Woven-Fiber Microfiltration (WFMF) and Ultraviolet Light Emitting Diodes (UV LEDs) for Treating Wastewater and Septic Tank Effluent

Decentralized wastewater treatment systems enable wastewater to be treated at the source for cleaner discharge into the environment, protecting public health while allowing for reuse for agricultural and other purposes. This study, conducted in Thailand, investigated a decentralized wastewater treat...

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Bibliographic Details
Published in:Water (Basel) 2021-06, Vol.13 (11), p.1564
Main Authors: Beck, Sara E., Suwan, Poonyanooch, Rathnayeke, Thusitha, Nguyen, Thi Minh Hong, Huanambal-Sovero, Victor A., Boonyapalanant, Boonmee, Hull, Natalie M., Koottatep, Thammarat
Format: Article
Language:English
Subjects:
Bacteria
Bioreactors
Chemical oxygen demand
Coliforms
Cysts
Disinfectants
Disinfection
Disinfection & disinfectants
Domestic wastewater
Economic development
Effluent standards
Effluents
Feces
Flow velocity
Freshwater resources
Inactivation
Irrigation
Light emitting diodes
Low pressure
Membranes
Mercury
Mercury lamps
Microfiltration
Microorganisms
Nitrates
Nitrogen
Pathogens
Phages
Photochemicals
Plumbing fixtures
Population
Pore size
Pretreatment of water
Public health
Sanitation
Septic wastewater
Textiles
Toilet facilities
Turbidity
Ultraviolet radiation
Viruses
Wastewater treatment
Water quality
Water treatment
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Summary:Decentralized wastewater treatment systems enable wastewater to be treated at the source for cleaner discharge into the environment, protecting public health while allowing for reuse for agricultural and other purposes. This study, conducted in Thailand, investigated a decentralized wastewater treatment system incorporating a physical and photochemical process. Domestic wastewater from a university campus and conventional septic tank effluent from a small community were filtered through a woven-fiber microfiltration (WFMF) membrane as pretreatment for ultraviolet (UV) disinfection. In domestic wastewater, WFMF reduced TSS (by 79.8%), turbidity (76.5%), COD (38.5%), and NO3 (41.4%), meeting Thailand irrigation standards for every parameter except BOD. In septic tank effluent, it did not meet Thailand irrigation standards, but reduced TSS (by 77.9%), COD (37.6%), and TKN (13.5%). Bacteria (total coliform and Escherichia coli) and viruses (MS2 bacteriophage) passing through the membrane were disinfected by flow-through UV reactors containing either a low-pressure mercury lamp or light-emitting diodes (LEDs) emitting an average peak wavelength of 276 nm. Despite challenging and variable water quality conditions (2% < UVT < 88%), disinfection was predictable across water types and flow rates for both UV sources using combined variable modeling, which enabled us to estimate log inactivation of other microorganisms. Following UV disinfection, wastewater quality met the WHO standards for unrestricted irrigation.
ISSN:2073-4441
2073-4441
DOI:10.3390/w13111564