In this work, efficient thermal energy storage based on sugarcane-derived eco-ceramics phase change composites is successfully demonstrated via a full-chain investigation from material to device level.
The production of new materials that aim at the circular economy and consequently reduce solid waste is an attractive purpose to the new circular business model.
Based on sustainable resource recycling, we utilize physical and chemical activation to modify sugarcane bagasse into activated carbon materials with a porous structure.
The phase transition and energy storage characteristics of these PCMs were systematically analyzed to explore the potential of sugarcane leaves, a valuable agricultural waste, for more efficient utilization.
In this experimental study, the effect of mass of paraffin wax as ESM is studied during solar evaporation of sugarcane juice in a sustainable energy recovery system (SERS) having series of stepped solar stills.
This chapter highlights the prospects for the production of energy, chemicals, materials, and other products by sugarcane valorization, featuring the current state of the technology, underlining new technologies with future implementations and forecasting the impact of expanding this market.
Solvent-free preparation of bio-based polyethylene glycol/wood flour composites as novel shape-stabilized phase change materials for solar thermal energy storage
AC has the potential to economically remove metal ions in the purification process of wastewater. AC850 was also utilized in the manufacture and testing of pouch cell supercapacitors to demonstrate the potential of the sugarcane bagasse family of materials in energy storage applications.
The aim of this study is to characterize the residue generated from unburned sugarcane bagasse in the steam generation process in terms of its energy and technological potential.
The various possible strategies reported so far for the effective recovery of bioenergy from sugarcane components are discussed with a special emphasis on technologies capable of converting the stored chemical energy into electrical energy or fuel.
