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Fabrication of Mg-Doped Sargassum Biochar for Phosphate and Ammonium Recovery

Author

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  • Ye-Eun Lee

    (Department of Environmental Research, Korea Institute of Civil Engineering and Building Technology, Goyang-daero 283, Ilsanseo-gu, Goyang-si 10223, Gyeonggi-do, Korea)

  • Yoonah Jeong

    (Department of Environmental Research, Korea Institute of Civil Engineering and Building Technology, Goyang-daero 283, Ilsanseo-gu, Goyang-si 10223, Gyeonggi-do, Korea)

  • Dong-Chul Shin

    (Department of Environmental Research, Korea Institute of Civil Engineering and Building Technology, Goyang-daero 283, Ilsanseo-gu, Goyang-si 10223, Gyeonggi-do, Korea)

  • Kwang-Ho Ahn

    (Department of Environmental Research, Korea Institute of Civil Engineering and Building Technology, Goyang-daero 283, Ilsanseo-gu, Goyang-si 10223, Gyeonggi-do, Korea)

  • Jin-Hong Jung

    (Department of Environmental Research, Korea Institute of Civil Engineering and Building Technology, Goyang-daero 283, Ilsanseo-gu, Goyang-si 10223, Gyeonggi-do, Korea)

  • I-Tae Kim

    (Department of Environmental Research, Korea Institute of Civil Engineering and Building Technology, Goyang-daero 283, Ilsanseo-gu, Goyang-si 10223, Gyeonggi-do, Korea)

Abstract

Biochars prepared from macro-algae have a lower C/N ratio compared to lignocellulosic biochar, which is advantageous for direct nutrition. In particular, Sargassum , a marine macro-algae, has a high Mg content; hence, it can be expected to adsorb P and N simultaneously. In this study, Sargassum horneri biochar (SB), pyrolyzed at 400, 500, and 600 °C, was doped with innate Mg through water leaching, and nutrient recovery from the wastewater-mimicking solution was confirmed. The biochar pyrolyzed at 600 °C showed maximum Mg adsorption during water leaching, and the efficiency of K and Na removal was also high, at 92.7% and 91.9%, respectively. The addition of MgCl 2 during pyrolysis and high ion exchange did not show distinct advantages for surface modification and nutrient adsorption. X-ray photoelectron spectroscopy analysis confirmed the participation of biochar in the surface adsorption of Mg and PO 4 recovery. The PO 4 sorption capacity of biochar reached >120 mg·g −1 , while the sorption capacity for NH 4 was low, at 22.8–28.2 mg·g −1 , suggesting that Mg-surface-doped SB presented excellent phosphorus recovery. Hence, upgrading an adsorbent as a wastewater-treatment material and soil ameliorant that recovers nutrients using innate Mg from Sargassum is possible through appropriate surface modification.

Suggested Citation

  • Ye-Eun Lee & Yoonah Jeong & Dong-Chul Shin & Kwang-Ho Ahn & Jin-Hong Jung & I-Tae Kim, 2021. "Fabrication of Mg-Doped Sargassum Biochar for Phosphate and Ammonium Recovery," Sustainability, MDPI, vol. 13(22), pages 1-15, November.
    • Handle: RePEc:gam:jsusta:v:13:y:2021:i:22:p:12752-:d:681868
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    References listed on IDEAS

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    1. Ye-Eun Lee & Jun-Ho Jo & I-Tae Kim & Yeong-Seok Yoo, 2018. "Influence of NaCl Concentration on Food-Waste Biochar Structure and Templating Effects," Energies, MDPI, vol. 11(9), pages 1-16, September.
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