Abstract
Foreword to Sustainable Biomass Resources for Environmental, Agronomic, Biomaterials and Energy Applications 2
Highlights
The adsorption capacity of lead removal, under dynamic conditions, is considered high compared to other adsorbents, which promotes the use of lignite as a low-cost and efficient material for Pb(II) and other heavy metals removal from wastewaters
The results showed, for the first objective, that from the 54 bacterial strains, S10C1 identified as Bacillus cereus 4080 LBK (NCBI:txid1396) was the most efficient strain in removing Cr(VI)
The main targeted objectives were: (i) to investigate the effect of the solution’s pH, the sodium chloride concentration and the methylene blue (MB)-loaded biomass content on the desorbing yield efficiencies, (ii) to determine the possible interactions between these parameters and their statistical significance by the means of a full factorial design composed of 24 experiments and (iii) to explore the probable mechanisms governing the recovery of MB
Summary
This special issue contains ten peer-reviewed papers that have the opportunity to increase the attractiveness of large scale biomasses use by increasing their conversion efficiency to viable products (fuels, energy carriers, biomaterials, biofertilizers, biochars, etc.). The first paper is entitled: “Investigations on lignite use for lead removal from aqueous solutions under static and dynamic conditions: adsorption properties and mechanism exploration” [1].
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