Integration of PV into the energy system: Challenges and measures for generation and load management

2014 IEEE 40th Photovoltaic Specialist Conference (PVSC) Pub Date : 2014-10-16 DOI:10.1109/PVSC.2014.6925599

S. Krauter, Ewald Japs

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引用次数: 2

Abstract

In the foreseeable future, sustainable electrical energy systems should be capable to handle up to 100% of renewable energy share in the grid. Due to the recent price drops, PV will play a major role in the global renewable energy portfolio. The technical implications of this development (also referred to as “energy transition” in Germany) in all areas of electricity supply (generation, transmission, distribution, operation management) are manifold and consequently lead to a new system design. For the effective integration of PV the major challenges are volatile generation given by sun's position and actual weather conditions, as well as load level. On one hand, the article addresses the generation side by adapting PV power plants to load requirements (e.g., via azimuth and tilt angle modification to achieve peak power output during periods of high demand, via thermal conditioning of PV modules, via smart site selection or via a combination of complementary energy sources) and on the other hand the article discusses several possibilities of load management (e.g. load shifting, inducements, load adaptation, appropriate market design).

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光伏发电与能源系统的整合:发电与负荷管理的挑战与措施

在可预见的未来，可持续电力能源系统应该能够处理电网中高达100%的可再生能源份额。由于最近的价格下降，光伏将在全球可再生能源组合中发挥重要作用。这一发展(在德国也被称为“能源转型”)在电力供应(发电、传输、分配、运营管理)的所有领域的技术影响是多方面的，因此导致新的系统设计。对于光伏发电的有效整合，主要挑战是太阳位置和实际天气条件以及负载水平所带来的不稳定发电。一方面，文章通过调整光伏发电厂以满足负载要求(例如，通过修改方位角和倾斜角以在高需求期间实现峰值功率输出，通过光伏模块的热调节，通过智能选址或通过互补能源的组合)来解决发电方面的问题，另一方面，文章讨论了负载管理的几种可能性(例如，负载转移，诱导，负载适应，适当的市场设计)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2014 IEEE 40th Photovoltaic Specialist Conference (PVSC)

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