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Theoretical-experimental investigation of Co emission from an oil refinery incinerator

Darbandi, M ; Sharif University of Technology

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  1. Type of Document: Article
  2. DOI: 10.1115/FEDSM2014-22066
  3. Abstract:
  4. In this paper, we investigate the CO emission from an oil refinery gas incinerator both theoretically and experimentally. At the beginning of this research, our collected data from this incinerator showed that the CO contamination would be far exceeding the permissible environmental standards at the stack exhaust. Therefore, we decided to perform a combined theoretical-experimental study to find a reasonable solution to reduce the CO pollution suitably. Our theoretical study showed that a reliable solution would be to increase the incinerator operating temperature. However, we needed to collect some data from this incinerator to examine if our achieved analytical solution would work correctly. In data collection procedure, we were faced with one major difficulty due to the limits of automatic system of incinerator control, which did not let us increase the incinerator temperature readily in real work conditions. As a general remedy, our suggestion was to interfere in this automatic control system and to increase its maximum possible limit of temperature. Evidently, this needed a number of considerations, which could not be performed in a short length period. As a short length remedy, we designed a number of manual control procedures, which let us examine different temporary working conditions for the incinerator. Trying different operating condition, we eventually found a suitable one with minimum CO emission from the incinerator. Although this choice resulted in an increase in the incinerator temperature and a remedy to reduce the high CO emission, it was inversely increased the incinerator fuel consumption, which is rather a negative point. Our further data collection indicated that the excess air of primary incinerator was relatively high. Therefore, we designed an automatic system of inlet air damper to adjust the inlet air, which resulted in avoiding high excess air and consequently suitable saving in the fuel consumption. The details are provided in the rest of paper
  5. Keywords:
  6. Air quality ; Automation ; Contacts (fluid mechanics) ; Data acquisition ; Fluid mechanics ; Numerical methods ; Oil shale ; Petroleum refineries ; Refining ; Automatic systems ; Control procedures ; Data collection ; Different operating conditions ; Environmental standards ; Experimental investigations ; Operating temperature ; Theoretical study ; Transport properties
  7. Source: American Society of Mechanical Engineers, Fluids Engineering Division (Publication) FEDSM ; Vol. 1C, issue , 2014
  8. URL: http://proceedings.asmedigitalcollection.asme.org/proceeding.aspx?articleid=2086952