Modules & Upstream Manufacturing

The Chinese PV manufacturer has unveiled ambitious plans to build a vertically integrated factory in China’s Inner Mongolia region, which will be powered by a mix of solar and wind coupled with on-site energy storage.

There is increasing pressure, globally, for companies to be held more accountable, particularly when it comes to sustainability and just working conditions, and this topic is only growing in importance. With this in mind, pv magazine’s UP Initiative spent Q2 2021 looking at what solar and energy storage companies could do to lead by positive example when it comes to the workers, often far removed, involved in the production of their products and services.

A diversified and talented workforce, proximity to customers, and strong partnerships on the ground prompted Meyer Burger to establish a PV production site in Goodyear, Arizona, the US.

Dec. 23 saw the inauguration of a new solar cell factory in the city of Khomeini, according to the Iranian government’s Renewable Energy and Energy Efficiency Organization. The factory, operated by Tehran headquartered company Mana Energy Pak, will be among the first in the region to produce silicon solar cells.

Structural imbalances in the supply chain and the energy intensity and consumption controls that China imposed in late September have caused prices for most PV module materials and components to continue to rise. Shipping fees and PV plant construction costs also remain high. PV plants in many regions will therefore be postponed until next year, but it remains unclear when module prices will start to fall. Despite these challenges, the global race to cut carbon emissions continues, and InfoLink’s Corrine Lin forecasts a bright future for PV deployments in 2022.

The lithium-ion battery producer began manufacturing activities at its new factory in Ningde city, Fujian Province. Aiko Solar has also secured 4,515,000,000 wafers for the next three years through three different supply deals.

Scientists at the Nankai University in China have provided a comprehensive overview of current research on silicon heterojunction-based tandem solar cells (SHJ-TSCs) and shared their expectations of future developments in this field.

The module series also achieved a maximum power of 721.016 W. The result has been confirmed by TÜV Rheinland.

Scientists in the UK investigated the relationship between two of the most worrisome defects that can affect solar cells in the field – cracking and hotspots. Their work analyzed solar cells with different levels of cracking under varying light conditions, finding that the most severely cracked cells were considerably more likely to run at high temperatures and form damaging hotspots.

Sydney-based startup SunDrive has given itself an early Christmas present in the form of the fabrication of its first full-sized panel. This panel marks the most recent milestone on the road to commercialization for SunDrive, which set a new world record for commercial-sized silicon solar cell efficiency in September.