Sentence examples for methane at high from inspiring English sources
Beginning in the 1950s, Russian researchers began to investigate methods for synthesizing diamond by decomposition of carbon-containing gases such as methane at high heat and low pressure.
In this work, the transient behavior of a perovskite-based monolith was investigated during catalytic combustion of methane at high pressure.
The advantage of the process is the removal of two different contaminants in the feed step, delivering methane at high pressure without recompression requirements.
In this work, a CFD model was used to investigate the transient behavior of a perovskite-based monolith during catalytic combustion of methane at high pressure.
Catalytic partial oxidation of methane at high temperature short contact time conditions was studied over three different noble metal catalysts (Pt, Rh, and Ir) in a comparison between steady state (SS) and reverse-flow reactor (RFR) operation.
A key feature of SHR is the enhanced conversion of carbon into methane at high steam environment with hydrogen and no need for catalyst or the use of oxygen.
Methane oxidation at high pressures and intermediate temperatures was investigated in a laminar flow reactor and in a rapid compression machine (RCM).
Further study of chemical kinetics for methane oxidation at high pressures, particularly for fuel-lean mixtures, is suggested to improve the agreement between the model and experiments.
Increasing the gas flow rate could substantially reduce carbon formation rate, and it might be attributed to the facilitated radical desorption and/or low methane conversions at high gas flow rates.
The influence of redox dynamics of a Ni/MgAl oxide catalyst for dry reforming of methane (DRM) at high temperature was studied to correlate structural stability with catalytic activity and coking propensity.
The initial stage of a novel Ca/Cu looping process for hydrogen production that involves the sorption enhanced reforming of methane (SER) at high pressure and at a moderate temperature is simulated using a mathematical model developed in Part I of this work.
