![Denitrification removal of nitric oxide in a rotating drum biofilter [An article from: Chemical Engineering Journal]](https://www.ebooknetworking.net/books/B00/0P6/bigB000P6O5PA.jpg)
Denitrification removal of nitric oxide in a rotating drum biofilter [An article from: Chemical Engineering Journal]
Book Details
Author(s)J. Wang, C. Wu, J. Chen, H. Zhang
PublisherElsevier
ISBN / ASINB000P6O5PA
ISBN-13978B000P6O5P1
MarketplaceFrance 🇫🇷
Description
This digital document is a journal article from Chemical Engineering Journal, published by Elsevier in 2006. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.
Description:
A rotating drum biofilter (RDB) was applied and evaluated for nitric oxide (NO) removal by denitrification from a synthesized waste gas using glucose as carbon source. The effects of drum-rotating speed and empty bed residence time (EBRT) on NO removal were investigated under anaerobic conditions. With the increase of drum-rotating speed higher than 0.5rpm and the decrease of EBRT at a certain feed loading rate, there existed a lower NO removal efficiency influenced by mass transfer. At an EBRT of 65s and a drum-rotating speed of 0.5rpm, NO removal efficiency was over 97.9% with inlet NO concentration of 524ppm. When oxygen existed, NO was removed as the function of denitrification of the main role and chemical oxidation. With the increase of inlet oxygen concentration, denitrification decreased and chemical oxidation increased and the optimal inlet oxygen concentration of about 5.2% was obtained.
Description:
A rotating drum biofilter (RDB) was applied and evaluated for nitric oxide (NO) removal by denitrification from a synthesized waste gas using glucose as carbon source. The effects of drum-rotating speed and empty bed residence time (EBRT) on NO removal were investigated under anaerobic conditions. With the increase of drum-rotating speed higher than 0.5rpm and the decrease of EBRT at a certain feed loading rate, there existed a lower NO removal efficiency influenced by mass transfer. At an EBRT of 65s and a drum-rotating speed of 0.5rpm, NO removal efficiency was over 97.9% with inlet NO concentration of 524ppm. When oxygen existed, NO was removed as the function of denitrification of the main role and chemical oxidation. With the increase of inlet oxygen concentration, denitrification decreased and chemical oxidation increased and the optimal inlet oxygen concentration of about 5.2% was obtained.
