Evaluation of the performance of nickel hyperaccumulator plants as combustion fuel

Evaluation of the performance of nickel hyperaccumulator plants as combustion fuel

Agromining is an emerging technology aiming at recovering metals from soils using hyperaccumulator (HA) plants. Plant cultivation and pyro- and hydrometallurgical processes have been designed for nickel (Ni) recovery. In this chain of processes, dry plants are burnt to obtain Ni-rich ashes that are...

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Bibliographic Details
Published in:Biomass & bioenergy Vol. 140; p. 105671
Main Authors: Hazotte, Claire, Laubie, Baptiste, Pacault, Stéphanie, Dufaud, Olivier, Simonnot, Marie-Odile
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-09-2020
Elsevier
Subjects:
Chemical and Process Engineering
Combustion
Elemental composition
Engineering Sciences
Gaseous emissions
Higher and lower heating values
Hyperaccumulator plants
Self-heating
Hyperaccumulator plants
Higher and lower heating values
Elemental composition
Gaseous emissions
Combustion
Self-heating
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Summary:Agromining is an emerging technology aiming at recovering metals from soils using hyperaccumulator (HA) plants. Plant cultivation and pyro- and hydrometallurgical processes have been designed for nickel (Ni) recovery. In this chain of processes, dry plants are burnt to obtain Ni-rich ashes that are subsequently treated. To ensure the sustainability and the profitability of the process, energy recovered at the combustion stage would add some value. The combustion of three Ni HA plants (Odontarrhena chalcidica, Leptoplax emarginata and Berkheya coddii) was investigated. Namely the higher and lower heating values (HHV and LHV) were measured with a calorimeter bomb and calculated with correlations, thermo-gravimetric analysis was performed, dry plants and ashes were characterized, and gas emissions were monitored during combustion at two temperatures. In a complementary approach, the self-heating behaviour of plants and ashes were compared, and the activation energy of such phenomenon was determined. These results allowed the identification of the step limiting the self-inflammation of the plants, which gives relevant information for their safe storage. [Display omitted] •Heat recovery from Ni hyperaccumulator combustion improves the eco-efficiency of agromining.•The heating values of three Ni hyperaccumulators show they can be used as fuels for boilers.•The risk of self-heating of hyperaccumulator biomass and ash during their storage was assessed.
ISSN:0961-9534
1873-2909
DOI:10.1016/j.biombioe.2020.105671