Shimoura

发明人： Keiko Abe ,  Yasuhiro Kobayashi ,  Masahiro Watanabe ,  Hisaaki Takabayashi ,  Yoshikazu Hirose ,  Shinichi Sano ,  Ichiro Shimoura

IPC分类号： H02J7/00 ,  H02J7/14 ,  G01R31/36 ,  H01M10/44

CPC分类号： G01R31/3651 ,  G01R31/3624 ,  G01R31/3679

摘要： The life of a lead acid storage battery is extended by changing an over-frequency equalized charge interval performed on a lead acid storage battery, in accordance with a transition situation of a state of charge (SOC) of the lead acid storage battery. The lead acid storage battery is also made to be advantageous in terms of cost by reducing the equalized charge with a low degree of urgency to reduce the power and cost for equalized charge, and by reducing the number of stops of a natural energy storage system. A lead acid storage battery and a lead acid storage battery system whose operational management can be easily performed are achieved by a method in which the future timing when the equalized charge is performed can be grasped by people operating the lead acid storage battery.

摘要翻译： 根据铅酸蓄电池的充电状态（SOC）的转变情况，通过改变在铅酸蓄电池上执行的超频均衡充电间隔来延长铅酸蓄电池的寿命。 铅酸蓄电池还通过以低的紧迫程度减少均衡充电以降低均衡充电的功率和成本以及减少自然能量存储系统的停止次数而在成本方面是有利的。 可以通过这样的方法实现其操作管理可以容易地执行的铅酸蓄电池和铅酸蓄电池系统，其中当进行均衡充电的未来时间可以由操作铅酸蓄电池的人掌握。

公开(公告)号：US10209313B2

公开(公告)日：2019-02-19

申请号：US13059891

申请日：2010-06-22

申请人： Keiko Abe ,  Yasuhiro Kobayashi ,  Masahiro Watanabe ,  Hisaaki Takabayashi ,  Yoshikazu Hirose

发明人： Keiko Abe ,  Yasuhiro Kobayashi ,  Masahiro Watanabe ,  Hisaaki Takabayashi ,  Yoshikazu Hirose

IPC分类号： G06F19/00 ,  G01R31/36

摘要： An accumulator and state of charge evaluation method for preparing, during charging and discharging, models for each of deterioration degrees, each representing a relationship between terminal voltage, current and state of charge, for selecting respective models for the times during charging and discharging in accordance with a total charging/discharging amount (Ah), a deterioration degree or an elapsed time of an operation of the accumulator, for further estimating state of charge from current accumulation, and for determining a final state of charge from estimated states of charge including a present state of charge estimated from the models for the times during charging and discharging of the accumulator, while using a time or a total charging/discharging amount (Ah) from a time of full-charging by equal charging of the accumulator up to present time to determine the final state of charge from the plurality of states of charge.

公开(公告)号：US20110288691A1

公开(公告)日：2011-11-24

申请号：US13059919

申请日：2010-01-06

申请人： Keiko Abe ,  Masahiro Watanabe ,  Yasuhiro Kobayashi ,  Toshiyuki Furukawa ,  Hisaaki Takabayashi ,  Yoshikazu Hirose

发明人： Keiko Abe ,  Masahiro Watanabe ,  Yasuhiro Kobayashi ,  Toshiyuki Furukawa ,  Hisaaki Takabayashi ,  Yoshikazu Hirose

IPC分类号： G06F1/28

CPC分类号： H02J3/32 ,  F03D7/00 ,  F03D9/11 ,  F03D9/25 ,  G01R31/3651 ,  G01R31/3679 ,  H01M10/46 ,  H01M10/48 ,  H02J7/0075 ,  Y02E10/723 ,  Y02E10/766 ,  Y02E70/30

摘要： While a control method is established which can maximize the lifetime of an storage battery based on a SOC capable of maximizing the lifetime of the storage battery under a temperature condition and a wind condition at an electricity generation site and on currently known ones of other operational conditions, a control system is constructed which can feedback to an actual wind power generation and storage battery system. The control system includes a wind power generation and storage battery system, an storage battery operation and deterioration data collection unit for collecting data of the wind power generation and storage battery system, an storage battery operation and deterioration relation assessment unit for assessing a relation between an operation of the storage battery and deterioration thereof based on the collected data, an storage battery operation planning unit for planning such a method of operating the storage battery as to satisfy a necessary lifetime requirement using information obtained by the storage battery operation and deterioration relation assessment unit, and an storage battery operation instruction unit for instructing the wind power generation and storage battery system to operate the storage battery in accordance with the plan of the storage battery operation planning unit.

