Nutrients Release Evaluation on NPK Fertilizer Coated by a Carbon Microspheres Superabsorbent Polymer

The release of nutrients and the diffusion coefficients of an NPK fertilizer coated by carbon microspheres superabsorbent polymer (SCC) were evaluated. The morphology, chemical structure, water absorbency, release behavior in soil, and kinetic parameters of release behavior were studied. The maximum...

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Veröffentlicht in:	Chemical engineering & technology 2022-11, Vol.45 (11), p.2008-2014
Hauptverfasser:	Che Ani, Norlirabiatuladawiyah, Ghazali, Suriati, Ahmed Khan, Tanveer, Kim, Hyun-Joong, Jamari, Saidatul Shima
Format:	Artikel
Sprache:	eng
Schlagworte:	Carbon Carbon microspheres Diffusion coating Fertilizers Microspheres Nutrients Release kinetics Superabsorbent polymers Water absorption
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container_end_page	2014
container_issue	11
container_start_page	2008
container_title	Chemical engineering & technology
container_volume	45
creator	Che Ani, Norlirabiatuladawiyah Ghazali, Suriati Ahmed Khan, Tanveer Kim, Hyun-Joong Jamari, Saidatul Shima
description	The release of nutrients and the diffusion coefficients of an NPK fertilizer coated by carbon microspheres superabsorbent polymer (SCC) were evaluated. The morphology, chemical structure, water absorbency, release behavior in soil, and kinetic parameters of release behavior were studied. The maximum water absorbency was observed at 2 wt % of carbon microspheres in the polymer. The release rate of NPK‐coated superabsorbent polymer (SAP) was 12 % slower than that of uncoated NPK fertilizer but 24 % faster than that of NPK fertilizer coated by SCC. NPK coated by SCC fitted well with the Korsmeyer‐Peppas model compared to NPK coated by SAP. The addition of carbon microspheres enhanced the functionality of the superabsorbent polymer and release behavior of the fertilizer solutions. To improve the utilization rate of an NPK fertilizer, an alternative way to enhance the application of the fertilizer and usage of water by crops is proposed. The NPK fertilizer was coated with a polymer material to control its dissolution rate. A slow‐release fertilizer can be a promising solution to reduce the fertilizer consumption and to minimize the nutrients leaching problem.
doi_str_mv	10.1002/ceat.202200270
format	Article
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subjects	Carbon Carbon microspheres Diffusion coating Fertilizers Microspheres Nutrients Release kinetics Superabsorbent polymers Water absorption
title	Nutrients Release Evaluation on NPK Fertilizer Coated by a Carbon Microspheres Superabsorbent Polymer
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