Potential for production of biochar-based fertilizers from olive millwaste in mediterranean basin countries: An initial assessment for Spain, Tunisia, and Greece

Evan A.N. Marks; Vasiliki Kinigopoulou; Hanene Akrout; Ahmed Amine Azzaz; Charalampos Doulgeris; Salah Jellali; Carlos Rad; Paula Sánchez Zulueta; Evangelos Tziritis; Leila El-Bassi; Camélia Matei Ghimbeu; Mejdi Jeguirim

doi:10.3390/su12156081

Potential for production of biochar-based fertilizers from olive millwaste in mediterranean basin countries: An initial assessment for Spain, Tunisia, and Greece

Evan A.N. Marks^*, Vasiliki Kinigopoulou, Hanene Akrout, Ahmed Amine Azzaz, Charalampos Doulgeris, Salah Jellali, Carlos Rad, Paula Sánchez Zulueta, Evangelos Tziritis, Leila El-Bassi, Camélia Matei Ghimbeu, Mejdi Jeguirim

^*Corresponding author for this work

Environmental Studies & Research

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

17 Citations (Scopus)

Abstract

Olive mill wastes continue to be a management challenge due to the large volumes produced, particularly due to their toxicity and impacts on the environment. Thermal conversion through pyrolysis or hydrothermal carbonization techniques can detoxify wastes while conserving nutrient contents. In this work, we produced up-to-date data on olive mill waste flows in Spain, Tunisia, and Greece and characterized representative samples in the laboratory. Assays of thermal conversion of olive mill wastewaters and solid wastes were also performed to understand biochar yields and final properties, and the total quantities of nutrients contained were estimated. Of particular note were the quantities of potassium in Tunisian wastewaters, representing 0.6% of the total mass and an annual flow of approximately 5000 t, and in the Spanish solid wastes, an average of 1.7% of the total mass is potassium, representing an annual flow of approximately 23,000 t. Concerning phosphorus, Spanish solid wastes had the highest contents (0.1%), double that of other countries' wastes. Annually, olive mill wastes from the three countries are estimated to contain approximately 35 × 10³ tons of potassium and 2.6 × 10³ tons of phosphorus. With this resource converted to biochar, each year more than 700 km² of soils could be enriched in 0.2% carbon with biochar at an application rate of 7 t ha^-1.

Original language	English
Article number	6081
Journal	Sustainability (Switzerland)
Volume	12
Issue number	15
DOIs	https://doi.org/10.3390/su12156081
Publication status	Published - Aug 2020

Keywords

Biochar
Carbon
Hydrochar
Mediterranean Basin
Nutrients
Olive mill solid waste
Olive mill wastewater

ASJC Scopus subject areas

Geography, Planning and Development
Renewable Energy, Sustainability and the Environment
Environmental Science (miscellaneous)
Energy Engineering and Power Technology
Management, Monitoring, Policy and Law

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10.3390/su12156081

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Marks, E. A. N., Kinigopoulou, V., Akrout, H., Azzaz, A. A., Doulgeris, C., Jellali, S., Rad, C., Zulueta, P. S., Tziritis, E., El-Bassi, L., Ghimbeu, C. M., & Jeguirim, M. (2020). Potential for production of biochar-based fertilizers from olive millwaste in mediterranean basin countries: An initial assessment for Spain, Tunisia, and Greece. Sustainability (Switzerland), 12(15), [6081]. https://doi.org/10.3390/su12156081

Marks, EAN, Kinigopoulou, V, Akrout, H, Azzaz, AA, Doulgeris, C, Jellali, S, Rad, C, Zulueta, PS, Tziritis, E, El-Bassi, L, Ghimbeu, CM & Jeguirim, M 2020, 'Potential for production of biochar-based fertilizers from olive millwaste in mediterranean basin countries: An initial assessment for Spain, Tunisia, and Greece', Sustainability (Switzerland), vol. 12, no. 15, 6081. https://doi.org/10.3390/su12156081

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title = "Potential for production of biochar-based fertilizers from olive millwaste in mediterranean basin countries: An initial assessment for Spain, Tunisia, and Greece",

abstract = "Olive mill wastes continue to be a management challenge due to the large volumes produced, particularly due to their toxicity and impacts on the environment. Thermal conversion through pyrolysis or hydrothermal carbonization techniques can detoxify wastes while conserving nutrient contents. In this work, we produced up-to-date data on olive mill waste flows in Spain, Tunisia, and Greece and characterized representative samples in the laboratory. Assays of thermal conversion of olive mill wastewaters and solid wastes were also performed to understand biochar yields and final properties, and the total quantities of nutrients contained were estimated. Of particular note were the quantities of potassium in Tunisian wastewaters, representing 0.6% of the total mass and an annual flow of approximately 5000 t, and in the Spanish solid wastes, an average of 1.7% of the total mass is potassium, representing an annual flow of approximately 23,000 t. Concerning phosphorus, Spanish solid wastes had the highest contents (0.1%), double that of other countries' wastes. Annually, olive mill wastes from the three countries are estimated to contain approximately 35 × 103 tons of potassium and 2.6 × 103 tons of phosphorus. With this resource converted to biochar, each year more than 700 km2 of soils could be enriched in 0.2% carbon with biochar at an application rate of 7 t ha-1.",

