Using satellite insolation data to calculate PV power output variability

Published: July 18, 2013

By Thomas E. Hoff, Founder and President of Research and Consulting Group, Clean Power Research; Richard Perez, Research Professor, ASRC, University at Albany

As the PV capacity of utility systems increases, utility planners and operators are becoming more and more concerned about the potential impacts of power supply variability caused by transient clouds. Utilities and control system operators need to adapt their planning, scheduling and operating strategies to accommodate this variability while at the same time maintaining existing standards of reliability. Effective management of these systems, however, requires a clear understanding of PV output variability and the methods to quantify it. The present objective is to develop analytical methods and tools to quantify PV fleet output variability. This paper presents a method using location-specific inputs for estimating correlation coefficients, and discusses the key findings that resulted from applying the method to three separate geographical regions in the USA. The approach has potential financial benefits for systems that are concerned about PV power output variability, ranging from individual distribution feeders to state-wide balancing regions.

Single Paper

Includes one paper digital access
US$ 21

Photovoltaics International SubscriptionDigital & Archive

Includes 12 months of unlimited digital access to the Photovoltaics International content, full online archive, technical paper collection (over 700), and more.

Includes 2 upcoming issues in digital.

US$ 449 per year

This Website Uses Cookies

By continuing browsing this website you are accepting our Cookie Policy, as well as our Terms of Use and Privacy Policy.