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    • 7. 发明申请
    • PHOTOVOLTAIC ELEMENT ARRANGEMENT SYSTEM
    • 光伏元件安排系统
    • WO2018018100A1
    • 2018-02-01
    • PCT/BG2017/000017
    • 2017-07-20
    • GEORGIEV, Chavdar Georgiev
    • GEORGIEV, Chavdar Georgiev
    • H02S20/20
    • H02S20/20F24S20/25
    • This invention refers to a photovoltaic element arrangement system which will can be used for the generation of electric power from solar radiation. A system was created, composed of photovoltaic elements (4), within a frame (2), forming a photovoltaic module (1), placed on top of a supporting structure (3). According to the invention, in each photovoltaic module (1) two or more than two of the photovoltaic elements (4) are arranged in the same plane or in different planes, in contact with each other and forming rows of elements. Each two of these neighbouring planes form v and/or A - shaped rows, at an angle β between them, within the range from 52° to 108°. The plane of each row of photovoltaic elements (4) is at an angle a against the mounting surface of the module (1), within the range from 36° to 64°. The adjacent v and/or A - shaped rows of photovoltaic elements (4) form a spatial shape similar to a roofing construction of a sequence of double-sloped roofs. The same system is implemented in a similar manner for the construction of the photovoltaic modules within photovoltaic power plants.
    • 本发明涉及一种可用于从太阳辐射产生电力的光伏元件布置系统。 在框架(2)内形成由光伏元件(4)组成的系统,形成放置在支撑结构(3)顶部上的光伏模块(1)。 根据本发明,在每个光伏模块(1)中,两个或两个以上的光伏元件(4)布置在同一平面中或不同平面中,彼此接触并形成多行元件。 这些相邻平面中的每两个形成V形和/或A形的行,它们之间的角度β在52°〜 到108°。 每排光伏元件(4)的平面相对于模块(1)的安装表面成角度α,在36°至36°的范围内。 到64°。 相邻的V形和/或A形光伏元件(4)排形成类似于一系列双斜屋顶的屋顶结构的空间形状。 同样的系统以类似的方式在光伏电站内建设光伏模块。
    • 8. 发明申请
    • A MOMENTARY POWER MARKET
    • 动力市场
    • WO2006021058A1
    • 2006-03-02
    • PCT/BG2004/000023
    • 2004-12-02
    • STOILOV, Georgi, DimovSTOILOV, Dimo, GeorgievSTOILOV, Luben, Georgiev
    • STOILOV, Georgi, DimovSTOILOV, Dimo, GeorgievSTOILOV, Luben, Georgiev
    • G06F17/60
    • G06Q30/00G06Q40/04H02J3/008Y04S10/58Y04S50/10
    • A method and system is proposed for the physical trading of electricity, which is characterized by continuous Dynamic Advanced Prices formation and propagation over a single price period that is a few seconds long. The Node and Branch price equations are applied to the power flows and to the corresponding costs incurred at measure points, as well as to the system-wide costs allocated equitably by means of a Price Designator, Price Announcers, Price Transmuters and Intelligent Meters and by other devices, all of which function together in a sequential and repetitive process of preliminary bidding, clearing, adjustment and dispatching, followed by price designation, confirmation and conversion in a way that takes into account congestion and security costs and the compensation of involuntary deviations. The method provides a common electricity trade environment that allows every market participant, especially every consumer, to respond adequately to last minute price changes.
    • 提出了一种用于电力实物交易的方法和系统,其特征是在单个价格周期内持续的动态高级价格形成和传播是几秒钟。 节点和分支价格方程式应用于电力流量和在测量点产生的相应成本,以及通过价格指示员,价格宣传员,价格传递者和智能电表公平分配的全系统成本,以及 所有这些设备在初步投标,清算,调整和调度的连续重复过程中一起起作用,其次是价格指定,确认和转换,考虑到拥堵和安全成本以及非自愿偏差的补偿。 该方法提供了一个普遍的电力贸易环境,允许每个市场参与者,特别是每个消费者,对最后一刻的价格变化做出充分的反应。
    • 10. 发明申请
    • PHOTOVOLTAIC ELEMENT ARRANGEMENT SYSTEM
    • WO2018018100A4
    • 2018-02-01
    • PCT/BG2017/000017
    • 2017-07-20
    • GEORGIEV, Chavdar Georgiev
    • GEORGIEV, Chavdar Georgiev
    • H02S20/20
    • This invention refers to a photovoltaic element arrangement system which will can be used for the generation of electric power from solar radiation. A system was created, composed of photovoltaic elements (4), within a frame (2), forming a photovoltaic module (1), placed on top of a supporting structure (3). According to the invention, in each photovoltaic module (1) two or more than two of the photovoltaic elements (4) are arranged in the same plane or in different planes, in contact with each other and forming rows of elements. Each two of these neighbouring planes form v and/or A - shaped rows, at an angle β between them, within the range from 52° to 108°. The plane of each row of photovoltaic elements (4) is at an angle a against the mounting surface of the module (1), within the range from 36° to 64°. The adjacent v and/or A - shaped rows of photovoltaic elements (4) form a spatial shape similar to a roofing construction of a sequence of double-sloped roofs. The same system is implemented in a similar manner for the construction of the photovoltaic modules within photovoltaic power plants.