Page 13

Update Item Information
Title Scaling the Low Swirl Burner from 15 kW to 600 kW
Creator Yegian, D. T.; Cheng, R. K.; Hack, R. L.; Miyasato, M. M.; Chang, A.; Samuelsen, G. S.
Publisher Digitized by J. Willard Marriott Library, University of Utah
Date 1998
Spatial Coverage presented at Maui, Hawaii
Abstract The lean premixed low swirl burner (LSB) concept has been successful scaled to input powers of up to 600 kW. Using a constant velocity approach, the design of a large capacity LSB (10.16 cm ID) is a linear scaled-up version of a smaller LSB (5.28 cm ID) developed previously for smaller water heaters of up to 18 kW. The operating regimes of the large burner have been investigated and found to be stable over an input power range from 100 to 600 kW. These tests demonstrate the validity of using the constant velocity approach in scaling the LSB. The non-dimensional swirl number for the larger LSB is constant for the input power range we have investigated. However, it is higher than that of the smaller burner. This is attributed to the fact that the swirl rate does not scale with velocity, instead, it scales with the residence time of the swirl air within the burner's exit tube. The NOx, CO and UHC emissions of the large LSB were investigated in a furnace simulator and compared to those of a small LSB operating in a burner evaluation facility. The test matrix was limited to <}> = 0.8 (25% excess air) at various input powers. The results showed that the NOx emissions of both the large and the small LSBs average about 14 ppm (3% O2) over the entire input power range of 15 to 600 kW. Therefore, NOx emissions from the LSB is independent of burner size and combustion chamber geometry. On the other hand, the CO and UHC emission showed a strong dependence on burner chamber coupling. Both sets of data showed that a minimum input power is needed in order to keep CO emission below 25 ppm (corrected to 3% O2) and UHC concentrations at the undetectable level. When operating above the minimum input power, the performance of the LSB is very encouraging. With NOx at 14 ppm, CO at 25 ppm, and UHC at an undetectable level, the LSB should be a prime candidate for use in natural-gas furnaces and boilers.
Type Text
Format application/pdf
Language eng
Rights This material may be protected by copyright. Permission required for use in any form. For further information please contact the American Flame Research Committee.
Conversion Specifications Original scanned with Canon EOS-1Ds Mark II, 16.7 megapixel digital camera and saved as 400 ppi uncompressed TIFF, 16 bit depth.
Scanning Technician Cliodhna Davis
ARK ark:/87278/s6kk9fdt
Setname uu_afrc
ID 11416
Reference URL https://collections.lib.utah.edu/ark:/87278/s6kk9fdt

Page Metadata

Title Page 13
Format application/pdf
OCR Text Show
Setname uu_afrc
ID 11411
Reference URL https://collections.lib.utah.edu/ark:/87278/s6kk9fdt/11411
Back to Search Results