Solar thermal cracking of methane produces two valuable products, hydrogen gas and solid carbon, both of which can be used as a fuel and as a commodity. During the course of this two-phase phenomenon, carbon particles tend to deposit on the solar reactor window, wall, and exit. When they accumulate at the reactor exit, the agglomeration of these particles completely blocks the exit. This problem has been the major issue preventing solar cracking reactors from running continuously. To address this problem, a cyclone solar reactor was designed to enhance the residence time and allow carbon particles to rotate in the reactor instead of moving towards the exit inlarge particle groups together. A prototype reactor was manufactured to test the co...
Solar thermal cracking of natural gas is a promising technology, which has attracted researchers in ...
This paper provides a thorough analysis on the flow field and Residence Time Distribution (RTD) of o...
Solar reactors, by nature of their high temperature, are nearly experimentally inaccessible. Most in...
Solar thermal cracking of methane produces two valuable products; hydrogen gas and solid carbon, bot...
Solar thermal cracking of methane produces two valuable products, hydrogen gas and solid carbon, bot...
Solar reactors featuring a circulating cyclone flow pattern provide enhanced heat transfer and longe...
A hydrogen-producing solar reactor was experimentally tested to study the cyclone flow dynamics of t...
Solar cracking of methane is considered to be an attractive option due to its CO2 free hydrogen prod...
The experimental simulation and a computational validation of a methane-cracking solar reactor power...
A hydrogen-producing solar reactor was experimentally tested to study the cyclone flow dynamics of t...
A hydrogen-producing solar reactor was experimentally tested to study the cyclone flow dynamics of t...
Solar thermal cracking of natural gas is a promising process for hydrogen production because of its ...
Solar cracking of methane is a promising technology for emission free hydrogen production. One of th...
With the increasing concern of CO2 emissions and climate change, efforts have grown to include solar...
This study focuses on a technique, referred to as “solar cracking” of natural gas for the coproducti...
Solar thermal cracking of natural gas is a promising technology, which has attracted researchers in ...
This paper provides a thorough analysis on the flow field and Residence Time Distribution (RTD) of o...
Solar reactors, by nature of their high temperature, are nearly experimentally inaccessible. Most in...
Solar thermal cracking of methane produces two valuable products; hydrogen gas and solid carbon, bot...
Solar thermal cracking of methane produces two valuable products, hydrogen gas and solid carbon, bot...
Solar reactors featuring a circulating cyclone flow pattern provide enhanced heat transfer and longe...
A hydrogen-producing solar reactor was experimentally tested to study the cyclone flow dynamics of t...
Solar cracking of methane is considered to be an attractive option due to its CO2 free hydrogen prod...
The experimental simulation and a computational validation of a methane-cracking solar reactor power...
A hydrogen-producing solar reactor was experimentally tested to study the cyclone flow dynamics of t...
A hydrogen-producing solar reactor was experimentally tested to study the cyclone flow dynamics of t...
Solar thermal cracking of natural gas is a promising process for hydrogen production because of its ...
Solar cracking of methane is a promising technology for emission free hydrogen production. One of th...
With the increasing concern of CO2 emissions and climate change, efforts have grown to include solar...
This study focuses on a technique, referred to as “solar cracking” of natural gas for the coproducti...
Solar thermal cracking of natural gas is a promising technology, which has attracted researchers in ...
This paper provides a thorough analysis on the flow field and Residence Time Distribution (RTD) of o...
Solar reactors, by nature of their high temperature, are nearly experimentally inaccessible. Most in...