In conventional wastewater treatmen

In conventional wastewater treatment, N and P are
removed from wastewater in two separate processes. Usually,
N is converted to N2 gas through coupled nitrificationdenitrification
while P is precipitated with metal salts.
Microalgae, on the contrary, remove N and P from wastewater
in a single process. Microalgae absorb N and P from wastewater
and use these nutrients to produce biomass. Because
microalgae require both N and P to produce new biomass,
removal of one nutrient depends on the availability of the
other: microalgae cannot remove N without the presence of P
in the wastewater, or vice versa, because both nutrients are
essential for their growth. The concentrations of N and P in
wastewater are quite variable. In domestic wastewater, N
concentrations vary between 15 and 90 mg L
1 and P concentrations
between 4 and 20 mg L
1 (Abdelaziz et al., 2013;
Cai et al., 2013; Christenson and Sims, 2011). Because the
sources of N and P in wastewater are different, N and P concentrations
often vary independently from each other.
Human excreta are a source of both P and N while detergents,
soaps and personal care products contain P but little N (Smil,
2000; Tjandraatmadja et al., 2010). Because N and P removal
are coupled in microalgae, the fact that N and P concentrations
in wastewater vary independent from each other poses a
challenge when engineering nutrient removal from wastewater
using microalgae.