A comparative assessment of biomethane potential of fresh fecal matter and fecal sludge and its correlation with malodor

Author:

Choudhury Atun Roy1,Singh Neha2,Lalwani Jitesh3,Rao Goriparthi Mallikarjuna3,Prakash Konyala Bhanu3,Chiradeep Nadella3,Abhishek Nayakwadi3,Palani Sankar Ganesh4ORCID

Affiliation:

1. BITS Hyderabad: Birla Institute of Technology & Science Pilani - Hyderabad Campus

2. Banka BioLoo Limited

3. Vardhaman College of Engineering

4. Birla Institute of Technology & Science Pilani - Hyderabad Campus

Abstract

Abstract Comprehensive and proper management of fecal sludge (FS) is an ongoing concern in many nations. Decentralized fecal sludge treatment plants (FSTPs) are effective in this regard; however, many have experienced strong public opposition, based partly on suspicion of malodor. Fecal sludge and freshly generated fecal matter (FM) samples from various FSTPs were collected, characterized, and investigated for biomethane potential. The homogenized samples were anaerobically digested for 28 days. Digestion successfully reduced total suspended solids, biochemical oxygen demand, and threshold odor number values of 97,350-97,420 mg/l, 43,230-43,260 mg/l, and 130-150 for FM, to 49,500-49,650 mg/l, 23,760-23,850 mg/l, and 33-38, respectively, for FS samples. The comprehensive gas yield from Bhongir, Boduppal, and Shadnagar FS samples was 40, 55, and 31 ml, respectively. In contrast, cumulative gas generation from the FM was 26,361 ml. Digestion of FS samples also reduced concentrations of volatile solids and coliforms by 66-72% and 99%, respectively. Characterization of gas samples revealed methane and carbon dioxide concentrations as 56% and 22% for FM, and 0.4% and 61% for FS samples, respectively. Hydrogen sulfide and ammonia gas were absent in FS samples, dispelling common societal misconceptions of FSTPs being associated with malodor.

Publisher

Research Square Platform LLC

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