Thermal kinetic analysis of the spent mushroom substrate and hydrochar

Kojić, Marija; Porobić, Slavica; Katnić, Đurica; Tadić, Julijana; Vasiljević, Bojana; Ožegović, Milica; Marinović-Cincović, Milena

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Abstract

A carbon-rich product, hydrochar, was synthesized by hydrothermal carbonization (HTC) of spent mushroom substrate (SMS), at temperature of 260 °C. The thermal kinetic analysis has shown that hydrothermally treatment improve the combustion behavior of hydrochar. The kinetic parameters were determined by Kissinger and Ozawa methods. The SMS-260 had a significantly lower activation energy compared to the SMS, which means that this hydrochar needs a smaller amount of energy to start combustion. Generally, the preliminary results show that HTC is an effective way to transform SMS into alternative solid biofuel.

Source:
27th International Symposium on Analytical and Environmental Problems, 2021, 168-170

Publisher:

Szeged : University of Szeged

Funding / projects:

ISBN: 978-963-306-835-9

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URI

https://ritnms.itnms.ac.rs/handle/123456789/733

Collections

Radovi istraživača / Researchers’ publications

Institution/Community

Institut za tehnologiju nuklearnih i drugih mineralnih sirovina

TY  - CONF
AU  - Kojić, Marija
AU  - Porobić, Slavica
AU  - Katnić, Đurica
AU  - Tadić, Julijana
AU  - Vasiljević, Bojana
AU  - Ožegović, Milica
AU  - Marinović-Cincović, Milena
PY  - 2021
UR  - https://ritnms.itnms.ac.rs/handle/123456789/733
AB  - A carbon-rich product, hydrochar, was synthesized by hydrothermal carbonization (HTC) of spent mushroom substrate (SMS), at temperature of 260 °C. The thermal kinetic analysis has shown that hydrothermally treatment improve the combustion behavior of hydrochar. The kinetic parameters were determined by Kissinger and Ozawa methods. The SMS-260 had a significantly lower activation energy compared to the SMS, which means that this hydrochar needs a smaller amount of energy to start combustion. Generally, the preliminary results show that HTC is an effective way to transform SMS into alternative solid biofuel.
PB  - Szeged : University of Szeged
C3  - 27th  International Symposium on Analytical and Environmental Problems
T1  - Thermal kinetic analysis of the spent mushroom substrate and hydrochar
EP  - 170
SP  - 168
ER  -

@conference{
author = "Kojić, Marija and Porobić, Slavica and Katnić, Đurica and Tadić, Julijana and Vasiljević, Bojana and Ožegović, Milica and Marinović-Cincović, Milena",
year = "2021",
abstract = "A carbon-rich product, hydrochar, was synthesized by hydrothermal carbonization (HTC) of spent mushroom substrate (SMS), at temperature of 260 °C. The thermal kinetic analysis has shown that hydrothermally treatment improve the combustion behavior of hydrochar. The kinetic parameters were determined by Kissinger and Ozawa methods. The SMS-260 had a significantly lower activation energy compared to the SMS, which means that this hydrochar needs a smaller amount of energy to start combustion. Generally, the preliminary results show that HTC is an effective way to transform SMS into alternative solid biofuel.",
publisher = "Szeged : University of Szeged",
journal = "27th  International Symposium on Analytical and Environmental Problems",
title = "Thermal kinetic analysis of the spent mushroom substrate and hydrochar",
pages = "170-168"
}

Kojić, M., Porobić, S., Katnić, Đ., Tadić, J., Vasiljević, B., Ožegović, M.,& Marinović-Cincović, M.. (2021). Thermal kinetic analysis of the spent mushroom substrate and hydrochar. in 27th  International Symposium on Analytical and Environmental Problems
Szeged : University of Szeged., 168-170.

Kojić M, Porobić S, Katnić Đ, Tadić J, Vasiljević B, Ožegović M, Marinović-Cincović M. Thermal kinetic analysis of the spent mushroom substrate and hydrochar. in 27th  International Symposium on Analytical and Environmental Problems. 2021;:168-170..

Kojić, Marija, Porobić, Slavica, Katnić, Đurica, Tadić, Julijana, Vasiljević, Bojana, Ožegović, Milica, Marinović-Cincović, Milena, "Thermal kinetic analysis of the spent mushroom substrate and hydrochar" in 27th  International Symposium on Analytical and Environmental Problems (2021):168-170.