Conventional and microwave-assisted pyrolysis of rapeseed
Jan 01, 2014· The pyrolysis of unused rapeseed oil (virgin oil) and simulated waste oil (SWO) was carried out using conventional and microwave-assisted heating in batch reactors. Temperatures of 500, 550 and 600 °C and 300–500 W microwave power were used for conventional
The pyrolysis of unused rapeseed oil (virgin oil) and simulated waste oil (SWO) was carried out using conventional and microwave-assisted heating in batch reactors.
Conventional and microwave-assisted pyrolysis of rapeseed
The potential of microwave-assisted pyrolysis of rapeseed oil was evaluated in this study, based on understanding the fundamental interactions of oils with microwaves and evaluation of the product yield and composition. The pyrolysis of unused rapeseed oil (virgin oil) and simulated waste oil (SWO) was carried out using conventional and microwave-assisted heating in batch reactors.
Microwave‐assisted pyrolysis (MAP) is a new thermochemical process that converts biomass to bio‐oil. Compared with the conventional electrical heating pyrolysis, MAP is more rapid, efficient, selective, controllable, and flexible. This chapter provides an up‐to‐date knowledge of bio‐oil production from microwave‐assisted pyrolysis of biomass.
Microwave pyrolysis valorization of used baby diaper
Conventional and microwave-assisted pyrolysis of rapeseed oil for bio-fuel production J. Anal. Appl. Pyrolysis,105 ( 2014 ),pp. 131 142 Article Download PDF View Record in Scopus Google Scholar
Conventional and microwave-assisted pyrolysis of rapeseed oil for bio-fuel production J. Anal. Appl. Pyrol.,105 ( 2014 ),pp. 131 142 View Record in Scopus Google Scholar
Microwave-Assisted Pyrolysis Oil: Process
A review of microwave-assisted pyrolysis oil The main operating conditions of conventional, fast and flash pyrolysis processes Physicochemical properties of bio-oils of corn germ stover
oil under microwave‐assisted pyrolysis than under conventional electrical heating pyrolysis. However, the microwave‐assisted pyrolysis process is signi cantly varied by many factors,
Microwave pyrolysis of biomass for bio-oil production
Thermochemical conversion technologies involve the thermal degradation of biomass,, .Biomass can be heated in the absence of oxygen (fast pyrolysis) to ultimately produce an intermediate liquid product known as bio-oil (which may serve as raw material for producing biofuel), or in the presence of an oxidising gas (gasification) to induce the production of an intermediate synthesis gas.
The pyrolysis of unused rapeseed oil (virgin oil) and simulated waste oil (SWO) was carried out using conventional and microwave-assisted heating in batch reactors. Temperatures of 500, 550 and 600 °C and 300–500 W microwave power were used for conventional and microwave heating respectively.