The development of mathematical simulation models is an important tool in order to provide more accurate qualitative and quantitative information on biomass gasification process and the effect of process parameters. The modelling of the gasification process can be generally executed adopting one of the following approach: steady state models (equilibrium models), transient state models (kinetic models) and models based on the computational fluid dynamics. This paper shows a comparison between an equilibrium model and a kinetic one, applied to a full-scale woody biomass downdraft gasification plant using Aspen Plus® as simulation platform. The simulation results have been validated using those obtained during an extensive experimental activ...
Using woody biomass as a resource for production of biofuel, heat and power through gasification has...
Publisher's version (útgefin grein)An equilibrium simulation model was developed by applying Aspen P...
Biomass gasification is widely recognized as an effective method to obtain renewable energy. To accu...
The development of mathematical simulation models is an important tool in order to provide more accu...
Biomass gasification technology is evolving and more research through modelling alongside the experi...
A new steady state zero-dimensional simulation model for a full-scale woody biomass gasification pla...
An equilibrium simulation model was developed by applying Aspen Plus to evaluate the performance of ...
Mathematical models and simulations are being practiced exceedingly in the field of research and dev...
This work proposes a simple and accurate tool for predicting the main parameters of biomass gasifica...
: In the delicate context of climate change, biomass gasification has been demonstrated to be a very...
International audienceThis article deals with the use of ASPEN PLUS to model the thermo chemical pro...
Nowadays biomass becomes one of the most important sources of renewable energy due to its abundant r...
This presentation demonstrates the development of a biomass gasification model that incorporates res...
Abstract- Gasification processes are complicated with numerous parameters. It makes us difficult to ...
Using woody biomass as a resource for production of biofuel, heat and power through gasification has...
Publisher's version (útgefin grein)An equilibrium simulation model was developed by applying Aspen P...
Biomass gasification is widely recognized as an effective method to obtain renewable energy. To accu...
The development of mathematical simulation models is an important tool in order to provide more accu...
Biomass gasification technology is evolving and more research through modelling alongside the experi...
A new steady state zero-dimensional simulation model for a full-scale woody biomass gasification pla...
An equilibrium simulation model was developed by applying Aspen Plus to evaluate the performance of ...
Mathematical models and simulations are being practiced exceedingly in the field of research and dev...
This work proposes a simple and accurate tool for predicting the main parameters of biomass gasifica...
: In the delicate context of climate change, biomass gasification has been demonstrated to be a very...
International audienceThis article deals with the use of ASPEN PLUS to model the thermo chemical pro...
Nowadays biomass becomes one of the most important sources of renewable energy due to its abundant r...
This presentation demonstrates the development of a biomass gasification model that incorporates res...
Abstract- Gasification processes are complicated with numerous parameters. It makes us difficult to ...
Using woody biomass as a resource for production of biofuel, heat and power through gasification has...
Publisher's version (útgefin grein)An equilibrium simulation model was developed by applying Aspen P...
Biomass gasification is widely recognized as an effective method to obtain renewable energy. To accu...