451. Field-scale investigation of pulverized coal mill power consumption
- Author
-
Rajive Ganguli and Sukumar Bandopadhyay
- Subjects
Materials science ,Power station ,Waste management ,Pulverized coal-fired boiler ,business.industry ,Mechanical Engineering ,Metals and Alloys ,General Chemistry ,Energy consumption ,Geotechnical Engineering and Engineering Geology ,Impact mill ,Pulp and paper industry ,Control and Systems Engineering ,Grind ,Materials Chemistry ,Mill ,Coal ,Electric power ,business - Abstract
Twenty field-scale tests were conducted in a 28 MW pulverized coal power plant in Healy, Alaska, to examine mill power consumption in relation to coal grind size. The intent in this field-scale study was to verify if grind size truly impacted power consumption by a detectable amount. The regression model developed from the data indicates that grind size does impact mill power consumption, with finer grinds consuming significantly more power than coarser grinds. However, other factors such as coal hardness (i.e. the lower the Hardgrove Grindability Index, or the harder the coal, the higher the power consumption) and mill throughput (i.e., the higher the throughput, the higher the power consumption) had to be included before the impact of grind size could be isolated. It was also observed that combining amperage and flow rate into a single parameter, i.e., specific amperage, hurt modeling. Cost analysis based on the regression model indicate a power savings of $19,972 per year if the coal were ground to 50% passing 76 {mu}m rather than the industry standard of 70% passing 76 {mu}m. The study also demonstrated that size reduction constituted a significant portion of the power consumption.
- Published
- 2008