Journal of Scientific and Industrial Research

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Comparative Characteristics and Potassium-Sulfur Release Behavior of Paddy Straw versus Banana Peduncle based Composite Biochar Produced by Co-pyrolysis with Phosphogypsum


Affiliations
1 Academy of Scientific and Innovative Research (AcSIR), Ghaziabad 201 002, Uttar Pradesh, India
2 CSIR-Institute of Minerals and Materials Technology, Bhubaneswar 751 013, Odisha, India

Co-pyrolysis of phosphogypsum and banana peduncle wastes was reported for the production of potassium-sulphur rich biochar composite fertilizer. However, large quantity of paddy straw are left out and fired on agricultural sites as waste, which required investigation for its alternative utilization for production of biochar composite. From this view, present work explored production of biochar composites from paddy straw mixed with phosphogypsum (4:1 ratio) by regulated co-pyrolysis process conditions such as temperature: 700°C; heating rate: 10°C/minute and residence time: 1 h for gaining biochar composite and also comparing physico-chemical characteristics, potassium-sulphur release behavior, kinetics with respect to banana peduncle mixed with phosphogypsum. Near neutral paddy straw (7.03) and alkaline banana peduncle biomass (8.53) converted into alkaline biochar (10.20 and 10.50) and composites (9.78 and 9.69) due to pyrolysis. The paddy straw biochar and composites retained relatively more carbon (%) i.e., 45.84 and 37.28 than banana based biochar 41.01 and 25.07. The phosphogypsum utilization enhances sulfur (6.65–7.66%) and calcium content (3.85–4.33%) in biochar composite. The potassium and sulphur leaching kinetic behavior fitted well with the second order kinetic model, indicating their slow-release aspect, which can contribute for long-term phyto-availability in soils.

Keywords

Agriculture waste, Biochar, Co-pyrolysis, Kinetics, Soil nutrients
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  • Comparative Characteristics and Potassium-Sulfur Release Behavior of Paddy Straw versus Banana Peduncle based Composite Biochar Produced by Co-pyrolysis with Phosphogypsum

Abstract Views: 11  | 

Authors

Kushalindu Biswas
Academy of Scientific and Innovative Research (AcSIR), Ghaziabad 201 002, Uttar Pradesh, India
Manish Kumar
CSIR-Institute of Minerals and Materials Technology, Bhubaneswar 751 013, Odisha, India
Adnan Asad Karim
CSIR-Institute of Minerals and Materials Technology, Bhubaneswar 751 013, Odisha, India
Sonu Maurya
CSIR-Institute of Minerals and Materials Technology, Bhubaneswar 751 013, Odisha, India
Arati Ray
Academy of Scientific and Innovative Research (AcSIR), Ghaziabad 201 002, Uttar Pradesh, India
Nabin Kumar Dhal
Academy of Scientific and Innovative Research (AcSIR), Ghaziabad 201 002, Uttar Pradesh, India

Abstract


Co-pyrolysis of phosphogypsum and banana peduncle wastes was reported for the production of potassium-sulphur rich biochar composite fertilizer. However, large quantity of paddy straw are left out and fired on agricultural sites as waste, which required investigation for its alternative utilization for production of biochar composite. From this view, present work explored production of biochar composites from paddy straw mixed with phosphogypsum (4:1 ratio) by regulated co-pyrolysis process conditions such as temperature: 700°C; heating rate: 10°C/minute and residence time: 1 h for gaining biochar composite and also comparing physico-chemical characteristics, potassium-sulphur release behavior, kinetics with respect to banana peduncle mixed with phosphogypsum. Near neutral paddy straw (7.03) and alkaline banana peduncle biomass (8.53) converted into alkaline biochar (10.20 and 10.50) and composites (9.78 and 9.69) due to pyrolysis. The paddy straw biochar and composites retained relatively more carbon (%) i.e., 45.84 and 37.28 than banana based biochar 41.01 and 25.07. The phosphogypsum utilization enhances sulfur (6.65–7.66%) and calcium content (3.85–4.33%) in biochar composite. The potassium and sulphur leaching kinetic behavior fitted well with the second order kinetic model, indicating their slow-release aspect, which can contribute for long-term phyto-availability in soils.

Keywords


Agriculture waste, Biochar, Co-pyrolysis, Kinetics, Soil nutrients