Quantitative characterization of pulverized coal and biomass–coal blends in pneumatic conveying pipelines using electrostatic sensor arrays and data fusion techniques

Quantitative data about the dynamic behaviour of pulverized coal and biomass–coal blends in fuel injection pipelines allow power plant operators to detect variations in fuel supply and oscillations in the flow at an early stage, enable them to balance fuel distribution between fuel feeding pipes and ultimately to achieve higher combustion efficiency and lower greenhouse gas emissions. Electrostatic sensor arrays and data fusion algorithms are combined to provide a non-intrusive solution to the measurement of fuel particle velocity, relative solid concentration and flow stability under pneumatic conveying conditions. Electrostatic sensor arrays with circular and arc-shaped electrodes are integrated in the same sensing head to measure 'averaged' and 'localized' characteristics of pulverized fuel flow. Data fusion techniques are applied to optimize and integrate the results from the sensor arrays. Experimental tests were conducted on the horizontal section of a 150 mm bore pneumatic conveyor circulating pulverized coal and sawdust under various flow conditions. Test results suggest that pure coal particles travel faster and carry more electrostatic charge than biomass–coal blends. As more biomass particles are added to the flow, the overall velocity of the flow reduces, the electrostatic charge level on particles decreases and the flow becomes less stable compared to the pure coal flow.

[1]  Clive E Davies,et al.  The effect of pipeline location on acoustic measurement of gas–solid pipeline flow , 2000 .

[2]  Yong Yan,et al.  Flow Measurement of Biomass and Blended Biomass Fuels in Pneumatic Conveying Pipelines Using Electrostatic Sensor-Arrays , 2012, IEEE Transactions on Instrumentation and Measurement.

[3]  Yong Yan,et al.  On-line particle sizing of pulverized and granular fuels using digital imaging techniques , 2003 .

[4]  Yong Yan,et al.  On-line measurement of particle size distribution and mass flow rate of particles in a pneumatic suspension using combined imaging and electrostatic sensors , 2005 .

[5]  Mingxu Su,et al.  In-line measurement of pneumatically conveyed particles by a light transmission fluctuation method , 2005 .

[6]  Yong Yan,et al.  An instrumentation system using combined sensing strategies for on-line mass flow rate measurement and particle sizing , 2004, Proceedings of the 21st IEEE Instrumentation and Measurement Technology Conference (IEEE Cat. No.04CH37510).

[7]  Yong Yan,et al.  Velocity Measurement of Pneumatically Conveyed Particles Using Intrusive Electrostatic Sensors , 2010, IEEE Transactions on Instrumentation and Measurement.

[8]  Chuanlong Xu,et al.  Sensing characteristics of electrostatic inductive sensor for flow parameters measurement of pneumatically conveyed particles , 2007 .

[9]  Yong Yan,et al.  Finite-Element Modeling of Electrostatic Sensors for the Flow Measurement of Particles in Pneumatic Pipelines , 2009, IEEE Transactions on Instrumentation and Measurement.

[10]  Ian Lowndes,et al.  Characterisation of the cross sectional particle concentration distribution in horizontal dilute flow conveying—a review , 2004 .

[11]  M. Stack,et al.  On erosion issues associated with the leading edge of wind turbine blades , 2013 .

[12]  Y Yant,et al.  Velocity measurement of pneumatically I conveyed solids using electrodynamic I sensors , 1995 .

[13]  Yong Yan,et al.  Guide to the Flow Measurement of Particulate Solids in Pipelines, Part 1: Fundamentals and Principles , 2001 .

[14]  J. Gajewski,et al.  Electrostatic Nonintrusive Method for Measuring the Electric Charge, Mass Flow Rate, and Velocity of Particulates in the Two-Phase Gas–Solid Pipe Flows—Its Only or as Many as 50 Years of Historical Evolution , 2008, IEEE Transactions on Industry Applications.

[15]  Chao Wang,et al.  Parameter Selection in Cross-Correlation-Based Velocimetry Using Circular Electrostatic Sensors , 2010, IEEE Transactions on Instrumentation and Measurement.

[16]  Yong Yan,et al.  REVIEW ARTICLE: Mass flow measurement of bulk solids in pneumatic pipelines , 1996 .

[17]  Yong Yan,et al.  A parallel-beam radiometric instrumentation system for the mass flow measurement of pneumatically conveyed solids , 2001 .