About Schematic diagram of photovoltaic panel crushing and separation
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6 FAQs about [Schematic diagram of photovoltaic panel crushing and separation]
How to separate a photovoltaic panel?
In this study, we crushed a photovoltaic panel by high-voltage pulse crushing and then separated the products bysieving and dense medium separation with the aim of selective separation and recovery of various materials in the panel.
How is high-voltage pulse crushing used in photovoltaic panel treatment?
High-voltage pulse crushing technology was applied to photovoltaic panel treatment.Crushed products were separated by sieving and dense medium separation. Glass was in the 45–850 μm fraction and purified by dense medium separation. Ag was highly condensed (3000 mg/kg) in the sieved products.
How to determine the degree of separation of PV panels?
In order to evaluate the degree of separation of PV panels, the separation rate of PV panels was introduced in this paper and it was determined by Eq. (1): (1) Separation rate ( %) = ( 1 − M b M a) × 100 where Mb is the mass of unseparated PV panels and Ma is the total mass of the PV panels placed in the reactor.
Why is it important to separate different layers of PV panels?
It is very important to realize the rapid and efficient separation between the different layers of the PV panels. After the separation of different layers, valuable materials such as silver wires, silver paste electrodes, and Cu/Sn ribbons be exposed which is necessary for the extraction the valuable materials.
What is the separation rate of PV panels?
When the reaction temperature is 70 °C, the separation rate of PV panels reaches 100% in 2 h. In contrast, the separation rate at 50 °C and 60 °C is 73% and 86% respectively.
Why do PV panels need mechanical crushing?
As the powder created by mechanical crushing is simple to transport, it can substantially reduce transportation expenses. (2) The surface of most PV panels has been damaged by long-term use.
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