Train vacuum toilet blackwater: composition analysis, treatment and resource recovery opportunities.

Author:- Parmentier, D., Hassan, N., Dong, P., Goossensen, R., Barati, B., Van Hulle, S.W.H.
Category:- Journal; Year:- 2026
Discipline:- Environmental Science Discipline
School:- Life Science School

Abstract

The widespread integration of vacuum toilet technology, observed across diverse sanitation infrastructures such as trains, airplanes, festivals, and residential houses, not only achieves a remarkable 90% reduction in fresh water consumption but also demonstrates true sustainability. In this article, the composition of such vacuum toilet water from rush-hour trains is analyzed with respect to its subsequent treatment to meet stringent discharge limits for surface water. Based on this compositional analysis, opportunities for resource recovery of valuable substances (e.g., volatile fatty acids, phosphate, zinc, and silicon) and for biogas production are identified. Conventional pH adjustment was applied to show the potential of valuable mineral recovery (respectively, 50% of calcium, 66% of magnesium, 87% of zinc, 57% of ammonium, 99% of phosphate, and 30% of sulfate). Electrocoagulation flotation was explored at a low coagulant/tCOD ratio and proved to be a promising sanitation technology for COD and phosphate removal at 60% and 69%, respectively.

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