@misc{b6c435f2b3f5495ebcba7fe836c81a3d,
title = "Cold Climate Degradation: An Analysis of Double-Axis Tracked, E-W Vertical, and Fixed-Tilt Photovoltaic Deployments in Alaska",
abstract = "As countries around the world transition towards renewable energy, there is increasing interest in using photovoltaic (PV) technologies to help decarbonize remote northern communities due to their scalability and affordability. However, a major barrier towards large-scale adoption of PV in cold climates is performance uncertainty under extreme environmental conditions including snowfall, freeze-thaw cycles, and high wind loads. Existing literature on PV degradation rates in the North is relatively limited, with published degradation rates varying between -0.2%/year (Sweden) to -1.3%/year (Scotland). At this workshop, we will present preliminary results on the long-term performance of two diverse photovoltaic sites located in Fairbanks, Alaska at 64.8 degrees N: a monofacial Al-BSF double-axis tracking site maintained by the Cold Climate Housing Research Center (CCHRC), and a bifacial PERC/SHJ E-W vertical and south-facing fixed-tilt site maintained by the Alaska Center Energy and Power (ACEP). CCHRC data has been collected over a period of 15 years, while ACEP site data has been collected over 4 years. Using the degradation analysis tool, RdTools, we will present annual system degradation rates, seasonal performance ratio, and identify potential cold climate failure mechanisms for commercially available PV technologies. This analysis will add to existing literature by directly comparing the performance of multiple PV configurations in Alaska.",
keywords = "bifacial, cold climate, degradation, high latitude, PERC, photovoltaics, reliability, SHJ",
author = "Erin Tonita and Dirk Jordan and Silvana Ovaitt and Henry Toal and Karin Hinzer and Christopher Pike and Chris Deline",
year = "2024",
language = "American English",
series = "Presented at the Photovoltaic Reliability Workshop (PVRW), 27-29 February 2024, Lakewood, Colorado",
publisher = "National Renewable Energy Laboratory (NREL)",
address = "United States",
type = "Other",
}