Effect of Wood Waste and Sunflower Husk Biochar on Tensile Strength and Porosity of Dystric Cambisol Artificial Aggregates

Effect of Wood Waste and Sunflower Husk Biochar on Tensile Strength and Porosity of Dystric Cambisol Artificial Aggregates

This paper focuses on the tensile strength (<i>Q</i>) and porosity of Dystric Cambisol cylinders with and without biochars (0.1% or 5% dose) obtained from wood waste (BC1) and sunflower husks (BC2). The experiments were performed on air-dried and wetted artificial aggregates remolded fro...

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Main Authors: Zofia Sokołowska, Katarzyna Szewczuk-Karpisz, Marcin Turski, Agnieszka Tomczyk, Marta Cybulak, Kamil Skic
Format: Article
Language:English
Published: MDPI AG 2020-02-01
Series:Agronomy
Subjects:
remolded soil aggregates
cylinders
biochar
tensile strength
organic carbon content
porosity
Online Access:https://www.mdpi.com/2073-4395/10/2/244
id doaj-78808e60509741ef928fbca7d5673927
record_format Article
spelling doaj-78808e60509741ef928fbca7d56739272021-04-02T05:23:54ZengMDPI AGAgronomy2073-43952020-02-0110224410.3390/agronomy10020244agronomy10020244Effect of Wood Waste and Sunflower Husk Biochar on Tensile Strength and Porosity of Dystric Cambisol Artificial AggregatesZofia Sokołowska0Katarzyna Szewczuk-Karpisz1Marcin Turski2Agnieszka Tomczyk3Marta Cybulak4Kamil Skic5Institute of Agrophysics, Polish Academy of Sciences, 20-290 Lublin, PolandInstitute of Agrophysics, Polish Academy of Sciences, 20-290 Lublin, PolandInstitute of Agrophysics, Polish Academy of Sciences, 20-290 Lublin, PolandInstitute of Agrophysics, Polish Academy of Sciences, 20-290 Lublin, PolandInstitute of Agrophysics, Polish Academy of Sciences, 20-290 Lublin, PolandInstitute of Agrophysics, Polish Academy of Sciences, 20-290 Lublin, PolandThis paper focuses on the tensile strength (<i>Q</i>) and porosity of Dystric Cambisol cylinders with and without biochars (0.1% or 5% dose) obtained from wood waste (BC1) and sunflower husks (BC2). The experiments were performed on air-dried and wetted artificial aggregates remolded from unfractionated soil and its selected fractions (1&#8722;0.25, 0.25&#8722;0.1, 0.1&#8722;0.05, and &lt;0.05 mm). The obtained results indicated that the biochar addition reduced the tensile strength of all examined samples, regardless of the type of biomass used in pyrolysis. This effect was more significant with the larger biochar dose of 5%. When cylinders formed from a wetted 1&#8722;0.25 mm fraction with 5% BC2, the <i>Q</i> reduction equaled as much as 0.048 MPa. The noted decrease in tensile strength was mainly associated with the formation of macropores in the cylinders (of maximum radii: 4.77 &#181;m BC1 and 5.78 &#956;m BC2). The highest tensile strength was observed in the air-dried samples formed from the largest silica-rich fraction (1&#8722;0.25 mm) without biochar (0.078 MPa for the air-dried cylinders and 0.066 MPa for the wetted ones). The higher <i>Q</i> parameter for the air-dried remolded soil aggregates was probably related to the dehydration of soil gels and the thermal transformation of iron and alumina oxides during drying.https://www.mdpi.com/2073-4395/10/2/244remolded soil aggregatescylindersbiochartensile strengthorganic carbon contentporosity
collection DOAJ
language English
format Article
sources DOAJ
author Zofia Sokołowska
Katarzyna Szewczuk-Karpisz
Marcin Turski
Agnieszka Tomczyk
Marta Cybulak
Kamil Skic
spellingShingle Zofia Sokołowska
Katarzyna Szewczuk-Karpisz
Marcin Turski
Agnieszka Tomczyk
Marta Cybulak
