Home

Chemical Engineering, IIT Bombay

  • Contact
  • Login
Home

Calorific value

Laboratory studies on cavity growth and product gas composition in the context of underground coal gasification

  • Calorific value
  • Calorimetry
  • Carbonization
  • cavity
  • Cavity growth
  • Cavity shape
  • Cavity volume
  • Coal
  • Coal blocks
  • Coal combustion
  • Coal gasification
  • combustion
  • Combustion time
  • Empirical correlations
  • experimental study
  • Experiments
  • Feed gas
  • Feed temperature
  • Gas producers
  • Gasification reaction
  • Hydrogen
  • Hydrogen concentration
  • In-situ
  • Laboratories
  • laboratory method
  • Laboratory scale
  • Laboratory studies
  • Laboratory-scale reactor
  • Operating parameters
  • Optimum operating conditions
  • oxygen
  • Product gas
  • Syngas
  • Synthesis gas
  • temperature effect
  • UCG
  • Underground coal gasification
  • volume
Publication Type  Journal Article
Year of Publication  2011
Authors  Daggupati, S.; Mandapati, R.N.; Mahajani, S.M.; Ganesh, A.; Sapru, R.K.; Sharma, R.K.; Aghalayam, P.
Journal Title  Energy
Volume  36
Issue  3
Pages  1776 - 1784
Journal Date  2011///
Key Words  Calorific value; Cavity; Syngas; UCG; Cavity; Cavity growth; Cavity shape; Cavity volume; Coal blocks; Combustion time; Empirical correlations; Feed gas; Feed temperature; Gasification reaction; Hydrogen concentration; In-situ; Laboratory scale; Laborator
Notes  

Export Date: 5 July 2011Source: Scopus
URL  http://www.scopus.com/inward/record.url?eid=2-s2.0-79952188275&partnerID=40&md5=95b993902b393c442dbb7f1e3ef31f4d
DOI  10.1016/j.energy.2010.12.051
Citation Key  3223

Information About

  • Education
  • Research
  • People
  • Services
  • Activities
  • Careers
  • Resources
  • About
  • Login
Link to old site.