摘要翻译： 虽然建立了一种控制方法，其可以基于能够在发电站点的温度条件和风况下以及当前已知的其他操作条件下最大化蓄电池的寿命的SOC来最大化蓄电池的寿命 构建了可以反馈给实际的风力发电和蓄电池系统的控制系统。 控制系统包括风力发电和蓄电池系统，用于收集风力发电和蓄电池系统的数据的蓄电池操作和劣化数据收集单元，用于评估风力发电和蓄电池系统之间的关系的蓄电池操作和劣化关系评估单元 存储电池的操作及其收集数据的劣化的蓄电池运行规划单元，用于规划使用由蓄电池运行和劣化关系评估单元获得的信息满足所需寿命要求的方法的蓄电池运行规划单元 以及蓄电池操作指示单元，用于根据蓄电池操作规划单元的计划指示风力发电蓄电池系统操作蓄电池。

公开(公告)号：US20120038312A1

公开(公告)日：2012-02-16

申请号：US13059253

申请日：2011-01-17

申请人： Keiko Abe ,  Yasuhiro Kobayashi ,  Masahiro Watanabe ,  Hisaaki Takabayashi ,  Yoshikazu Hirose ,  Shinichi Sano ,  Ichiro Shimoura

发明人： Keiko Abe ,  Yasuhiro Kobayashi ,  Masahiro Watanabe ,  Hisaaki Takabayashi ,  Yoshikazu Hirose ,  Shinichi Sano ,  Ichiro Shimoura

IPC分类号： H02J7/00 ,  G06F19/00 ,  G01R31/36

CPC分类号： G01R31/3651 ,  G01R31/3624 ,  G01R31/3679

摘要： The life of a lead acid storage batttery is extended by changing an over-frequency equalized charge interval performed on a lead acid storage batttery, in accordance with a transition situation of a state of charge (SOC) of the lead acid storage batttery. The lead acid storage batttery is also made to be advantageous in terms of cost by reducing the equalized charge with a low degree of urgency to reduce the power and cost for equalized charge, and by reducing the number of stops of a natural energy storage system. A lead acid storage batttery and a lead acid storage batttery system whose operational management can be easily performed are achieved by a method in which the future timing when the equalized charge is performed can be grasped by people operating the lead acid storage batttery. The lead acid storage batttery and the lead acid storage batttery system include: a storage batttery state measurement unit; an SOC model; an SOC estimation unit configured to estimate an SOC from the information measured by the storage batttery state measurement unit and the information from the SOC model; an SOC transition DB configure to record an SOC transition situation of the lead acid storage batttery; an SOC transition history management unit configured to record, in the SOC transition DB, an estimated SOC value and to check an SOC transition situation; a degradation model of the lead acid storage batttery; an equalized charge optimal planning unit configured to plan an optimal method of performing the equalized charge based on the information on the SOC transition situation from the SOC transition history management unit and the information from the degradation model; an SOC transition information-equalized charge information output unit; and an equalized charge control unit configured to perform the equalized charge on the lead acid storage batttery in accordance with the plan determined by the equalized charge optimal planning unit.

