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AUTHOR(S): 

Tri Sesilia Safril, Bayu Indrawan Safril, Kunio Yoshikawa

 

TITLE

Commercial Demonstration of Solid Fuel Production from Municipal Solid Waste Employing the Hydrothermal Treatment

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ABSTRACT

This work aims to report the first commercial demonstration of solid fuel production from non-segregated municipal solid waste (MSW) employing the hydrothermal treatment (HTT) in Indonesia. The process starts from the supply of non-segregated MSW into the reactor, and then 220℃, 2.5MPa saturated steam is supplied into the reactor and the blades installed inside the reactor rotates to mix MSW and steam for about 30 minutes. Then the product is discharged after extracting steam. The product is powder-like substance and the moisture content is almost the same as the raw material, but is easily dried by natural drying. The inert material such as metal, glass and stones can be easily sieved out after drying. There is almost no bad smell in the solid products, and the products can be used as solid fuels which can be mixed with coal for power generation or cement production. Only 10-15% of the product is enough for steam production in a boiler. This study focuses on the product properties and mass & energy balances of the HTT commercial plant located in Indonesia with the treatment capacity of 50 tons/day.

 

KEYWORDS

Hydrothermal Treatment, Municipal Solid Waste, Solid Fuel Production

 

REFERENCES

[1] Pandji Prawisudha, Tomoaki Namioka and Kunio Yoshikawa, Coal alternative fuel production from municipal solid wastes employing hydrothermal treatment, Applied Energy, 90 (2012) 298-304.

[2] Muthuraman, M., Namioka, T. and Yoshikawa, K., A comparative study on co-combustion performance of municipal solid waste and Indonesian coal with high ash Indian coal: A thermogravimetric analysis. Fuel Process. Technol. 2010, 91, 550–558

[3] Marisamy Muthuraman, Tomoaki Namioka and Kunio Yoshikawa, Characteristics of co-combustion and kinetic study on hydrothermally treated municipal solid waste with different rank coals: A thermogravimetric analysis, Applied Energy, 87 (2010) 141-148

[4] Bayu Indrawan, Pandji Prawisudha and Kunio Yoshikawa, Combustion Characteristics of Chlorine-Free Solid Fuel Produced from Municipal Solid Waste by Hydrothermal Processing. Energies 2012, 5, 4446-4461

[5] Yuyan Hu, Pengfei Zhang, Dezhen Chen, Bin
Zhou, Jianyi Li, Xian-wei Li, Hydrothermal treatment of municipal solid waste incineration fly ash for dioxin decomposition, Elsevier, Volumes 207–208, Pages 79–85

[6] Laura Garcia Alba, Cristian Torri, Chiara Samorì, Jaapjan van der Spek, Daniele Fabbri, Sascha R. A. Kersten, and Derk W. F. (Wim) Brilman, Hydrothermal Treatment (HTT) of Microalgae: Evaluation of the Process As Conversion Method in an Algae Biorefinery Concept, Energy Fuels, 2012, 26 (1), pp 642–657

[7] P. Prawisudha, T. Namioka, and K. Yoshikawa, “Coal alternative fuel production from municipal solid wastes employing hydrothermal treatment,” Applied Energy, vol. 90, no. 1, pp. 298-304, 2012

[8] Liang Lu, Tomoaki Namioka and Kunio Yoshikawa, Effects of hydrothermal treatment on characteristics and combustion behaviors of municipal solid wastes, Applied Energy, 88 (2011) 3659-3664.

Cite this paper

Tri Sesilia Safril, Bayu Indrawan Safril, Kunio Yoshikawa. (2017) Commercial Demonstration of Solid Fuel Production from Municipal Solid Waste Employing the Hydrothermal Treatment. International Journal of Environmental Science, 2, 316-323

 

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