Pyrolysis of non-fossil fuels is raising a growing interest in the nowadays scenario for the alternative supply of energy, fuels and chemicals. Biomass is among the most widely available and technologically promising candidate feedstocks. For simulation purposes and process design goals, kinetic-based models promise to be quite accurate in literature; however, they are computationally intensive and, more importantly, applicable only when kinetic data are available for the specific feedstock and pyrolysis equipment. Here, a different modeling approach is followed by considering that the pyrolysis reactor is under the thermodynamic equilibrium; then, the authors take advantage of the capabilities provided by the Aspen Plus® software. Therefor...
The modeling of biomass gasification processes by simulators such as Aspen Plus is a powerful tool ...
Pyrolysis of biomass can produce several useful, renewable products: biochar for soil amendment and ...
Bioenergy is now accepted as having the potential to provide the major part of the projected renewab...
Pyrolysis of non-fossil fuels is raising a growing interest in the nowadays scenario for the alterna...
The successful use (for performance predictions, in previous work) of process modeling and simulatio...
This paper presents a novel kinetic reaction model for biomass pyrolysis processes. The model is bas...
Biomass pyrolysis is considered as a thermochemical conversion system that is performed under oxygen...
In order to estimate the heat of condensation of fast pyrolysis product of woody biomass a model to ...
Over the past decades, a great deal of experimental work has been carried out on the development of ...
AbstractBased on the chemical process simulation software Aspen Plus, the biomass pyrolysis model wa...
Over the past decades, a great deal of experimental work has been carried out on the development of ...
A steady state Aspen Plus simulation model has been developed which provides estimated mass and ener...
Biomass pyrolysis process from a drop tube reactor was modelled in a plug flow reactor using Aspen P...
Pyrolysis is a thermochemical process where organic matter is decomposed into gaseous products, oil...
The modeling of biomass gasification processes by simulators such as Aspen Plus is a powerful tool ...
Pyrolysis of biomass can produce several useful, renewable products: biochar for soil amendment and ...
Bioenergy is now accepted as having the potential to provide the major part of the projected renewab...
Pyrolysis of non-fossil fuels is raising a growing interest in the nowadays scenario for the alterna...
The successful use (for performance predictions, in previous work) of process modeling and simulatio...
This paper presents a novel kinetic reaction model for biomass pyrolysis processes. The model is bas...
Biomass pyrolysis is considered as a thermochemical conversion system that is performed under oxygen...
In order to estimate the heat of condensation of fast pyrolysis product of woody biomass a model to ...
Over the past decades, a great deal of experimental work has been carried out on the development of ...
AbstractBased on the chemical process simulation software Aspen Plus, the biomass pyrolysis model wa...
Over the past decades, a great deal of experimental work has been carried out on the development of ...
A steady state Aspen Plus simulation model has been developed which provides estimated mass and ener...
Biomass pyrolysis process from a drop tube reactor was modelled in a plug flow reactor using Aspen P...
Pyrolysis is a thermochemical process where organic matter is decomposed into gaseous products, oil...
The modeling of biomass gasification processes by simulators such as Aspen Plus is a powerful tool ...
Pyrolysis of biomass can produce several useful, renewable products: biochar for soil amendment and ...
Bioenergy is now accepted as having the potential to provide the major part of the projected renewab...
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