Technical evaluation and optimization of a mobile septage treatment unit
Autor: | Aaron A. Forbis-Stokes, Arumugam Kalimuthu, Janani Ravindran, Marc A. Deshusses |
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Rok vydání: | 2020 |
Předmět: |
Environmental Engineering
Microfiltration 0208 environmental biotechnology Ultrafiltration Sewage India 02 engineering and technology 010501 environmental sciences Management Monitoring Policy and Law Onsite wastewater treatment 01 natural sciences Waste Disposal Fluid Mobile Septage Waste Management and Disposal 0105 earth and related environmental sciences Total suspended solids Biological Oxygen Demand Analysis Suspended solids Waste management business.industry Chemical oxygen demand General Medicine Onsite sewage facility 020801 environmental engineering Full-scale Environmental science business Research Article |
Zdroj: | Journal of Environmental Management |
ISSN: | 1095-8630 |
Popis: | A mobile septage treatment unit was built in India using readily available filters and membranes (mesh fabric, sand, granular activated carbon (GAC), microfilter, ultrafilter) and installed on the bed of a small truck. The target application was emptying of septic or sewage holding tanks and concentration of suspended solids while generating a liquid that could be discharged. The system was evaluated for operational and treatment performance while processing septage in the field at 108 sites in Tamil Nadu, India. After one phase of evaluation (Phase I), the system was improved and three replicate systems with slight modifications were fabricated for a second round of evaluation (Phase II) alongside the original, but modified unit. In Phase I, 105 m3 of septage was processed at an average flow of 623 L h−1 and with high removal efficiencies: 83% chemical oxygen demand (COD), 75% total suspended solids (TSS), and 98.4% total coliform (TC). In Phase II, the original and three new systems combined treated 168 m3 of septage. One of the new systems doubled in capacity and processed septage at an average flow of 2700 L h−1 while the other three averaged 1290 L h−1. The removal efficiencies in Phase II were 80% COD, 81% TSS, and 99% TC averaged between the four systems. Pass through of soluble contaminants (e.g. soluble COD, NH3–N) remain the primary challenge for treatment performance. Success may be limited with some septage due to seasonality, location, or septage age, and further validation and optimization may be necessary. However, the septage in this study was treated to local standards, and the system offers a method of onsite treatment while reducing the need of costly and often inefficient septage emptying services. Further, the system can be produced at a cost competitive to traditional septage hauling trucks. Graphical abstract Image 1 Highlights • A membrane treatment system was installed in a truck for mobile septage treatment. • The system provided high level of treatment at a high flow meeting local standards. • Capital cost of truck and system was comparable to trucks which only accept septage. • The possibility to treat septage at its source decreases burden of transport. |
Databáze: | OpenAIRE |
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