New Upgrade to Improve Operation of Conventional Grid-Connected Photovoltaic Systems

M. Cáceres, Alexis Raúl González Mayans, A. Firman, L. Vera, Juan de la Casa Higueras
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Abstract

The incorporation of distributed generation with photovoltaic systems entails a drawback associated with intermittency in the generation capacity due to variations in the solar resource. In general, this aspect limits the level of penetration that this resource can have without producing an appreciable impact on the quality of the electrical supply. With the intention of reducing its intermittency, this paper presents the characterization of a methodology for maximizing grid-connected PV system operation under low-solar-radiation conditions. A new concept of a hybrid system based on a constant current source and capable of integrating different sources into a conventional grid-connected PV system is presented. Results of an experimental characterization of a low-voltage grid–PV system connection with a DC/DC converter for constant-current source application are shown in zero and non-zero radiation conditions. The results obtained demonstrate that the proposed integration method works efficiently without causing appreciable effects on the parameters that define the quality of the electrical supply. In this way, it is possible to efficiently incorporate another source of energy, taking advantage of the characteristics of the GCPVS without further interventions in the system. It is expected that this topology could help to integrate other generation and/or storage technologies into already existing PV systems, opening a wide field of research in the PV systems area.
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改进传统并网光伏系统运行的新升级方案
将分布式发电与光伏系统结合在一起会产生一个缺点,即由于太阳能资源的变化而导致发电能力的间歇性。一般来说,这限制了这种资源在不对供电质量产生明显影响的情况下的渗透水平。为了减少其间歇性,本文介绍了在低太阳辐射条件下最大化并网光伏系统运行的方法。本文提出了一个基于恒流源的混合系统新概念,该系统能够将不同的电源集成到传统的并网光伏系统中。实验结果表明,在零辐射和非零辐射条件下,低压并网光伏系统与用于恒流源应用的 DC/DC 转换器连接。实验结果表明,所提出的集成方法能有效工作,不会对确定供电质量的参数产生明显影响。这样,就有可能有效地整合另一种能源,利用 GCPVS 的特性,而无需对系统进行进一步干预。预计这种拓扑结构有助于将其他发电和/或储能技术集成到现有的光伏系统中,为光伏系统领域的研究开辟了广阔的天地。
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