Hydrothermal Carbonization as an all-inclusive process for food-waste conversion

Simon Tradler; Siegfried Mayr; Markus Himmelsbach; Reinhold Priewasser; Werner Baumgartner; Anna Stadler

doi:10.1016/j.biteb.2018.04.009

Hydrothermal Carbonization as an all-inclusive process for food-waste conversion

Simon Tradler, Siegfried Mayr, Markus Himmelsbach, Reinhold Priewasser, Werner Baumgartner, Anna Stadler

Research output: Contribution to journal › Article › peer-review

Abstract

Food waste is highly energetic biomass but its recycling and disposal process is costly and time-intensive, and the wet, inhomogeneous waste is unwelcome in biomass plants. Searching for an alternative processing pathway, we studied the feasibility of a decentralized, small-scale hydrothermal carbonization plant. Restaurant food waste was converted at 200 °C for 6 h into high-quality hydrochar that has fuel qualities similar to those of lignite and which could be used for co-combustion. We successfully treated the liquid phase with ultraviolet radiation to minimize the total organic carbon and chemical oxygen demand in order to facilitate conventional disposal. Such a plant would pay for itself and begin to generate profit within eight years. We see hydrothermal carbonization in the catering industry as a sustainable and convenient solution for food-waste conversion.

Original language	English
Pages (from-to)	77-83
Number of pages	7
Journal	Bioresource Technology Reports
Volume	2
DOIs	https://doi.org/10.1016/j.biteb.2018.04.009
Publication status	Published - Jun 2018

Fields of science

305 Other Human Medicine, Health Sciences
206 Medical Engineering
106 Biology
211 Other Technical Sciences

JKU Focus areas

Mechatronics and Information Processing

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/j.biteb.2018.04.009

Cite this

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title = "Hydrothermal Carbonization as an all-inclusive process for food-waste conversion",

abstract = "Food waste is highly energetic biomass but its recycling and disposal process is costly and time-intensive, and the wet, inhomogeneous waste is unwelcome in biomass plants. Searching for an alternative processing pathway, we studied the feasibility of a decentralized, small-scale hydrothermal carbonization plant. Restaurant food waste was converted at 200 °C for 6 h into high-quality hydrochar that has fuel qualities similar to those of lignite and which could be used for co-combustion. We successfully treated the liquid phase with ultraviolet radiation to minimize the total organic carbon and chemical oxygen demand in order to facilitate conventional disposal. Such a plant would pay for itself and begin to generate profit within eight years. We see hydrothermal carbonization in the catering industry as a sustainable and convenient solution for food-waste conversion.",

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AU - Tradler, Simon

AU - Mayr, Siegfried

AU - Himmelsbach, Markus

AU - Priewasser, Reinhold

AU - Baumgartner, Werner

AU - Stadler, Anna

PY - 2018/6

Y1 - 2018/6

N2 - Food waste is highly energetic biomass but its recycling and disposal process is costly and time-intensive, and the wet, inhomogeneous waste is unwelcome in biomass plants. Searching for an alternative processing pathway, we studied the feasibility of a decentralized, small-scale hydrothermal carbonization plant. Restaurant food waste was converted at 200 °C for 6 h into high-quality hydrochar that has fuel qualities similar to those of lignite and which could be used for co-combustion. We successfully treated the liquid phase with ultraviolet radiation to minimize the total organic carbon and chemical oxygen demand in order to facilitate conventional disposal. Such a plant would pay for itself and begin to generate profit within eight years. We see hydrothermal carbonization in the catering industry as a sustainable and convenient solution for food-waste conversion.

AB - Food waste is highly energetic biomass but its recycling and disposal process is costly and time-intensive, and the wet, inhomogeneous waste is unwelcome in biomass plants. Searching for an alternative processing pathway, we studied the feasibility of a decentralized, small-scale hydrothermal carbonization plant. Restaurant food waste was converted at 200 °C for 6 h into high-quality hydrochar that has fuel qualities similar to those of lignite and which could be used for co-combustion. We successfully treated the liquid phase with ultraviolet radiation to minimize the total organic carbon and chemical oxygen demand in order to facilitate conventional disposal. Such a plant would pay for itself and begin to generate profit within eight years. We see hydrothermal carbonization in the catering industry as a sustainable and convenient solution for food-waste conversion.

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JO - Bioresource Technology Reports

JF - Bioresource Technology Reports

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