Expand supportive channels for raw materials

High-purity industrial silicon + High-purity crystalline silicon

As global carbon neutrality is gathering pace,
clean energy is an inevitable trend in the future.

In 2015, the United Nations Climate Change Conference adopted the Paris Agreement, proposing all parties strengthen the global response to the threat of climate change. China was a vital promoter of the conclusion of the Paris Agreement, as well as an active practitioner in its implementation. On September 22, 2020, the Chinese government proposed at the 75th session of the United Nations General Assembly, “China will strengthen the nationally determined contributions, take more powerful policies and measures, strive to peak carbon dioxide emissions before 2030, and try to realize carbon neutrality before 2060.” On March 5, 2021, a Report on the Work of the Government of the State Council in 2021 pointed out conscientiously implementing carbon peaking and carbon neutrality tasks, formulating an action plan for peaking carbon emissions before 2030 and optimizing the industrial structure and energy structure. Under the dual carbon goal, the global installed PV demand is accelerating, whilst silicon, as a core raw material of the PV industrial chain, witnesses a strained relationship between supply and demand.

In 2022, HYSOLAR invested in building
“150,000T high-purity industrial silicon and 100,000T high-purity crystalline silicon”

This marks HYSOLAR’s further improvement in vertical integration layout throughout PV industrial chain, and also a strategic assurance for upstream raw material supply.
The control ability of cost optimization is reinforced, thereby improving the comprehensive competitiveness of the company.

Industrial Silicon

  • “High-temperature denitration” technology, greener and more eco-friendly

  • 60%“green electricity” power supply production, reducing the total energy consumption index

Crystalline Silicon

  • Adopt modified Siemens process route with higher purity

  • Compatible with raw materials for production of P-type and N-type silicon wafers

Advanced process technology and production equipment further improve the quality of silicon materials
Lay the foundation for outstanding performance of terminal products
Meanwhile, energy-saving measures are taken for the project in five aspects of the process, electrical power, construction, water supply and drainage, energy-saving production management,
facilitating energy saving and consumption reduction during later operation in an all-around manner, and promoting the long-term development of the PV industry.