What is polysilicon, what is its role in solar panels and are there any social and governance concerns around its production? Here is a primer.
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Polysilicon, a high-purity form of silicon, is a key raw material in the solar photovoltaic (PV) supply chain. To produce solar modules, polysilicon is melted at high temperatures to form ingots, which are then sliced into wafers and processed into solar cells and solar modules.
Source: National Renewable Energy Laboratory,
Three are three main technologies to produce polysilicon.
The &#;modified Siemens process&#; is currently the dominant technology in China. Trichlorosilane (TCS) is produced using two readily available metallurgical-grade silicon (of 95-99% purity) and liquid chlorine.
After being purified through distillation, the TCS is vaporised and mixed with hydrogen gas. In a deposition reactor, silicon slim rods are heated up to 1 100C and the passing of the gas mixture results in high-purity silicon being deposited on the surface of the rods. This process continues until a certain diameter (typically 150-200mm) is achieved.
Fluidised bed reactor process (FBR) and the upgraded metallurgical-grade silicon process (UMG) are the other two technologies.
The polysilicon industry has increasingly consolidated, with the top-five companies accounting for 73% of global production in compared to 60% in , according to BNEF. This is mainly due to a number of companies shutting down capacities in recent years after a period of overcapacity. These companies could not compete with low-cost producers that have greater scale and efficiencies in a low-price environment.
In addition, China imposed tariffs on polysilicon imports. This benefited local producers who already had a cost advantage compared to international peers. China accounted for 77% of global polysilicon production in . Manufacturing takes place mostly in Xinjiang, Yunnan or Sichuan where electricity is cheaper lower and the raw material is close by.
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After supply chain disruptions led to higher polysilicon prices in Q3 , prices have risen significantly further since the start of due to market tightness.
In anticipation of strong demand &#; solar installation is forecast to increase by 15% a year for the next three years (according to BNEF) &#; downstream wafer companies boosted capacity by 45% in .
This growing demand from wafer companies that use polysilicon to make wafers has created a supply-demand imbalance. One producer expects supply to remain tight until the middle of , when new capacity is expected to come on stream.
In June , US Customs and Border Protection issued a &#;withhold release order&#; targeting a major supplier of metallurgical silicon powder over allegations that it used forced labour. [3] Enforcement will likely be through downstream companies which this supplier sells to. This could detail cargoes into the US until the supply chain source is clear.
However, since the US accounts for less than 2% of mainland China&#;s solar PV exports (average in the last three years), we believe local companies can leverage manufacturing plants outside of Xinjiang, where this major supplier is located, to serve the US market.
Separately, the US blacklisted other Chinese companies that it said were involved in human rights violations in Xinjiang. At least some of the companies listed by the Commerce Department are major manufacturers of monocrystalline silicon and polysilicon that are used in solar panel production.
A potential market impact could be a further tightening of the polysilicon market, especially if a premium emerges for polysilicon sourced outside of Xinjiang, which is a low-cost producing region due to its low electricity costs. This could cause polysilicon prices to rise and hold at higher levels. Costs for module manufacturers could increase as they have to demonstrate their supply chain audit trail.
[1] REC Silicon, https://www.recsilicon.com/technology/rec-silicons-fluidized-bed-reactor-process/
[2] Source: Bernreuter Research, https://www.bernreuter.com/polysilicon/production-processes/
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