Development and prototype testing of a novel small-scale pyrolysis system for the treatment of sanitary sludge

Date published

2022-12-31

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Elsevier

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Article

ISSN

0196-8904

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Citation

Beik F, Williams L, Brown T, Wagland ST. (2023) Development and prototype testing of a novel small-scale pyrolysis system for the treatment of sanitary sludge. Energy Conversion and Management, Volume 277, February 2023, Article number 116627

Abstract

An innovative twin auger pyrolysis reactor for the intermediate conversion of partially wet sanitary faecal sludge generated on train toilets (mobile applications) is designed and successfully commissioned. The effects of operating temperature, feedstock feeding rates and moisture content and their interaction on the distribution and properties of product biofuels with the use of no carrier gas were assessed. Approximate yields of 50 %, 40 % and 10 % were observed for the biooil, syngas and biochar respectively at 500 °C. Meanwhile, the highest calorific value (HHV) of the syngas did not exceed 10 MJ/Nm3. Acidic compounds (10 % RPA) and nitrogen-containing hydrocarbons (18 % RPA) substituted the abundant species in biooil fraction at 500 °C with the lowest feed volumes of feedstock. Biochar presented the highest fixed carbon (58 %) and ash content (37 %) upon higher operating temperatures for the minimum and maximum volumes of feedstock. Interestingly, the retention of inorganics within the structure of char were observed. Meanwhile, the calorific value of the biochar reduced due to intensive reduction reactions at higher temperatures ranging to a minimum of 19 MJ/kg. Effects of reactor design and configuration on the pyrolytic products are discussed accordingly and further implications are provided. Overall, extensive further research for the end-use of pyrolytic products and the investigation of emissions, upon energy recovery or land-application of by-products are suggested.

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Software Description

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Github

Keywords

Pyrolysis, Gasification, Faecal sludge, Syngas, Biooil, Biochar

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Attribution 4.0 International

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