Semi-batch cultivation of Chlorella sorokiniana AK-1 with dual carriers for the effective treatment of full strength piggery wastewater treatment
Journal
Bioresource Technology
Journal Volume
326
Date Issued
2021
Author(s)
Abstract
In this study, process optimization for the microalgae-based piggery wastewater treatment was carried out by growing Chlorella sorokiniana AK-1 on untreated piggery wastewater with efficient COD/BOD/TN/TP removal and high biomass/protein productivities. Integration of the immobilization carriers (sponge, activated carbon) and semi-batch cultivation resulted in the effective treatment of raw untreated piggery wastewater. With 100% wastewater, 0.2% sponge and 2% activated carbon, the semi-batch cultivation (90% media replacement every 6 days) exhibited a COD, BOD, TN and TP removal efficiency of 95.7%, 99.0%, 94.1% and 96.9%, respectively. The maximal protein content, protein productivity, lutein content, and lutein productivity of the obtained microalgal biomass was 61.1%, 0.48 g/L/d, 4.56 mg/g, and 3.56 mg/L/d, respectively. The characteristics of the treated effluent satisfied Taiwan Piggery Wastewater Discharge Standards (COD < 600 mg/L, BOD < 80 mg/L). This innovative approach demonstrated excellent performance for simultaneous piggery wastewater treatment and microalgal biomass production. ? 2021 Elsevier Ltd
Subjects
Activated carbon; Activated carbon treatment; Biomass; Cultivation; Effluents; Optimization; Productivity; Proteins; Reclamation; Chlorella sorokiniana; Dual carriers; Immobilization carriers; Innovative approaches; Microalgal biomass; Piggery wastewater; Protein contents; Treated effluent; Wastewater treatment; activated carbon; nitrogen; phosphorus; polyurethan; protein; xanthophyll; biomass; immobilization; microalga; optimization; protein; sponge; wastewater treatment; Article; biochemical oxygen demand; biomass; biomass production; cell adhesion; chemical oxygen demand; Chlorella sorokiniana; coculture; comparative study; controlled study; effluent; electron transport; immobilization; inoculation; microalga; nonhuman; nutrient; priority journal; process optimization; protein content; waste component removal; waste water management; Chlorella; microalga; Taiwan; wastewater; water management; Taiwan; Chlorella sorokiniana; Porifera; Biomass; Chlorella; Microalgae; Nitrogen; Taiwan; Waste Water; Water Purification
Type
journal article