Ali A. Al-Homaidan scite author profile

Organic and inorganic substances which were released into the environment as a result of domestic, agricultural and industrial water activities lead to organic and inorganic pollution. The normal primary and secondary treatment processes of these wastewaters have been introduced in a growing number of places, in order to eliminate the easily settled materials and to oxidize the organic material present in wastewater. The final result is a clear, apparently clean effluent which is discharged into natural water bodies. This secondary effluent is, however, loaded with inorganic nitrogen and phosphorus and causes eutrophication and more long-term problems because of refractory organics and heavy metals that are discharged. Microalgae culture offers an interesting step for wastewater treatments, because they provide a tertiary biotreatment coupled with the production of potentially valuable biomass, which can be used for several purposes. Microalgae cultures offer an elegant solution to tertiary and quandary treatments due to the ability of microalgae to use inorganic nitrogen and phosphorus for their growth. And also, for their capacity to remove heavy metals, as well as some toxic organic compounds, therefore, it does not lead to secondary pollution. In the current review we will highlight on the role of micro-algae in the treatment of wastewater.

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Marine microorganisms as an untapped source of bioactive compounds

Ameen

AlNadhari

Al-Homaidan

2021

Saudi Journal of Biological Sciences

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Biosorption of copper ions from aqueous solutions by Spirulina platensis biomass

Al-Homaidan

Al-Houri

Al-Hazzani

et al. 2014

Arabian Journal of Chemistry

137

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Agricultural importance of algae

Abdel-Raouf¹,

Al-Homaidan²,

Ibraheem³

2012

Afr. J. Biotechnol.

111

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Adsorptive removal of cadmium ions by Spirulina platensis dry biomass

Al-Homaidan

Alabdullatif

Al-Hazzani

et al. 2015

Saudi Journal of Biological Sciences

110

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Cadmium is one of the most toxic substances found in aquatic ecosystems. This metal tends to accumulate in photosynthetic plants and fish and is transferred to humans causing many diseases. It has to be removed from our environment to reduce any health risks. Dry biomass of the microalga (cyanobacterium) Spirulina platensis was used as biosorbent for the removal of cadmium ions (Cd(2+)) from aqueous solutions. The effects of different levels of pH (3-9), biomass concentration (0.25-2 g), temperature (18-46 °C), metal concentration (40-200 mg/l) and contact time (30-120 min) were tested. Batch cultures were carried out in triplicate in an orbital shaker at 150 rpm. After centrifuging the biomass, the remaining levels of cadmium ions were measured in the supernatant by Atomic Absorption Spectrometer. Very high levels of removal, reaching up to 87.69% were obtained. The highest percentage of removal was reached at pH 8, 2 g of biosorbent, 26 °C, and 60 mg/l of cadmium concentration after 90 min of contact time. Langmuir and Freundlich isotherm models were applied to describe the adsorption isotherm of the metal ions by S. platensis. Langmuir model was found to be in better correlation with experimental data (R (2) = 0.92). Results of this study indicated that S. platensis is a very good candidate for the removal of heavy metals from aquatic environments. The process is feasible, reliable and eco-friendly.

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Ali A. Al-Homaidan

Microalgae and wastewater treatment

Marine microorganisms as an untapped source of bioactive compounds

Biosorption of copper ions from aqueous solutions by Spirulina platensis biomass

Agricultural importance of algae

Adsorptive removal of cadmium ions by Spirulina platensis dry biomass

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