Hydrogen (H 2) is a secondary fuel derived from natural gas. Currently, H 2 serves as an
important component in refining operations, fertilizer production, and is experiencing …
important component in refining operations, fertilizer production, and is experiencing …
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Chemical loo** is broadly defined to represent processes that use chemical intermediates
to decompose a reaction into two or more sub-reaction steps. Metal oxides are the typical …
to decompose a reaction into two or more sub-reaction steps. Metal oxides are the typical …
250 kWth high pressure pilot demonstration of the syngas chemical loo** system for high purity H2 production with CO2 capture
Chemical loo** combustion (CLC) is an advanced technology for converting fossil fuel
while achieving in-situ CO 2 capture. The high purity CO generated in the combustion …
while achieving in-situ CO 2 capture. The high purity CO generated in the combustion …
Continuum modeling of high-temperature (> 1000° C) heat extraction from a moving-bed oxidation reactor for thermochemical energy storage
There is a growing need for efficient and reliable energy storage technologies to expand
renewable energy adoption and transit to a decarbonized clean energy future …
renewable energy adoption and transit to a decarbonized clean energy future …
Utilization of CO 2 as a partial substitute for methane feedstock in chemical loo** methane–steam redox processes for syngas production
This work describes the unique capability of a novel chemical loo** system that utilizes
CO2 as a feedstock for methane reforming. This system uses an iron–titanium composite …
CO2 as a feedstock for methane reforming. This system uses an iron–titanium composite …
Design and Operations of a 15 kWth Subpilot Unit for the Methane-to-Syngas Chemical Loo** Process with CO2 Utilization
The methane-to-syngas (MTS) chemical loo** process is an advanced methane reforming
technology for the production of high purity syngas. The developed MTS process utilizes …
technology for the production of high purity syngas. The developed MTS process utilizes …
Proof of Concept of a Novel Solid–Solid Heat Exchanger Based on a Double L-Valve Concept
A proof of concept of a novel parallel-flow solid–solid heat exchanger consisting of two L-
Valves with concentric vertical tubes, named as Double L-Valve, is presented for the case of …
Valves with concentric vertical tubes, named as Double L-Valve, is presented for the case of …
[HTML][HTML] Circulating fluidized bed reactors–Experimental optimization of loopseal aeration and parametric study using CPFD simulations
JC Bandara, BME Moldestad, MS Eikeland - Powder Technology, 2022 - Elsevier
Circulating fluidized bed (CFB) technology has diverse applications from process industry to
energy generation. Experimental studies were performed in a CFB to analyse the effect of …
energy generation. Experimental studies were performed in a CFB to analyse the effect of …
Control of pressure balance and solids circulation characteristics in DCFB reactors
In the paper, a novel dual circulating fluidized bed (DCFB) reactor is introduced, which can
be widely applied in catalytic cracking, chemical loo** combustion, coal/biomass …
be widely applied in catalytic cracking, chemical loo** combustion, coal/biomass …
A general methodology and the correlation for the prediction of the solids flow rates through the L-valves
P He, LS Fan - Powder Technology, 2020 - Elsevier
L-valves are used as a non-mechanical valve for the solids flow rate control in circulating
fluidized beds (CFB). To quantify the solids flow rate through the L-valve, a number of …
fluidized beds (CFB). To quantify the solids flow rate through the L-valve, a number of …