This article summarizes several developed and industrial technologies for nitrate removal
from drinking water, including physicochemical and biological techniques, with a focus on …

To meet the rising demand for biofuel, food, and feed, as well as pharmaceuticals,
microalgal-based biorefinery systems provide various advantages. Because of the …

Microalgae have received much attention in recent years as a feedstock for producing
renewable fuels. Microalgae cultivation technology is one of the main factors restricting …

The use of algal-bacterial symbiotic association establishes a sustainable and cost-effective
strategy in wastewater treatment. Using municipal wastewater, the removal performances of …

Conventional biological wastewater treatment processes are energy-intensive endeavors
that yield little or no recovered resources and often require significant external chemical …

A symbiotic microalgal-bacterial system may be an optional technology for wastewater
treatment. In this study, co-immobilized of a bacterium isolated from a municipal wastewater …

Simultaneous removal of nutrients (ammonium and phosphate) and COD was investigated
by the co-culture consortium of microalga Chlorella vulgaris and bacterium Pseudomonas …

Non-suspended microalgae cultivation technology coupled with wastewater purification has
received more scientific attention in recent decades. Since the non-suspended microalgae …

The effluents from wastewater contain nutrients (NH+ 4, NO− 3 and PO− 3 4) which have
been identified as the main causes leading to eutrophication in natural waters. Therefore …

Low microbial activity and serious membrane biofouling are still critical problems that hinder
the extensive application of membrane bioreactor (MBR) for industrial wastewater treatment …