公开(公告)号：US20110196633A1

公开(公告)日：2011-08-11

申请号：US13059891

申请日：2010-06-22

申请人： Keiko Abe ,  Yasuhiro Kobayashi ,  Masahiro Watanabe ,  Hisaaki Takabayashi ,  Yoshikazu Hirose

发明人： Keiko Abe ,  Yasuhiro Kobayashi ,  Masahiro Watanabe ,  Hisaaki Takabayashi ,  Yoshikazu Hirose

IPC分类号： G06F19/00 ,  G01R31/36

CPC分类号： G01R31/3651 ,  G01R31/3624 ,  G01R31/3679

摘要： There are implemented a method which allows a present state of charge to be precisely estimated not only for a new battery, but also for a lead accumulator that has deteriorated with the lapse of a certain period since first use thereof, and a lead accumulator which can be increased in lifetime and reduced in cost using information on the precisely determined state of charge. An accumulator device includes an accumulator, a terminal voltage measurement unit for measuring a terminal voltage of the accumulator, a current measurement unit for measuring a current flowing in the accumulator, multi-dimensional characteristic models in which a plurality of relational models each between the measured terminal voltage, current and the state of charge are prepared for each of deterioration degrees, a deterioration degree estimation unit for estimating a present deterioration degree of the accumulator, a corresponding model selective determination unit for selectively determining, based on the deterioration degree determined by the deterioration degree estimation unit, a corresponding model from among the multi-dimensional characteristic models, and a state of charge estimation unit for estimating the present state of charge using the model selectively determined by the corresponding model selective determination unit.

摘要翻译： 实施了一种允许当前的充电状态不仅对于新电池精确估计的方法，而且对于自从首次使用一段时间后已劣化的铅蓄电池，以及可以 使用关于精确确定的充电状态的信息来增加寿命并降低成本。 蓄电装置包括蓄电池，用于测量蓄电池的端子电压的端子电压测量单元，用于测量在蓄电池中流动的电流的电流测量单元，多维特征模型，其中多个关系模型各自在被测量 针对劣化度准备端子电压，电流和充电状态，用于估计蓄电池的劣化程度的劣化度估计单元，用于根据由所述蓄电池的劣化程度确定的劣化程度选择性地确定的对应模型选择确定单元 劣化度估计单元，多维特征模型中的相应模型，以及用于使用由相应模型选择确定单元选择性地确定的模型来估计当前充电状态的充电状态估计单元。

公开(公告)号：US07236856B2

公开(公告)日：2007-06-26

申请号：US11506872

申请日：2006-08-21

申请人： Keiko Abe ,  Yasushi Harada ,  Masahiro Watanabe ,  Shouji Matsuzaki ,  Shinichirou Nakanami ,  Noriyuki Murakoshi

发明人： Keiko Abe ,  Yasushi Harada ,  Masahiro Watanabe ,  Shouji Matsuzaki ,  Shinichirou Nakanami ,  Noriyuki Murakoshi

IPC分类号： G05D11/00

CPC分类号： G06Q10/06 ,  F01K13/02 ,  F01K17/025 ,  G06Q50/06 ,  Y02E20/14 ,  Y02P80/11

摘要： An operation assisting system enhances the operator's willingness to participate in energy-saving efforts. The operation assisting system stores information about the actual operation of operated equipment carried out by the operator, evaluates the stored operation information, and displays the results of evaluation. The evaluation results relate to the cost concerning the operated equipment, the cost of supplying energy to the operation target facility, the cost concerning the operated equipment, the amount of emission of carbon dioxide, nitride oxide, and global warming substances, the amount of primary energy consumption, the crude oil-converted amount of energy consumption, the amount of excess or shortage of supply of energy, or electric power quality.

公开(公告)号：US20060116795A1

公开(公告)日：2006-06-01

申请号：US11330263

申请日：2006-01-12

申请人： Keiko Abe ,  Yasushi Harada ,  Masahiro Watanabe ,  Shouji Matsuzaki ,  Shinichirou Nakanami ,  Noriyuki Murakoshi

发明人： Keiko Abe ,  Yasushi Harada ,  Masahiro Watanabe ,  Shouji Matsuzaki ,  Shinichirou Nakanami ,  Noriyuki Murakoshi

IPC分类号： G06F9/44

CPC分类号： G06Q10/06 ,  F01K13/02 ,  F01K17/025 ,  G06Q50/06 ,  Y02E20/14 ,  Y02P80/11

摘要： An operation assisting system enhances the operator's willingness to participate in energy-saving efforts. The operation assisting system stores information about the actual operation of operated equipment carried out by the operator, evaluates the stored operation information, and displays the results of evaluation. The evaluation results relate to the cost concerning the operated equipment, the cost of supplying energy to the operation target facility, the cost concerning the operated equipment, the amount of emission of carbon dioxide, nitride oxide, and global warming substances, the amount of primary energy consumption, the crude oil-converted amount of energy consumption, the amount of excess or shortage of supply of energy, or electric power quality.

