Old Landfill Leachate and Municipal Wastewater Co-Treatment by Sequencing Batch Reactor Combined with Coagulation–Flocculation Using Novel Flocculant

Kumar, R. Naresh; Sadaf, Somya; Verma, Mohan L.; Chakraborty, Shubhrasekhar; Kumari, Shweta; Polisetti, Veerababu; Kallem, Parashuram; Iqbal, Jawed; Banat, Fawzi

doi:10.3390/su15108205

Cited by 4 publications

(2 citation statements)

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“…The evaluation of the biological technique operating circumstances is made possible by control relationship conditions such as the sludge retention time (SRT), food-microorganism ratio (F/M), and hydraulic retention time (HRT) and cell residence time (sludge age) [1]. Leachate transfer processes, such as co-treatment of leachate with wastewater [91], evaporation [11], and recycling of nutrients from wastewater, thus save energy consumption or produce biofuels [135]. The final waste of treatment (such as sludge and biomass) can be used as agricultural fertilizers [144].…”

Section: Combined Treatment Processesmentioning

confidence: 99%

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An Extensive Analysis of Combined Processes for Landfill Leachate Treatment

Jamrah,

AL-Zghoul,

Al-Qodah

2024

Water

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Sanitary landfilling is the predominant process for solid urban waste disposal, but it generates leachate that poses environmental, economic, and social concerns. Landfill leachate (LL) contains complex and refractory pollutants and toxic compounds that can vary depending on landfill maturity, age, and biochemical reactions, making its treatment challenging. Due to its unique characteristics and occurrence in remote locations, LL requires separate treatment from wastewater. Various conventional treatment processes involving biological, chemical, and physical processes have been used for LL treatment, but a single treatment process is insufficient to meet environmental standards. This review demonstrates that combined treatment processes are more effective and efficient for LL treatment compared to single processes. Among the various combinations, chemical–chemical and chemical–biological treatments are the most commonly used. Specifically, the integration of Fenton with adsorption and a membrane bioreactor (MBR) with nanofiltration (NF) processes shows promising results. The combined processes of MBR with NF, Fenton with adsorption, and PF with biological treatment show maximum removal efficiencies for COD, reaching 99 ± 1%, 99%, 98%, and 97%, respectively. Additionally, the combined Fenton with adsorption process and EC with SPF process enhance biodegradability as indicated by increased BOD5/COD ratios, from 0.084 to 0.82 and 0.35 to 0.75, respectively. The findings emphasize the importance of developing and implementing enhanced combined treatment processes for LL, with the aim of achieving efficient and comprehensive pollutant mineralization. Such processes have the potential to address the environmental concerns associated with LL and contribute to sustainable waste management practices.

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Section: Combined Treatment Processesmentioning

confidence: 99%

“…• This approach is particularly well suited for developing countries that have ample available land and limited financial resources. [41,91,[115][116][117][118][119][120][121][122] Table 6. Cont.…”

mentioning

confidence: 99%