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1. An exploratory study on seawater-catalysed urine phosphorus recovery (SUPR).

Author

Dai, Ji, Tang, Wen-Tao, Zheng, Yi-Se, Mackey, Hamish R., Chui, Ho Kwong, van Loosdrecht, Mark C.M., and Chen, Guang-Hao

Subjects

*PHOSPHORUS content of seawater, *NONRENEWABLE natural resources, *SEWAGE purification, *COST effectiveness, *SEWAGE sludge precipitants

Abstract

Phosphorus (P) is a crucial and non-renewable resource, while it is excessively discharged via sewage, significant amounts originating from human urine. Recovery of P from source-separated urine presents an opportunity not only to recover this precious resource but also to improve downstream sewage treatment works. This paper proposes a simple and economic method to recover urine derived P by using seawater as a low-cost precipitant to form struvite, as Hong Kong has practised seawater toilet flushing as an alternative water resource since 1958. Chemical reactions, process conditions and precipitate composition for P precipitation in urine have been investigated to develop this new urine P recovery approach. This study concluded that ureolysis extent in a urine-seawater mixture determines the reaction pH that in turn influences the P recovery efficiency significantly; 98% of urine P can precipitate with seawater within 10 min when 40–75% of the urea in urine is ureolysed; the urine to seawater ratio alters the composition of the precipitates. The P content in the precipitates was found to be more than 9% when the urine fraction was 40% or higher. Magnesium ammonium phosphate (MAP) was confirmed to be the predominant component of the precipitates. [ABSTRACT FROM AUTHOR]

Published

2014