keywords = "Biochar, Carbon, Hydrochar, Mediterranean Basin, Nutrients, Olive mill solid waste, Olive mill wastewater",

author = "Marks, {Evan A.N.} and Vasiliki Kinigopoulou and Hanene Akrout and Azzaz, {Ahmed Amine} and Charalampos Doulgeris and Salah Jellali and Carlos Rad and Zulueta, {Paula S{\'a}nchez} and Evangelos Tziritis and Leila El-Bassi and Ghimbeu, {Cam{\'e}lia Matei} and Mejdi Jeguirim",

note = "Funding Information: This work was supported by the FERTICHAR project (ARIMNET2, 2018-2021). Thanks to Almazara Cooperative, Cooperative Sant Marc Xert, Raul Moral Herrero, Rodolfo Canet, and Ana Garc{\'i}a for proving the Spanish OMSW samples; Touta Olive Mill plant of Grombalia, Tunisia; Georgios Kokkinos, Antonios Chatziandronis, and Nikolaos Drossas for providing the Greek OMWW and OMSW samples. Publisher Copyright: {\textcopyright} 2020 by the authors.",

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T1 - Potential for production of biochar-based fertilizers from olive millwaste in mediterranean basin countries

T2 - An initial assessment for Spain, Tunisia, and Greece

AU - Marks, Evan A.N.

AU - Kinigopoulou, Vasiliki

AU - Akrout, Hanene

AU - Azzaz, Ahmed Amine

AU - Doulgeris, Charalampos

AU - Jellali, Salah

AU - Rad, Carlos

AU - Zulueta, Paula Sánchez

AU - Tziritis, Evangelos

AU - El-Bassi, Leila

AU - Ghimbeu, Camélia Matei

AU - Jeguirim, Mejdi

N1 - Funding Information: This work was supported by the FERTICHAR project (ARIMNET2, 2018-2021). Thanks to Almazara Cooperative, Cooperative Sant Marc Xert, Raul Moral Herrero, Rodolfo Canet, and Ana García for proving the Spanish OMSW samples; Touta Olive Mill plant of Grombalia, Tunisia; Georgios Kokkinos, Antonios Chatziandronis, and Nikolaos Drossas for providing the Greek OMWW and OMSW samples. Publisher Copyright: © 2020 by the authors.

PY - 2020/8

Y1 - 2020/8

N2 - Olive mill wastes continue to be a management challenge due to the large volumes produced, particularly due to their toxicity and impacts on the environment. Thermal conversion through pyrolysis or hydrothermal carbonization techniques can detoxify wastes while conserving nutrient contents. In this work, we produced up-to-date data on olive mill waste flows in Spain, Tunisia, and Greece and characterized representative samples in the laboratory. Assays of thermal conversion of olive mill wastewaters and solid wastes were also performed to understand biochar yields and final properties, and the total quantities of nutrients contained were estimated. Of particular note were the quantities of potassium in Tunisian wastewaters, representing 0.6% of the total mass and an annual flow of approximately 5000 t, and in the Spanish solid wastes, an average of 1.7% of the total mass is potassium, representing an annual flow of approximately 23,000 t. Concerning phosphorus, Spanish solid wastes had the highest contents (0.1%), double that of other countries' wastes. Annually, olive mill wastes from the three countries are estimated to contain approximately 35 × 103 tons of potassium and 2.6 × 103 tons of phosphorus. With this resource converted to biochar, each year more than 700 km2 of soils could be enriched in 0.2% carbon with biochar at an application rate of 7 t ha-1.

AB - Olive mill wastes continue to be a management challenge due to the large volumes produced, particularly due to their toxicity and impacts on the environment. Thermal conversion through pyrolysis or hydrothermal carbonization techniques can detoxify wastes while conserving nutrient contents. In this work, we produced up-to-date data on olive mill waste flows in Spain, Tunisia, and Greece and characterized representative samples in the laboratory. Assays of thermal conversion of olive mill wastewaters and solid wastes were also performed to understand biochar yields and final properties, and the total quantities of nutrients contained were estimated. Of particular note were the quantities of potassium in Tunisian wastewaters, representing 0.6% of the total mass and an annual flow of approximately 5000 t, and in the Spanish solid wastes, an average of 1.7% of the total mass is potassium, representing an annual flow of approximately 23,000 t. Concerning phosphorus, Spanish solid wastes had the highest contents (0.1%), double that of other countries' wastes. Annually, olive mill wastes from the three countries are estimated to contain approximately 35 × 103 tons of potassium and 2.6 × 103 tons of phosphorus. With this resource converted to biochar, each year more than 700 km2 of soils could be enriched in 0.2% carbon with biochar at an application rate of 7 t ha-1.

KW - Biochar

KW - Carbon

KW - Hydrochar

KW - Mediterranean Basin

KW - Nutrients

KW - Olive mill solid waste

KW - Olive mill wastewater

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Potential for production of biochar-based fertilizers from olive millwaste in mediterranean basin countries: An initial assessment for Spain, Tunisia, and Greece

Abstract

Keywords

ASJC Scopus subject areas

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