AbstractCorn cob and waste oil were co-pyrolysed in a fixed bed at the temperatures of 500°C, 550°C, 600°C, respectively, under nitrogen atmosphere. Co-pyrolysis products were investigated with focus on the physical and chemical properties of oily products characterized by means of GC–MS and elemental analyser. The results show 550°C seems to be the optimum temperature considering maximum bio oil yields and bio oil properties. Co-pyrolysis of corn cob and waste oil produced more amount of liquid and less amount of solid residue than that of pyrolysis of corn cob solely. While weight ratio of waste oil: corn cob increases from 0 to 0.87, bio-oil yield increases dramatically from 44.7wt% to 70.62wt% with increasing acids content and decreasin...
Due to security issues in energy supply and environmental concerns, renewable energy production from...
Fast pyrolysis technology is currently moving forward to commercialization, and demonstration plants...
This research was done with a broad intention of developing a batch-type conventional pyrolysis unit...
AbstractCorn cob and waste oil were co-pyrolysed in a fixed bed at the temperatures of 500°C, 550°C,...
Technologies for conversion of waste solid materials to liquid fuel and bio-crude oil have been rese...
Co-pyrolysis between corncobs and polypropylene has a synergetic effect that transforms part of pola...
Zeolite and activated carbon (AC) have been demonstrated as promising and facile catalysts in degrad...
Continuous pyrolysis of corncob hydrolysis residue, coupled with ex situ catalytic upgrading of the ...
The results of thermogravimetric analysis (TGA), non-catalytic and catalytic pyrolysis of corn cobs ...
Solid waste is the cheapest and abundantly available renewable source of energy. The most common met...
High-value bio-oil and gaseous products can be produced by pyrolysis of corn stover. This work prese...
Pyrolysis is becoming a prominent method for producing bio-oil from biomass. It has the potential to...
Raw bio-oil was produced from fast pyrolysis of pine sawdust in a fluidized-bed boiler at 550 degree...
The work presented here has looked into the thermal-conversion of wheat and barley spent grains (SG)...
The pyrolysis upgrading of bio-oil from sugarcane bagasse (SB) using ZSM-5 zeolite catalyst was carr...
Due to security issues in energy supply and environmental concerns, renewable energy production from...
Fast pyrolysis technology is currently moving forward to commercialization, and demonstration plants...
This research was done with a broad intention of developing a batch-type conventional pyrolysis unit...
AbstractCorn cob and waste oil were co-pyrolysed in a fixed bed at the temperatures of 500°C, 550°C,...
Technologies for conversion of waste solid materials to liquid fuel and bio-crude oil have been rese...
Co-pyrolysis between corncobs and polypropylene has a synergetic effect that transforms part of pola...
Zeolite and activated carbon (AC) have been demonstrated as promising and facile catalysts in degrad...
Continuous pyrolysis of corncob hydrolysis residue, coupled with ex situ catalytic upgrading of the ...
The results of thermogravimetric analysis (TGA), non-catalytic and catalytic pyrolysis of corn cobs ...
Solid waste is the cheapest and abundantly available renewable source of energy. The most common met...
High-value bio-oil and gaseous products can be produced by pyrolysis of corn stover. This work prese...
Pyrolysis is becoming a prominent method for producing bio-oil from biomass. It has the potential to...
Raw bio-oil was produced from fast pyrolysis of pine sawdust in a fluidized-bed boiler at 550 degree...
The work presented here has looked into the thermal-conversion of wheat and barley spent grains (SG)...
The pyrolysis upgrading of bio-oil from sugarcane bagasse (SB) using ZSM-5 zeolite catalyst was carr...
Due to security issues in energy supply and environmental concerns, renewable energy production from...
Fast pyrolysis technology is currently moving forward to commercialization, and demonstration plants...
This research was done with a broad intention of developing a batch-type conventional pyrolysis unit...