Individual biomass particle exchanges mass and heat with its surrounding during the thermal conversion process. Therefore environmental conditions around the particle greatly determine the conversion process through which the particle undergoes. It is important to model this relationship between particle and its surroundings during the thermal conversion rather than using random boundary conditions at the interphase. A two dimensional mathematical model which closely couples the surrounding environment with particle behavior for pyrolysis of thermally thick biomass particle was developed. Finite Volume Method (FVM) was used to accomplish Computational Fluid Dynamics (CFD) simulations. Simulation results were able to predict the effect of su...
Computational fluid dynamics (CFD) simulations of large-scale furnaces or reactors for thermal conve...
Due to a willingness to decrease greenhouse gas emissions, alternative ways to produce secondary ene...
The fluid–particle interaction and the impact of shrinkage on pyrolysis of biomass inside a 150 g/h ...
Modelling is a complex task combining elements of knowledge in the field of computer science, mathem...
In this paper, a novel multi-region Eulerian model is presented to study the conversion of thermally...
The fluid–particle interaction and the impact of different heat transfer conditions on pyrolysis of ...
Abstract Modelling is a complex task combining elements of knowledge in the field of computer scienc...
This paper presents a simplified model for prediction of pyrolysis of a biomass particle. The main a...
Thermo-chemical decomposition of biomass to bio-energy via pyrolysis is a complex process. Several p...
In the present study, a mathematical model to describe the pyrolysis of a single solid particle of...
Thermochemical conversion of larger biomass particles (thermally thick regime) toward high-end produ...
Thermo-chemical decomposition of biomass to bio-energy via pyrolysis is a complex process. Several p...
Biomass as a renewable energy source has attracted more attention nowadays due to ecological and eco...
Modeling is a complex task combining elements of knowledge in the field of computer science, mathema...
In the present study, the impact of shrinking and non-shrinking biomass particles on pyrolysis is st...
Computational fluid dynamics (CFD) simulations of large-scale furnaces or reactors for thermal conve...
Due to a willingness to decrease greenhouse gas emissions, alternative ways to produce secondary ene...
The fluid–particle interaction and the impact of shrinkage on pyrolysis of biomass inside a 150 g/h ...
Modelling is a complex task combining elements of knowledge in the field of computer science, mathem...
In this paper, a novel multi-region Eulerian model is presented to study the conversion of thermally...
The fluid–particle interaction and the impact of different heat transfer conditions on pyrolysis of ...
Abstract Modelling is a complex task combining elements of knowledge in the field of computer scienc...
This paper presents a simplified model for prediction of pyrolysis of a biomass particle. The main a...
Thermo-chemical decomposition of biomass to bio-energy via pyrolysis is a complex process. Several p...
In the present study, a mathematical model to describe the pyrolysis of a single solid particle of...
Thermochemical conversion of larger biomass particles (thermally thick regime) toward high-end produ...
Thermo-chemical decomposition of biomass to bio-energy via pyrolysis is a complex process. Several p...
Biomass as a renewable energy source has attracted more attention nowadays due to ecological and eco...
Modeling is a complex task combining elements of knowledge in the field of computer science, mathema...
In the present study, the impact of shrinking and non-shrinking biomass particles on pyrolysis is st...
Computational fluid dynamics (CFD) simulations of large-scale furnaces or reactors for thermal conve...
Due to a willingness to decrease greenhouse gas emissions, alternative ways to produce secondary ene...
The fluid–particle interaction and the impact of shrinkage on pyrolysis of biomass inside a 150 g/h ...