Add to ORKGThe cellulose content of mensiang varies from 22% in the flower to 33% in the root. This could be used as a starting point for furfural synthesis. To separate furfural, several conditions are set for the distillation and evaporation processes. The conditions were rootstock part (A), upper stem part (B), whole stem part (C), whole stem with flowers part (D), and whole stem, flowers, and root part (E). Furfural content in the mensiang plant was conducted using Gas Chromatography-Mass Spectroscopy (GCMS) for the highest yield 11.78%, D treatment. Furfural synthesized from the mensiang plant has a furfural content of 96%. Furfural's density was 1.160 g/ml, boiling point was 161 oC, refractive index was 1.5120 obrix, and its viscosity was 1.46 c...
The autohydrolysis process as a method for selective extraction of hemicelluloses and conversion to ...
Corncob is the renewable agricultural biomass which has great potency to be developed into useful ch...
This work was supported by the Russian Foundation for Basic Research, project # 19-73-10144
The cellulose content of mensiang varies from 22% in the flower to 33% in the root. This could be us...
MasterFurfural is important in biorefinery concept as a key derivative for the production of non-pet...
In laboratory conditions, we simulated furfural production from sunflower husk with a particle size ...
Furfural is considered to be one of the top 30 potential chemicals derived from lignocellulosic biom...
Cellulose degradation is inevitable during the production of furfural from biomass under the acidic ...
The aim of this study was to optimize the production of furfural by hydrolysis with dilute acid of E...
Some edible plants such as Petroselinum horpense, Eruca sativa, Corchorus olitorius, Lactuca sativa,...
The chemical composition of the Soranovskii Miscanthus variety harvested in 2011 and 2012 was separa...
As one main component of lignocellulosic biomass, hemicellulose is a promising alternative for the r...
Background: Xylitol is a five carbons polyol with promising medical applications. It can be obtained...
The objective of my research is to study what factors affect the formation of useful platform chemic...
Furfural plant from corncobs with capacity 13.000 tons per year need corncobs 16706.76 kg / hour, wa...
The autohydrolysis process as a method for selective extraction of hemicelluloses and conversion to ...
Corncob is the renewable agricultural biomass which has great potency to be developed into useful ch...
This work was supported by the Russian Foundation for Basic Research, project # 19-73-10144
The cellulose content of mensiang varies from 22% in the flower to 33% in the root. This could be us...
MasterFurfural is important in biorefinery concept as a key derivative for the production of non-pet...
In laboratory conditions, we simulated furfural production from sunflower husk with a particle size ...
Furfural is considered to be one of the top 30 potential chemicals derived from lignocellulosic biom...
Cellulose degradation is inevitable during the production of furfural from biomass under the acidic ...
The aim of this study was to optimize the production of furfural by hydrolysis with dilute acid of E...
Some edible plants such as Petroselinum horpense, Eruca sativa, Corchorus olitorius, Lactuca sativa,...
The chemical composition of the Soranovskii Miscanthus variety harvested in 2011 and 2012 was separa...
As one main component of lignocellulosic biomass, hemicellulose is a promising alternative for the r...
Background: Xylitol is a five carbons polyol with promising medical applications. It can be obtained...
The objective of my research is to study what factors affect the formation of useful platform chemic...
Furfural plant from corncobs with capacity 13.000 tons per year need corncobs 16706.76 kg / hour, wa...
The autohydrolysis process as a method for selective extraction of hemicelluloses and conversion to ...
Corncob is the renewable agricultural biomass which has great potency to be developed into useful ch...
This work was supported by the Russian Foundation for Basic Research, project # 19-73-10144