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    • 8. 发明申请
    • RAIL INTEGRATED ENERGY SYSTEM
    • 铁路综合能源系统
    • US20140368044A1
    • 2014-12-18
    • US14474429
    • 2014-09-02
    • ELECTRO-MOTIVE DIESEL, Inc.
    • JEFFREY EDWARD JENSEN
    • H02J7/34B60L8/00B60L9/00H02J1/10
    • H02J7/34B60L9/00B60L2200/26E01B3/00H02J7/35Y10T307/642
    • An energy management system using renewable energy resources to power an electric railcar along a rail and to distribute and store energy along a rail system is disclosed. The energy management system includes a power supply structured to generate electricity from renewable energy resources. A rail tie assembly, with a rail tie member, is positioned to support the rail and encloses a battery therein. The battery is electrically connected to the power supply. The rail tie assembly also includes at least one electricity transmission line, which is electrically connected to the battery and a railcar power transmission assembly. More specifically, the energy management system is structured to conduct electricity between the power supply and the battery, and to distribute power to a battery of an adjoining rail tie assembly.
    • 公开了一种能量管理系统,其使用可再生能源来沿着轨道向电动轨道车辆供电,并沿轨道系统分配和储存能量。 能源管理系统包括一个能够从可再生能源发电的电力供应。 具有轨道构件的导轨组合件被定位成支撑轨道并且在其中包围电池。 电池电连接到电源。 导轨组合件还包括至少一个电连接到电池的电力传输线路和轨道车辆动力传递组件。 更具体地,能量管理系统构造成在电源和电池之间传导电力,并且将电力分配给相邻的铁路轨道组件的电池。
    • 10. 发明申请
    • Distributed Energy System Architecture with Thermal Storage
    • 具有热存储的分布式能源系统架构
    • US20140265597A1
    • 2014-09-18
    • US14203624
    • 2014-03-11
    • Mondre Energy, Inc.
    • Steven F. Miller
    • H02J3/38
    • F01K5/02F01K13/02F01K23/10F02C6/18Y02E20/14Y10T307/642
    • In one embodiment, power gathering system (PGS) circuits are connected as an electrical overlay system to a distribution substation of a conventional electric-power generation, transmission, and distribution system. Combined heat and power (CHP) generators generate (i) electric power provided to the PGS circuits and (ii) thermal energy provided to co-located thermal host facilities that also receive electric power from the PGS circuits. The CHP generators convert excess thermal energy not used by the thermal host facilities into additional electric power provided to PGS circuits. As the amount of thermal energy used by the thermal host facilities varies over time, the amount of additional electric power generated by CHP generators is inversely varied. In this way, the primary electric-power generators (e.g., gas turbine generators) of the CHP generators can be operated economically at optimal levels independent of the thermal energy demand of the thermal host facilities.
    • 在一个实施例中,集电系统(PGS)电路作为电气覆盖系统连接到常规发电,输电和配电系统的配电站。 热电联产(CHP)发电机产生(i)提供给PGS电路的电力和(ii)提供给同时接收来自PGS电路的电力的热定位的热主机设施的热能。 热电联产发电机将热主机设施未使用的剩余热能转换为提供给PGS电路的额外电力。 随着热主机设施使用的热能量随时间而变化,由CHP发电机产生的附加电力的量是相反的。 以这种方式,CHP发电机的主要发电机(例如,燃气涡轮发电机)可以经济地运行在与热主机设施的热能需求无关的最佳水平。