Abstract
Waste tire (WT) can be heat-treated to be high-quality sulfur self-doped char via pyrolysis and K2FeO4-assisted activation processes. This work aimed at further studying the activation mechanisms based on the char structures evolution by operando experimental method. Activation treatment process (from 50 °C to 800 °C and then held for 3 h) was divided into six typical stages (S1–S6) and consisted of carbonization process (S1–S4) and effective activation process (S4–S6). During the carbonization process, the specific capacitance only increased from 0.2 F/g to 12.4 F/g, aromatic ring systems and alkyl-aryl C-C bonds generated, S 2p3/2 (sulphide bridge) was mainly gradually consumed. During the effective activation process, the specific capacitance hugely increased from 12.4 F/g to 112.5 F/g, aromatic ring systems and alkyl-aryl C-C bonds turned to ordered graphitic char. The pores massively generated from S4 to S5, while micropores partly formed to larger and mesopores+macropores fractionally converting to smaller from S5 to S6. Besides, both S 2p3/2 and S 2p5/2 (sulphone bridge) were enriched after S5. Furthermore, the key structural parameters for huge improvement of specific capacitance were found and it further revealed that mesopores+macropores possessed stronger promotion effect than micropores and S 2p3/2 was more beneficial than S 2p5/2.
Highlights
Tire, plays an essential role in transportation and its production amount has been sharply rising, would even hit 2.5 billion pieces in 2020 over the world amazingly [1]
K2 FeO4 -assisted activation mechanisms of waste tire chars (WTCs) were deeply revealed by operando experimental method successfully
The whole activation treatment process can be divided into six typical stages, and consisted of carbonization process (S1–S4) and effective activation process (S4–S6), the activation effect worked obviously after 650 ◦ C
Summary
Plays an essential role in transportation and its production amount has been sharply rising, would even hit 2.5 billion pieces in 2020 over the world amazingly [1]. Pyrolysis has been regarded as a promising technology to treat WTs as a result of it can be efficiently converted to high-valued oils by pyrolysis [4,5,6,7]. Pyrolytic WTCs are mainly used to produce carbon blacks [13,14]. It would take many times and costs to conduct desulfurization operations, because the contents of intrinsic sulfur in WTCs are usually high over 2 wt% [8,15]. It would be much promising to treat WTCs and achieve higher-valued applications
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