Performance evaluation of gravity-driven bioreactor (GDB) for simultaneous treatment of black liquor and domestic wastewater

Tabassum Rasool; Muhammad Ansar; Irfan Ali; Muhammad Ishtiaq Ali; Asif Jamal; Malik Badshah; Zaixing Huang; Michael Urynowicz

doi:10.1007/s11356-023-31576-4

Performance evaluation of gravity-driven bioreactor (GDB) for simultaneous treatment of black liquor and domestic wastewater

Environ Sci Pollut Res Int. 2024 Jan;31(5):7043-7057. doi: 10.1007/s11356-023-31576-4. Epub 2023 Dec 29.

Authors

Tabassum Rasool¹, Muhammad Ansar¹, Irfan Ali², Muhammad Ishtiaq Ali¹, Asif Jamal³, Malik Badshah¹, Zaixing Huang⁴, Michael Urynowicz⁴

Affiliations

¹ Department of Microbiology, Applied and Environmental Microbiology Research Laboratory, Quaid-I-Azam University, Islamabad, 45320, Pakistan.
² Centre of Agricultural Biochemistry and Biotechnology, University of Agriculture, Faisalabad, 38000, Pakistan.
³ Department of Microbiology, Applied and Environmental Microbiology Research Laboratory, Quaid-I-Azam University, Islamabad, 45320, Pakistan. asifjamal@qau.edu.pk.
⁴ Department of Civil and Architectural Engineering, Wyoming University, Laramie, WY, 82071, USA.

PMID: 38157168
DOI: 10.1007/s11356-023-31576-4

Abstract

A lab-scale gravity-driven bioreactor (GDB) was designed and constructed to evaluate the simultaneous treatment of black liquor and domestic wastewater. The GDB was operated with a mixture of black liquor and domestic wastewater at a ratio of 1:1 and maintained at an average organic loading rate of 1235 mg-COD/L-Day. The wastewater was fed to the primary sedimentation tank at a flow rate of approximately 12 mL/min and subsequently passed through serially connected anaerobic and aerobic chambers with the same flow rate. Each wastewater sample was allowed to undergo a hydraulic retention time of approximately 72 h, ensuring effective treatment. The GDB was actively operated for nine samples (W1-W9) at a weekly frequency. The entire process was conducted within the workstation's ambient temperature range of 30-35 °C to sustain microbial activity and treatment efficiency in an open environment. The performance of the GDB was evaluated in terms of various pollution indicators, including COD, BOD₅, lignin removal, TDS, TSS, EC, PO₄^3-, SO₄^2-, microbial load (CFU/mL and MPN index), total nitrogen, and color reduction. The results showed that the GDB achieved promising treatment efficiencies: 84.5% for COD, 71.80% for BOD₅, 82.8% for TDS, 100% for TSS, 74.71% for E.C., 67.25% for PO₄^3-, 81% for SO₄^2-, and 69.36% for TN. Additionally, about 80% reduction in lignin content and 57% color reduction were observed after the treatment. The GDB substantially reduced microbial load in CFU/mL (77.98%) and MPN (90%). This study marks the first to report on wastewater treatment from two different sources (black liquor and domestic wastewater) using a simple GDB design. Furthermore, it highlights the GDB's potential as a cost-effective, environmentally friendly, and efficient solution for wastewater treatment, with no need for supplementary chemical or physical agents and zero operational costs.

Keywords: Black liquor; Domestic wastewater; Gravity-driven bioreactor; Microbial contamination; Wastewater treatment.

MeSH terms

Bioreactors
Lignin
Waste Disposal, Fluid / methods
Wastewater*
Water Purification*

Substances

Wastewater
Lignin

Grants and funding

6871/Higher Education Commision, Pakistan