Sludge Dewatering and Mineralization in Sludge Treatment Reed Beds

Brix, Hans

doi:10.3390/w9030160

Cited by 64 publications

(28 citation statements)

References 35 publications

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“…It should also be noted that the sludge deposit is required to be disposed when its accumulation meets the capacity of the wetland bed. This highlights another purpose of septage treatment: stabilisation of the volatile organic matter and nutrient remaining in the sludge deposit to make sure that it can be safely disposed [8]. The degradation of these pollutants, so-called mineralisation, depends on the microbial activities, which mostly occur during the resting period.…”

Section: Discussionmentioning

confidence: 99%

“…The presence of vegetation is found to be advantageous in enhancing the dewatering efficiency [7]. The remaining organic matter in the dewatered septage at the wetland surface are stabilised through microbial decomposition, which is the so-called mineralisation [8]. In order to optimise the dewatering efficiency, the control of solids loading is typically employed as the feeding strategy.…”

Section: Introductionmentioning

confidence: 99%

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Dewatering and Treatment of Septage Using Vertical Flow Constructed Wetlands

Tan

Tang

et al. 2017

Technologies

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Abstract:The vertical flow constructed wetland (VFCW) has become an attractive decentralised technology for septage treatment. One of the main purposes of the septage treatment is to reduce the volume of raw septage through dewatering, where the solids content is retained in the wetland bed and the water content is released. The retention of solids forms a layer of sludge deposit at the wetland surface, and the drained water, the so-called leachate, typically contains a lower solids content. This article reports the performance of dewatering and filtration of a pilot-scale VFCW designed for septage treatment. A comparison between two feeding strategies, hydraulic loading rate (HLR) and solids loading rate (SLR), is presented. The dewatering efficiency through drainage was found to be dependent on the solids load. The removal of total solids (TS) and chemical oxygen demand (COD) were excellent as the quality of leachate showed that more than 90% of TS and COD were retained in the system. This study reveals that the feeding based on SLR delivered a more sustainable performance for dewatering and solids removal. The build-up of sludge deposit significantly deteriorated the dewatering efficiency through drainage, but it tended to improve the filtration capacity.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Dewatering and Treatment of Septage Using Vertical Flow Constructed Wetlands

Tan

Tang

et al. 2017

Technologies

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“…For Brix (2014), the fact of not having plants across the bed surface is one of the most common problems observed in CW. The plants reached a maximum height of 83.1 cm.…”

Section: Plants In the Sludge Unitmentioning

confidence: 99%

Treatment of Septic Tank Sludge in a Vertical Flow Constructed Wetland System

2017

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ABSTRACT:The study consisted of the evaluation of the treatment of septic tank sludge in a vertical constructed wetland system (CW), built according to the first stage of the French system. The system operated also for sewage treatment and one of the beds (area of 29.1 m², height of the support medium of 0.7 m and planted with Tifton 85 grass, Cynodon dactylon Pers), began to receive the application of sludge from clean-pit trucks once a week. The percolated liquid was directed to post-treatment in the other two beds of the French system. The application of the raw sludge had average hydraulic loading rate of 13.1 m³/m².year and solids loading rate of 81 kgTS/ m².year. The system improved the quality of percolated liquid in terms of carbonaceous and nitrogenous matter (average COD removal efficiencies of 82% and TKN of 63%), but the percolate post-treatment strategy did not result in substantial improvements. The dewatering of the accumulated sludge on top of the bed occurred satisfactorily (55% of dry solids), the Tifton 85 grass was resistant to the operational conditions and the system proved to be a compact technology (sludge treatment capacity of an equivalent population between 1140 and 3799 inhabitants in the unit of 29.1 m 2 , corresponding to 39 to 131 inhabitants per m 2 of surface area).

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“…Brix H. [9] presents an overview of the use of sludge treatment reed beds (STRBs) for sludge dewatering and mineralization. The design and operation requirements of STRBs are described, and their performance is summarized for final dry matter content, degree of mineralization, emission of greenhouse gases, and degradation of micro-pollutants.…”

Section: This Special Issuementioning

confidence: 99%

“…The design and operation requirements of STRBs are described, and their performance is summarized for final dry matter content, degree of mineralization, emission of greenhouse gases, and degradation of micro-pollutants. Although STRB application has been limited to northern Europe, it is identified as a technology with application potential in other climatic regions, as well as for several types of sludge [9].…”

Section: This Special Issuementioning

confidence: 99%

Constructed Wetlands for Water Treatment: New Developments

Carvalho

Arias

Brix

2017

Water

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Constructed wetlands (CWs) are currently regarded as established eco-technologies to treat water pollution. Although considered near-natural systems, they are totally engineered solutions for which research has been actively developed over the past decades. This paper provides a brief meta-analysis on the latest scientific publications in the field and an overview of the special issue focused on the new developments in the use of CWs for water treatment. The selected papers cover a wide range of relevant developments in the field, including the use of different CW system designs, the capacity to treat different types of pollutants, and studies aiming at getting a better understanding of the treatment processes in CWs.

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Sludge Dewatering and Mineralization in Sludge Treatment Reed Beds

Cited by 64 publications

References 35 publications

Dewatering and Treatment of Septage Using Vertical Flow Constructed Wetlands

Dewatering and Treatment of Septage Using Vertical Flow Constructed Wetlands

Treatment of Septic Tank Sludge in a Vertical Flow Constructed Wetland System

Constructed Wetlands for Water Treatment: New Developments

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