Despite the importance of reliability to the cost competitiveness of PV, large data sets enabling high-level investigation of the technology’s performance in the field are relatively scarce. Dirk C. Jordan, Chris Deline, Bill Marion and Teresa Barnes of the National Renewable Energy Laboratory, and Mark Bolinger of the Lawrence Berkeley National Laboratory study a unique data set of 100,000 PV systems in the US, drawing out tips for better reliability that have relevance to other parts of the world.
Later this year, a new set of industry guidelines will for the first time codify a set of best practices for EPC contractors. Ahead of publication, members of Solar Power Europe’s O&M task force look at some of the critical areas of PV system integration where high-quality EPC work can most effectively influence a project’s lifetime performance.
A comprehensive understanding of the global performance and extra gain offered by a bifacial module remains an elusive goal for PV owners and EPCs due to variations arising from different design, manufacturing and testing methods. Vicente Parra, Ruperto J. Gómez, José C. Vázquez and Francisco Álvarez of Enertis review the main sources of variability and outstanding uncertainties that must be addressed as the industry seeks to define standard rules for reliably selecting, purchasing and deploying bifacial PV modules.
Travel restrictions imposed by countries in response to the coronavirus pandemic have contribution to a slowdown in investment in rural electrification projects. Thomas Hillig examines the extent of the investment freeze and possible solutions to get capital flowing into much needed projects again.
The European Union has pinned its hopes for an economic recovery in the wake of the COVID-19 pandemic on green and digital technologies. Molly Lempriere looks at the part solar could play as details are fleshed out.
With federal support for renewables having been depleted in recent years, utilities in the US have taken a leading role in the deployment of solar and energy storage. Jules Scully examines how integrated resource plans are driving solar deployment.
The rapid evolution of photovoltaic technology has continued, as modules with peak power outputs in excess of 550W are emerging fast. Driven by a thirst for more power and increasingly larger cells, developers and EPCs now face tougher procurement decisions than ever before. But is the industry ready for such a jump?
Our ability to generate renewable energy is scaling up fast, and solutions to integrate that energy will rely on technologies like blockchain to help keep new solutions on track. Power Ledger’s executive chairman and co-founder, Dr Jemma Green, looks at the role blockchain plays within her company’s platform to integrate and automate solar energy trading and balancing.
The optimal integration of distributed energy resources such as solar, battery storage and smart thermostats becomes an ever-more complex and pressing question. Rahul Kar, general manager and VP for New Energy at AutoGrid Systems looks at the role artificial intelligence can play in smarter energy networks.
