How to identify interruption of ribbons in solar modules
Scientists in Spain have investigated the total or partial interruptions of ribbons that connect solar cells in modules and have proposed a classification based on their type and location.
Dielectric capping layers improve heterojunction solar module reliability
A research group from France claims to have found a way to reduce indium consumption in heterojunction solar modules by 85 % while maintaining good performances and durability levels. The scientists tested different cell designs and the use of several capping layers to protect the cell from moisture degradation.
Lenovo unveils solar laptop with integrated PV panel
This is a proof-of-concept 1.22 kg laptop with a solar panel integrated into the lid, capable of absorbing enough sunlight in 20 minutes to power the device’s video for an hour.
Indian startup testing 15%-efficient perovskite solar modules
P3C Technology and Solutions plans to initially produce the 30 cm2 modules at a pilot 60 MW manufacturing facility.
Tilt angle has greatest impact on power losses caused by soiling
Scientists in China have analyzed the impact of soiling of PV module performance and have found that tilt angle has the greatest impact, followed by irradiance intensity and dust deposition density.
Testing photovoltaic modules in Antarctica’s summer
The Turkish Antarctic Expedition placed four different PV module types – monocrystalline, polycrystalline, flexible and transparent – outside of their research camp for three months to compare performance, finding that monocrystalline was the clear winner.
Unlimited energy storage in Europe
Most studies of European 100% renewable energy overlook pumped-hydro energy storage (PHES), for the following, incorrect, reasons: there are few PHES sites; more dams on rivers are required; large areas of land are flooded; large amounts of water are required; there is a heavy environmental cost; and the capital cost of PHES is high. All these perceptions are wrong.
Combining liquid-based direct air capture with compressed air energy storage
Scientists in China have simulated a system that combines liquid-based direct air capture with diabatic compressed air energy storage, for the benefit of both processes. Exploring its economic feasibility, they found the system could achieve a levelized cost of energy of $0.53/kWh and a levelized cost of CO2 captured from air of $259/tCO2.
Energy management systems key to helping residential customers navigate increasingly complex energy markets
Home Energy Management Systems (HEMS) are emerging as essential tools, enabling consumers to navigate grid complexities, optimize energy usage, and contribute to a more resilient and low-carbon grid.
US startup offers portable factory for ground-mounted PV plants
Charge Robotic’s portable factory system assembles solar equipment including tracks, mounting brackets and panels on-site and then puts it into place via an automated robotic vehicle. The company’s first commercial deployments are scheduled for this year.
