Product and cost perspectives of phosphorus recovery from human urine using solid waste ash and sea salt addition - A case of Thailand

Autor:	Yada Pinatha, Chongchin Polprasert, Andrew J. Englande
Rok vydání:	2019
Předmět:	Environmental Engineering food.ingredient 010504 meteorology & atmospheric sciences Struvite chemistry.chemical_element Magnesium Compounds 010501 environmental sciences engineering.material Wastewater Solid Waste 01 natural sciences Waste Disposal Fluid chemistry.chemical_compound food Animal science Water environment Environmental Chemistry Humans Waste Management and Disposal Ecosystem 0105 earth and related environmental sciences Chemistry Phosphorus Sea salt Thailand Pollution Incineration Fly ash Bottom ash engineering Fertilizer
Zdroj:	The Science of the total environment. 713
ISSN:	1879-1026
Popis:	Phosphorus (P) recovery from human urine was evaluated using the addition of MgCl2, sea salt and solid-waste (SW) incinerated ashes. The study objectives were to assess and compare their efficiency for P recovery, costs of chemicals added and relevant crystal characteristics. Results from the experiments conducted between pH range of 7–11 revealed that P precipitation efficiency was increased to 89–97% and 72–88% when MgCl2 and sea salt were added, respectively. Precipitates obtained from both cases were found to contain 10.8–17.1% P dry weight which is superior to commercial fertilizer (8.80% P). Based on SEM-EDS examination and chemical equilibrium thermodynamics, about 83% and 68% of precipitates were in the form of struvite for the addition of MgCl2 and sea salt, respectively. Although 18% less struvite was formed with sea salt added, cost was found to be reduced from 4.07 USD·(kg P)−1 for MgCl2 addition to 2.91 USD·(kg P)−1 using sea salt addition, representing a 28% cost reduction. Furthermore, SW ashes added into the urine increased P recovery efficiency about 6–17%. Addition also lowered the costs to 1.75 and 1.68 USD·(kg P)−1 for SW fly ash and bottom ash, respectively. Thus, ash addition reduced cost and provided an alternative to landfill disposal. However, addition of SW bottom ash might result in recovered P solids with lead concentration exceeding the EC limit for inorganic fertilizer. In summary, results of this study have demonstrated a pragmatic way to recover P from human urine with the use of sea salt and ash as alternative Mg source and seed. Results indicate that this practice not only produces a good-quality fertilizer as struvite for sustainable P management, but also helps protect the water environment, and support circular economy of P in human ecosystem.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::e49e23cda791de00f05896eda2d55321 https://pubmed.ncbi.nlm.nih.gov/31951836 Zobrazit plný text záznamu Full Text from ScienceDirect