Add to ORKGA heterogeneous combustor was developed where the flame position within the ceramic porous media, contained within the combustor, could be controlled using the reactant flow rate. The porous media within the combustor can be coated with a catalyst to further promote combustion; this apparatus was designed to enable the investigation of various catalysts to be evaluated for their effectiveness as promoters of combustion. A unique feature of the combustion chamber showcased within this work is that the position of the flame is controlled by flow rates rather than the conventional method of flame arrestors, minimizing pressure drop across the combustion chamber. The developed operational system consists of six well-integrated and interconnecte...
Within this work, a MgO stabilized ZrO2 (MSZ) porous media with and without a gadolinia doped ceria ...
The research presented in this paper focuses on parameters that determine stable operating limits of...
The purpose of this study is to develop an ultra-micro combustor that uses two types of coaxial cyli...
Heterogeneous combustion is an advanced combustion technique which incorporates a highly porous cera...
Heterogeneous combustion is an advanced combustion technique, which incorporates a highly porous cer...
This work focuses on the design and operation of a heterogeneous combustor capable of operating on b...
A comparative analysis of performance of three different porous ceramic materials used as a flame-co...
Heterogeneous combustion is an advanced internal combustion technique, which enables heat recuperati...
In this study, a porous burner has been developed to efficiently convert gaseous and liquid fuels to...
The porous media combustion technology is an effective solution to stable combustion and clean utili...
An experimental investigation of premixed methane/air combustion stabilized within a reticulated par...
Occurrence of combustion phenomenon in porous media has always excited researchers to develop variou...
Combustion with a high surface area continuous solid immersed within the flame, referred to as combu...
An experimental investigation of two-stage, premixed methane/air combustion in a porous media burner...
Combustion homogenization of a fuel spray utilizing porous media (PM) has only recently been propose...
Within this work, a MgO stabilized ZrO2 (MSZ) porous media with and without a gadolinia doped ceria ...
The research presented in this paper focuses on parameters that determine stable operating limits of...
The purpose of this study is to develop an ultra-micro combustor that uses two types of coaxial cyli...
Heterogeneous combustion is an advanced combustion technique which incorporates a highly porous cera...
Heterogeneous combustion is an advanced combustion technique, which incorporates a highly porous cer...
This work focuses on the design and operation of a heterogeneous combustor capable of operating on b...
A comparative analysis of performance of three different porous ceramic materials used as a flame-co...
Heterogeneous combustion is an advanced internal combustion technique, which enables heat recuperati...
In this study, a porous burner has been developed to efficiently convert gaseous and liquid fuels to...
The porous media combustion technology is an effective solution to stable combustion and clean utili...
An experimental investigation of premixed methane/air combustion stabilized within a reticulated par...
Occurrence of combustion phenomenon in porous media has always excited researchers to develop variou...
Combustion with a high surface area continuous solid immersed within the flame, referred to as combu...
An experimental investigation of two-stage, premixed methane/air combustion in a porous media burner...
Combustion homogenization of a fuel spray utilizing porous media (PM) has only recently been propose...
Within this work, a MgO stabilized ZrO2 (MSZ) porous media with and without a gadolinia doped ceria ...
The research presented in this paper focuses on parameters that determine stable operating limits of...
The purpose of this study is to develop an ultra-micro combustor that uses two types of coaxial cyli...