As solar becomes more sophisticated, the industry is leaning on more advanced software and AI to determine the best sites and optimum system designs. Molly Lempriere explores the role AI and other advanced techniques are playing in solar development.
Using an in-house tool and PVsyst simulation software, a team from Chint New Energy Technology Co. analyse the LCOE of utility-scale solar systems in various countries based on three technologies: PERC, TOPCon and HJT.
With numerous markets reporting problems with overly optimistic P50 estimates, attention has also been drawn to similar issues with PAN files. TÜV Rheinland’s Yating Zhang and Christos Monokroussos discuss the subject at length.
Inverter design and configuration is continually evolving, and so are the strategies of the companies making this important piece of kit, writes Jonathan Touriño Jacobo.
Home to some of the world’s highest solar irradiation levels and urgently in need of homegrown energy resources, Chile has established itself as a key PV market in Latin America. Jonathan Touriño Jacobo looks at that rise and asks what we can expect to see next for the country.
Green hydrogen electrolysis is emerging as a potential solution to curtailment, taking excess solar and converting it into hydrogen for either long-duration storage or use by other industries, writes Alissa Tripp, senior research and commercial analyst at Octopus Hydrogen.
Alexander Hansen Bakken, cybersecurity consultant at DNV, reveals the cyber vulnerabilities arising as solar farm operational technologies become more networked and connected.
The US has a massive interconnection problem, with more than 14TW of clean power sat dormant in its queues. The DOE i2X initiative is seeking to unleash this power and catapult the US closer to its climate targets. But how will it achieve this? Sean Rai-Roche finds out more.
