Fly ash geopolymer as a coating material for controlled-release fertilizer based on granulated urea

Nitrogen loss from urea fertiliser due to its high solubility characteristics has led to the invention of controlled release urea (CRU). Majority of existing CRU coatings are produced from a non-biodegradable, toxic and expensive synthetic polymers. This study determines the feasibility of fly ash-b...

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Published inRSC advances Vol. 12; no. 51; pp. 33187 - 33199
Main Authors Hamidi, Rashidah Mohamed, Siyal, Ahmer Ali, Luukkonen, Tero, Shamsuddin, Rashid M, Moniruzzaman, Muhammad
Format Journal Article
LanguageEnglish
Published Cambridge Royal Society of Chemistry 21.11.2022
The Royal Society of Chemistry
Subjects
Biodegradability
Chemistry
Coatings
Compressive strength
Controlled release
Feasibility studies
Fertilizers
Fly ash
Geopolymers
Granulation
Pore size
Porosity
Protective coatings
Soil porosity
Soil water
Soils
Ureas
Workability
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Abstract Nitrogen loss from urea fertiliser due to its high solubility characteristics has led to the invention of controlled release urea (CRU). Majority of existing CRU coatings are produced from a non-biodegradable, toxic and expensive synthetic polymers. This study determines the feasibility of fly ash-based geopolymer as a coating material for urea fertilizer. The effects of fly ash particle size (15.2 μm, 12.0 μm, and 8.6 μm) and solid to liquid (S : L) ratio (3 : 1, 2.8 : 1, 2.6 : 1, 2.4 : 1 and 2.2 : 1) on the geopolymer coating, the characterization such as FTIR analysis, XRD analysis, surface area and pore size analysis, setting time analysis, coating thickness, and crushing strength, and the release kinetics of geopolymer coated urea in water and soil were determined. Lower S : L ratio was beneficial in terms of workability, but it had an adverse impact on geopolymer properties where it increased porosity and decreased mechanical strength to an undesirable level for the CRU application. Geopolymer coated urea prepared from the finest fly ash fraction and lowest S : L ratio demonstrated high mechanical strength and slower urea release profile. Complete urea release was obtained in 132 minutes in water and 15 days in soil from geopolymer-coated urea whereas for uncoated urea it took only 20 minutes in water and 3 days in soil. Thus, geopolymer can potentially be used as a coating material for urea fertilizer to replace commonly used expensive and biodegradable polymer-based coatings. The effect of fly ash particle size and solid to liquid ratio on the performance of geopolymer as a coating material for controlled release urea was investigated. Geopolymer coated urea completely released in 132 minutes in water and 15 days in soil.
AbstractList Nitrogen loss from urea fertiliser due to its high solubility characteristics has led to the invention of controlled release urea (CRU). Majority of existing CRU coatings are produced from a non-biodegradable, toxic and expensive synthetic polymers. This study determines the feasibility of fly ash-based geopolymer as a coating material for urea fertilizer. The effects of fly ash particle size (15.2 μm, 12.0 μm, and 8.6 μm) and solid to liquid (S : L) ratio (3 : 1, 2.8 : 1, 2.6 : 1, 2.4 : 1 and 2.2 : 1) on the geopolymer coating, the characterization such as FTIR analysis, XRD analysis, surface area and pore size analysis, setting time analysis, coating thickness, and crushing strength, and the release kinetics of geopolymer coated urea in water and soil were determined. Lower S : L ratio was beneficial in terms of workability, but it had an adverse impact on geopolymer properties where it increased porosity and decreased mechanical strength to an undesirable level for the CRU application. Geopolymer coated urea prepared from the finest fly ash fraction and lowest S : L ratio demonstrated high mechanical strength and slower urea release profile. Complete urea release was obtained in 132 minutes in water and 15 days in soil from geopolymer-coated urea whereas for uncoated urea it took only 20 minutes in water and 3 days in soil. Thus, geopolymer can potentially be used as a coating material for urea fertilizer to replace commonly used expensive and biodegradable polymer-based coatings. The effect of fly ash particle size and solid to liquid ratio on the performance of geopolymer as a coating material for controlled release urea was investigated. Geopolymer coated urea completely released in 132 minutes in water and 15 days in soil.
Nitrogen loss from urea fertiliser due to its high solubility characteristics has led to the invention of controlled release urea (CRU). Majority of existing CRU coatings are produced from a non-biodegradable, toxic and expensive synthetic polymers. This study determines the feasibility of fly ash-based geopolymer as a coating material for urea fertilizer. The effects of fly ash particle size (15.2 μm, 12.0 μm, and 8.6 μm) and solid to liquid (S : L) ratio (3 : 1, 2.8 : 1, 2.6 : 1, 2.4 : 1 and 2.2 : 1) on the geopolymer coating, the characterization such as FTIR analysis, XRD analysis, surface area and pore size analysis, setting time analysis, coating thickness, and crushing strength, and the release kinetics of geopolymer coated urea in water and soil were determined. Lower S : L ratio was beneficial in terms of workability, but it had an adverse impact on geopolymer properties where it increased porosity and decreased mechanical strength to an undesirable level for the CRU application. Geopolymer coated urea prepared from the finest fly ash fraction and lowest S : L ratio demonstrated high mechanical strength and slower urea release profile. Complete urea release was obtained in 132 minutes in water and 15 days in soil from geopolymer-coated urea whereas for uncoated urea it took only 20 minutes in water and 3 days in soil. Thus, geopolymer can potentially be used as a coating material for urea fertilizer to replace commonly used expensive and biodegradable polymer-based coatings.
Author Luukkonen, Tero
Siyal, Ahmer Ali
Shamsuddin, Rashid M
Hamidi, Rashidah Mohamed
Moniruzzaman, Muhammad
AuthorAffiliation HICoE
Institute of Self-sustainable Building
Centre for Biofuel and Biochemical Research (CBBR)
Fibre and Particle Engineering Research Unit
Department of Chemical Engineering
Institute of Contaminant Management
Centre of Research in Ionic Liquids (CORIL)
Universiti Teknologi PETRONAS
University of Oulu
AuthorAffiliation_xml – name: Department of Chemical Engineering
– name: Fibre and Particle Engineering Research Unit
– name: HICoE
– name: Centre for Biofuel and Biochemical Research (CBBR)
– name: University of Oulu
– name: Centre of Research in Ionic Liquids (CORIL)
– name: Institute of Self-sustainable Building
– name: Universiti Teknologi PETRONAS
– name: Institute of Contaminant Management
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  givenname: Rashidah Mohamed
  surname: Hamidi
  fullname: Hamidi, Rashidah Mohamed
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  givenname: Ahmer Ali
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Snippet Nitrogen loss from urea fertiliser due to its high solubility characteristics has led to the invention of controlled release urea (CRU). Majority of existing...
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StartPage 33187
SubjectTerms Biodegradability
Chemistry
Coatings
Compressive strength
Controlled release
Feasibility studies
Fertilizers
Fly ash
Geopolymers
Granulation
Pore size
Porosity
Protective coatings
Soil porosity
Soil water
Soils
Ureas
Workability
Title Fly ash geopolymer as a coating material for controlled-release fertilizer based on granulated urea
URI https://www.proquest.com/docview/2739422378
https://search.proquest.com/docview/2740505697
https://pubmed.ncbi.nlm.nih.gov/PMC9677526
Volume 12
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