Title :
An evaluation procedure for estimating voltage ripple caused by cloud shadows moving over high-penetration PV distribution networks
Author :
Grady, W. Mack ; Thomas, Holly ; Razon, Alvin
Author_Institution :
Baylor Univ., Waco, TX, USA
Abstract :
Voltage ripple is a very old problem in power systems and has been, for the most part, solved for decades. Now, with the likely emergence of widespread photovoltaic generation on rooftops, combined with moving cloud shadows, voltage ripple problems could reappear. For example, if 50% of the load on a power distribution feeder in full sun is supplied by distributed PV, voltage ripple will obviously occur as clouds drift over, reducing individual PV outputs to 30% of full-sun levels. The question is “how large is the voltage ripple likely to be?” This paper presents a cloud shadow model, procedure, and simulation tool suitable for answering the question.
Keywords :
building integrated photovoltaics; clouds; distributed power generation; cloud drift; distributed PV system; evaluation procedure; full-sun levels; high-penetration PV distribution networks; moving cloud shadow model; photovoltaic generation; power distribution; power distribution feeder; power systems; rooftops; voltage ripple estimation; Azimuth; Clouds; Harmonic analysis; Integrated circuit modeling; Load modeling; Sun; Switches;
Conference_Titel :
Harmonics and Quality of Power (ICHQP), 2014 IEEE 16th International Conference on
Conference_Location :
Bucharest
DOI :
10.1109/ICHQP.2014.6842855
