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Acoustic sensor for determining combustion properties of natural gas
R. M. Lueptow
*
, S. Phillips
*
Corresponding author for this work
Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
13
Scopus citations
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INIS
speed
57%
natural gas
50%
gases
21%
sensors
21%
molecular weight
21%
fuels
14%
methane
14%
combustion properties
14%
volume
7%
performance
7%
prediction
7%
variations
7%
values
7%
carbon dioxide
7%
density
7%
stoichiometry
7%
heating
7%
acoustics
7%
combustion
7%
nitrogen dioxide
7%
ethane
7%
propane
7%
flammability
7%
air-fuel ratio
7%
Engineering
Sensor
28%
Combustion System
21%
Contaminant
14%
Combustion Property
14%
Molecular Weight
14%
Fuel
14%
Volumetrics
7%
Optimal Performance
7%
Prototype
7%
Gas Composition
7%
Lower Flammability Limit
7%
Stoichiometric Volume
7%
Primary Constituent
7%
Prototype Sensor
7%
Sound Speed
7%
Air-Fuel Ratio
7%
Prediction
7%
Density
7%
Measurer
7%
High Speed
7%
Temperature
7%
Low Speed
7%
Acoustics
7%
Physics
Acoustics
57%
Speed
35%
Methane
14%
Gases
14%
Molecular Weight
14%
Fuel
14%
Nitrogen
7%
Carbon Dioxide
7%
Quality
7%
High Speed
7%
Temperature
7%
Ratios
7%
Variations
7%
Low Speed
7%
Material Science
Natural Gas
100%
Gas
14%
Fuel
14%
Impurity
7%