Kamil Skic
Effect of Wood Waste and Sunflower Husk Biochar on Tensile Strength and Porosity of Dystric Cambisol Artificial Aggregates
Agronomy
remolded soil aggregates
cylinders
biochar
tensile strength
organic carbon content
porosity
author_facet Zofia Sokołowska
Katarzyna Szewczuk-Karpisz
Marcin Turski
Agnieszka Tomczyk
Marta Cybulak
Kamil Skic
author_sort Zofia Sokołowska
title Effect of Wood Waste and Sunflower Husk Biochar on Tensile Strength and Porosity of Dystric Cambisol Artificial Aggregates
title_short Effect of Wood Waste and Sunflower Husk Biochar on Tensile Strength and Porosity of Dystric Cambisol Artificial Aggregates
title_full Effect of Wood Waste and Sunflower Husk Biochar on Tensile Strength and Porosity of Dystric Cambisol Artificial Aggregates
title_fullStr Effect of Wood Waste and Sunflower Husk Biochar on Tensile Strength and Porosity of Dystric Cambisol Artificial Aggregates
title_full_unstemmed Effect of Wood Waste and Sunflower Husk Biochar on Tensile Strength and Porosity of Dystric Cambisol Artificial Aggregates
title_sort effect of wood waste and sunflower husk biochar on tensile strength and porosity of dystric cambisol artificial aggregates
publisher MDPI AG
series Agronomy
issn 2073-4395
publishDate 2020-02-01
description This paper focuses on the tensile strength (<i>Q</i>) and porosity of Dystric Cambisol cylinders with and without biochars (0.1% or 5% dose) obtained from wood waste (BC1) and sunflower husks (BC2). The experiments were performed on air-dried and wetted artificial aggregates remolded from unfractionated soil and its selected fractions (1&#8722;0.25, 0.25&#8722;0.1, 0.1&#8722;0.05, and &lt;0.05 mm). The obtained results indicated that the biochar addition reduced the tensile strength of all examined samples, regardless of the type of biomass used in pyrolysis. This effect was more significant with the larger biochar dose of 5%. When cylinders formed from a wetted 1&#8722;0.25 mm fraction with 5% BC2, the <i>Q</i> reduction equaled as much as 0.048 MPa. The noted decrease in tensile strength was mainly associated with the formation of macropores in the cylinders (of maximum radii: 4.77 &#181;m BC1 and 5.78 &#956;m BC2). The highest tensile strength was observed in the air-dried samples formed from the largest silica-rich fraction (1&#8722;0.25 mm) without biochar (0.078 MPa for the air-dried cylinders and 0.066 MPa for the wetted ones). The higher <i>Q</i> parameter for the air-dried remolded soil aggregates was probably related to the dehydration of soil gels and the thermal transformation of iron and alumina oxides during drying.
topic remolded soil aggregates
cylinders
biochar
tensile strength
organic carbon content
porosity
url https://www.mdpi.com/2073-4395/10/2/244
work_keys_str_mv AT zofiasokołowska effectofwoodwasteandsunflowerhuskbiocharontensilestrengthandporosityofdystriccambisolartificialaggregates
AT katarzynaszewczukkarpisz effectofwoodwasteandsunflowerhuskbiocharontensilestrengthandporosityofdystriccambisolartificialaggregates
AT marcinturski effectofwoodwasteandsunflowerhuskbiocharontensilestrengthandporosityofdystriccambisolartificialaggregates
AT agnieszkatomczyk effectofwoodwasteandsunflowerhuskbiocharontensilestrengthandporosityofdystriccambisolartificialaggregates
AT martacybulak effectofwoodwasteandsunflowerhuskbiocharontensilestrengthandporosityofdystriccambisolartificialaggregates
AT kamilskic effectofwoodwasteandsunflowerhuskbiocharontensilestrengthandporosityofdystriccambisolartificialaggregates
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