Litcius/Paper detail

Utilization of tannery wastewater for biofuel production: New insights on microalgae growth and biomass production

Mostafa Nagi, Meilin He, Dan Li, Temesgen Gebreluel, Cheng Bian, Changhai Wang

2020Scientific Reports97 citationsDOIOpen Access PDF

Abstract

Microalgae cultivation on tannery wastewater (TWW) has been examined in some studies as a possible biological application to reduce contamination load and discharge effluents safely. However, Growth aspects, different tolerate strains and enriching the medium were not well investigated. In our study we applied Scenedesmus sp., Chlorella variabilis and Chlorella sorokiniana with different TWW concentrations. C. sorokiniana and C. variabilis cell density, chlorophyll, and sugar content grew substantially as compared to control. C. sorokiniana biomass and total lipids folded three and two times in 25% and 40% TWW, respectively as compared to control. Scenedesmus sp. showed longer lag phase and lower performance compared to the other two strains. Kelp waste extract (KWE) was added to balance the nutrients supply for C. sorokiniana, of which growth and effluents indicators were then greatly promoted in all concentrations. As the lag phase was shortened from 8 to 4 days in 60% concentration, subsequently, chlorophyll, carbohydrates, biomass and total lipids appreciated by 184%, 400%, 162% and 135%, respectively. Furthermore, the COD and ammonium removals improved by 51% and 45%, respectively. These outcomes emphasize the suitability of using TWW for microalgae cultivation with the suitable concentration while adding kelp waste extract for further enhancement.

Topics & Concepts

Chlorella sorokinianaBiomass (ecology)ScenedesmusWastewaterNutrientBiologyBiofuelChlorophyllEffluentPulp and paper industryChlorellaFood scienceBotanyChemistryEnvironmental scienceAlgaeBiotechnologyAgronomyEnvironmental engineeringEcologyEngineeringAlgal biology and biofuel production
Utilization of tannery wastewater for biofuel production: New insights on microalgae growth and biomass production | Litcius