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Effects of pyrolysis and incineration on the phosphorus fertiliser potential of bio-waste- and plant-based materials

J.S. Robinson, Peter Leinweber

2023Waste Management15 citationsDOIOpen Access PDF

Abstract

Land application of biomass materials and their products of thermal treatment (biochars and ashes) can offset the unsustainable use of soluble P fertilisers. However, few evaluations of P fertiliser potential have systematically addressed diverse biomass types with contrasting P contents. This paper evaluates the relative P fertiliser potential of four P-rich biowastes (animal bone, poultry manure, pig slurry, and a municipal sewage sludge) and three low-P, plant-based materials (reeds [Phragmites australis L.], rice husks [Oryza sativa L.] and cocoa prunings [Theobroma cacao L.]) and their biochars and ashes. We utilised three complementary approaches: P extractability in single solvents (2% formic and citric acids, and 1 M neutral ammonium citrate); sequential chemical P fractionation, and P dissolution/desorption kinetics. In most cases, pyrolysis and incineration of the P-rich biowastes increased P extractability (% TP) in the single solvents, whilst decreasing water-soluble P. For pig slurry, for example, pyrolysis reduced water-soluble P 20-fold, with corresponding increases observed not only in the solvent-extractable P but also in the pool of potentially plant available, NaHCO3-Pi fraction (e.g., 17 to 35% TP). These complementary datasets were also evident for the low-P feedstocks and thermal products; e.g., pyrolysis increased the NaHCO3-Pi fraction in reed feedstock from 6 to 15% TP. For all biomass feedstocks, biochars and ashes, pseudo-second order P-release kinetics provided the best fit with the experimental data. The data demonstrate scope for using pyrolysis to upgrade the P fertiliser value of a wide range of biomass materials whilst reducing their environmental impact.

Topics & Concepts

PyrolysisBiocharChemistryBiomass (ecology)IncinerationHuskPoultry litterPulp and paper industrySlurryAnaerobic digestionRaw materialManureBioenergyEnvironmental chemistryFractionationAgronomyNutrientWaste managementBiofuelEnvironmental scienceEnvironmental engineeringBotanyOrganic chemistryMethaneBiologyEngineeringPhosphorus and nutrient managementAdsorption and biosorption for pollutant removalComposting and Vermicomposting Techniques
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