摘要翻译： 操作辅助系统提高了操作人员参与节能工作的意愿。 操作辅助系统存储有关由操作员执行的操作设备的实际操作的信息，评估所存储的操作信息，并显示评估结果。 评估结果涉及经营设备的成本，运营对象设备的能源供应成本，经营设备的成本，二氧化碳排放量，氮氧化物和全球变暖物质的数量，初级 能源消耗，能源消耗的原油转换量，能源供给过剩或不足量或电力质量。

公开(公告)号：US07177726B2

公开(公告)日：2007-02-13

申请号：US11330263

申请日：2006-01-12

申请人： Keiko Abe ,  Yasushi Harada ,  Masahiro Watanabe ,  Shouji Matsuzaki ,  Shinichirou Nakanami ,  Noriyuki Murakoshi

发明人： Keiko Abe ,  Yasushi Harada ,  Masahiro Watanabe ,  Shouji Matsuzaki ,  Shinichirou Nakanami ,  Noriyuki Murakoshi

IPC分类号： G05D11/00

CPC分类号： G06Q10/06 ,  F01K13/02 ,  F01K17/025 ,  G06Q50/06 ,  Y02E20/14 ,  Y02P80/11

摘要： An operation assisting system enhances the operator's willingness to participate in energy-saving efforts. The operation assisting system stores information about the actual operation of operated equipment carried out by the operator, evaluates the stored operation information, and displays the results of evaluation. The evaluation results relate to the cost concerning the operated equipment, the cost of supplying energy to the operation target facility, the cost concerning the operated equipment, the amount of emission of carbon dioxide, nitride oxide, and global warming substances, the amount of primary energy consumption, the crude oil-converted amount of energy consumption, the amount of excess or shortage of supply of energy, or electric power quality.

摘要翻译： 操作辅助系统提高了操作人员参与节能工作的意愿。 操作辅助系统存储有关由操作员执行的操作设备的实际操作的信息，评估所存储的操作信息，并显示评估结果。 评估结果涉及经营设备的成本，运营对象设备的能源供应成本，经营设备的成本，二氧化碳排放量，氮氧化物和全球变暖物质的数量，初级 能源消耗，能源消耗的原油转换量，能源供给过剩或不足量或电力质量。

公开(公告)号：US20060282196A1

公开(公告)日：2006-12-14

申请号：US11506872

申请日：2006-08-21

申请人： Keiko Abe ,  Yasushi Harada ,  Masahiro Watanabe ,  Shouji Matsuzaki ,  Shinichirou Nakanami ,  Noriyuki Murakoshi

发明人： Keiko Abe ,  Yasushi Harada ,  Masahiro Watanabe ,  Shouji Matsuzaki ,  Shinichirou Nakanami ,  Noriyuki Murakoshi

IPC分类号： G07G1/00

CPC分类号： G06Q10/06 ,  F01K13/02 ,  F01K17/025 ,  G06Q50/06 ,  Y02E20/14 ,  Y02P80/11

摘要： An operation assisting system enhances the operator's willingness to participate in energy-saving efforts. The operation assisting system stores information about the actual operation of operated equipment carried out by the operator, evaluates the stored operation information, and displays the results of evaluation. The evaluation results relate to the cost concerning the operated equipment, the cost of supplying energy to the operation target facility, the cost concerning the operated equipment, the amount of emission of carbon dioxide, nitride oxide, and global warming substances, the amount of primary energy consumption, the crude oil-converted amount of energy consumption, the amount of excess or shortage of supply of energy, or electric power quality.