Dr.KVSG Murali Krishna’s scientific contributions

What is this page?


This page lists works of an author who doesn't have a ResearchGate profile or hasn't added the works to their profile yet. It is automatically generated from public (personal) data to further our legitimate goal of comprehensive and accurate scientific recordkeeping. If you are this author and want this page removed, please let us know.

Publications (1)


Automatic control of soot and unburnt hydro carbons from flares in oil and gas industry
  • Conference Paper
  • Full-text available

March 2014

·

947 Reads

·

7 Citations

·

Dr.KVSG Murali Krishna

Flaring is a high-temperature oxidation process used to burn waste gases from industrial operations. Smoke results from combustion, depends on waste gas components, quantity and distribution of combustion air. Flares stacks are used in industries are often assisted with steam to ensure complete combustion and to avoid any unburnt hydro carbons. In this process, flares are often sooty due to insufficient steam. This results in black carbon from flares. Soot particles in the air are a contributing factor in respiratory diseases. The fine particles less than 3micron are the worst causes of lung damage due to their ability to penetrate into the deep air passage. This paper explains the health effects of soot and particulate matter. New scientific evidence has led to recognition of the significant role of black particles (black carbon – BC) as one of the short-lived climate forcers. Measures focused on BC and methane is expected to achieve a significant short-term reduction in global warming. The black carbon or soot from flares can be minimized by controlling steam to flare by automation. Flare gas flow measurement by ultrasonic flow meter gives a high turn down ratio of 2000:1. This paper explains the methodology of control of soot from flares by steam to hydro carbon ratio control and how the combustion efficiency varies with the amount of steam. The economical benefit of saving steam by automation is not only credit to the company but also carbon credit to the world.

Download

Citations (1)


... The Ringelmann blackness method used in the Chinese agricultural standard (NY/T 2370-2013) was a visual method that used statistical data to determine the smoke emission levels. This method not only required the testers to be professional, but also required good testing conditions, which is more suitable for testing the stable emissions from industrial boilers [21]. For the lab test, TSP was used instead of the Ringelmann blackness in this study. ...

Reference:

The Influences of Various Testing Conditions on the Evaluation of Household Biomass Pellet Fuel Combustion
Automatic control of soot and unburnt hydro carbons from flares in oil and gas industry