Uncertainty analysis of stack gas flow measurements with an S-type Pitot tube for estimating greenhouse gas emissions using a continuous emission monitoring system

Abstract: In order to reduce greenhouse gas (GHG) emissions from producers in the energy and industrial fields to mitigate climate change more effectively, accurate and reliable studies of methods capable of estimating GHG emissions with proper uncertainty levels should initially be carried out. Continuous emission monitoring systems (CEMS) directly measure GHG emissions by measuring the GHG concentrations and volumetric flow rates of flue gases in smokestacks. Most studies of CEMS have tended to focus on the accuracy a… Show more

“…S-type pitot tubes can overestimate the flow by as much as 10% with the presence of non-axial velocity components [11]. The expanded uncertainty of flow measurements when using an S-type pitot tube was 3.8% [12]. Therefore, finding a new solution that reduces these drawbacks is necessary.…”

Calibration process and uncertainty estimation for 3D pitot tubes to enhance greenhouse gas emission measurements in smokestacks

“…S-type pitot tubes can overestimate the flow by as much as 10% with the presence of non-axial velocity components [11]. The expanded uncertainty of flow measurements when using an S-type pitot tube was 3.8% [12]. Therefore, finding a new solution that reduces these drawbacks is necessary.…”

Calibration process and uncertainty estimation for 3D pitot tubes to enhance greenhouse gas emission measurements in smokestacks

Smokestack gas velocity measurements using 3D pitot tubes in a coal-fired power plant

Uncertainty evaluation for wind speed measurement part (1): “GUM method and Monte Carlo method”