<p>Recycling industrial wastage offers an effective strategy to mitigate waste discharge, promoting development of low-cost CO<sub>2</sub> adsorbents aligning with the principles of the circular economy. This study utilized waste alkaline sludge (AS) originated from the photovoltaic industry, activated with 1–4&#xa0;M of hydrochloric acid (HCl), to study its effect on CO<sub>2</sub> capture performance. Activated AS were characterized with N<sub>2</sub> adsorption-desorption isotherm, XRD, FESEM-EDX, CO<sub>2</sub> adsorption-desorption isotherm and TPD-CO<sub>2</sub>. AS activated by 2&#xa0;M HCl exhibited the highest surface area of 123.73 m<sup>2</sup>/g and dominated by mesopores which played a significant role in CO<sub>2</sub> adsorption. CO<sub>2</sub> capture by physisorption at 25 °C exhibited an adsorption capacity of 0.44&#xa0;mg/g, which was a 20 times increment than inactivated AS. Meanwhile, CO<sub>2</sub> capture performance by chemisorption was 284&#xa0;mg/g, with temperature ranging from 207 to 644 °C and around 9 times higher than inactivated AS. Longevity study revealed that weight loss after prolonged CO<sub>2</sub> exposure for 24&#xa0;h remain around 1.4%, indicating adsorption stop after 24&#xa0;h. Longer exposure time induce morphological transformation from irregular ellipsoid into packed and aggregated nano coral, thus lessening its adsorption capacity. Based on adsorption isotherm breakthrough, it was determined that 25 °C was the optimal temperature for both adsorption and regeneration process. The adsorbent also demonstrated stable recyclability for 5 cycles, showing only 14% capacity reduction at the 2nd cycle and achieving a regeneration efficiency of 88.6%.</p>

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Sustainable CO2 capture using acid activated alkaline sludge from photovoltaic industry: longevity and recyclability study

  • Siti Sarahah Sulhadi,
  • Azizul Hakim Lahuri,
  • Syawal Mohd Yusof,
  • Farihahusnah Hussin,
  • Mohamed Kheireddine Aroua,
  • Taufiq Yap Yun Hin,
  • Nur Farhana Jaafar,
  • Syazreen Nadia Sulaiman

摘要

Recycling industrial wastage offers an effective strategy to mitigate waste discharge, promoting development of low-cost CO2 adsorbents aligning with the principles of the circular economy. This study utilized waste alkaline sludge (AS) originated from the photovoltaic industry, activated with 1–4 M of hydrochloric acid (HCl), to study its effect on CO2 capture performance. Activated AS were characterized with N2 adsorption-desorption isotherm, XRD, FESEM-EDX, CO2 adsorption-desorption isotherm and TPD-CO2. AS activated by 2 M HCl exhibited the highest surface area of 123.73 m2/g and dominated by mesopores which played a significant role in CO2 adsorption. CO2 capture by physisorption at 25 °C exhibited an adsorption capacity of 0.44 mg/g, which was a 20 times increment than inactivated AS. Meanwhile, CO2 capture performance by chemisorption was 284 mg/g, with temperature ranging from 207 to 644 °C and around 9 times higher than inactivated AS. Longevity study revealed that weight loss after prolonged CO2 exposure for 24 h remain around 1.4%, indicating adsorption stop after 24 h. Longer exposure time induce morphological transformation from irregular ellipsoid into packed and aggregated nano coral, thus lessening its adsorption capacity. Based on adsorption isotherm breakthrough, it was determined that 25 °C was the optimal temperature for both adsorption and regeneration process. The adsorbent also demonstrated stable recyclability for 5 cycles, showing only 14% capacity reduction at the 2nd cycle and achieving a regeneration efficiency of 88.6%.