Try Mobilus Beta
Search tips
 This content is not included in your SAE MOBILUS subscription, or you are not logged in.

Thermal Analysis of Aircraft Auxiliary Power Unit: Application of Chemical Looping Combustion

Journal Article
2019-01-1390
ISSN: 2641-9645, e-ISSN: 2641-9645
DOI: https://doi.org/10.4271/2019-01-1390
Published March 19, 2019 by SAE International in United States
Thermal Analysis of Aircraft Auxiliary Power Unit: Application of Chemical Looping Combustion
Sector:
Citation: Kumar, P., AKRAM, M., Singh, A., and S, S., "Thermal Analysis of Aircraft Auxiliary Power Unit: Application of Chemical Looping Combustion," SAE Int. J. Adv. & Curr. Prac. in Mobility 1(2):458-465, 2019, https://doi.org/10.4271/2019-01-1390.
Language: English

References

  1. Airport Council International (ACI) http://www.aci.aero/News/Releases/Most-Recent/2014/09/16/ACI-releases-2013-World-Airport-Traffic-Report-Airport-passenger-traffic-still-going-strong-air-cargo-inchesalong-after-third-year-of-weak-growth 2013
  2. Khandelwal , B. et al. Hydrogen Powered Aircraft: The Future of Air Transport Progress in Aerospace Sciences 60 45 59 2013
  3. Lackner , K.S. Carbonate Chemistry for Sequestering Fossil Carbon Annual Rev. Energy and Environment 27 193 232 2002
  4. Richter , H. J. , and Knoche , K. Reversibility of Combustion Processes Efficiency and Costing-Second Law Analysis of Processes ~ACS Symposium Series 235! ACS Washington, DC 1983 71 85
  5. Hamilton , M.A. et al. Numerical Simulation Comparison of Two Reactor Configurations for Chemical Looping Combustion and Chemical Looping With Oxygen Uncoupling ASME J. Energy Resour. Technol. 138 4 042213 2016
  6. Banerjee , S. and Agarwal , R.K. An Eulerian Approach to Computational Fluid Dynamics Simulation of a Chemical-Looping Combustion Reactor With Chemical Reactions ASME J. Energy Resour. Technol. 138 4 042201 2015
  7. Khan , M.N. and Shamim , T. Investigation of Hydrogen Generation in a Three Reactor Chemical Looping Reforming Process Appl. Energy 162 1186 1194 2016
  8. Ishida , M. and Jin , H. A Novel Chemical-Looping Combustor Without NOx Formation Ind. Eng. Chem. Res. 35 7 2469 2472 1996
  9. Naqvi , R. , Bolland , O. , Brandvoll , O. , and Helle , K. 2004
  10. Naqvi , R. , Wolf , J. , and Bolland , O. Part-Load Analysis of a Chemical-Looping Combustion (CLC) Combined Cycle With CO2 Capture Energy 32 4 360 370 2007
  11. Alvaro , A.J. , Paniagua , I.L. , Fernandez , C.G. , Martin , J.R. et al. Simulation of an Integrated Gasification Combined Cycle With Chemical-Looping Combustion and Carbon Dioxide Sequestration Energy Conversion Manage. 104 170 179 2015
  12. Wolf , J. 2004
  13. Cho , P. , Mattisson , T. , and Lyngfelt , A. Comparison of Iron-, Nickel-, Copper- and Manganese-Based Oxygen Carriers for Chemical-Looping Combustion Fuel 83 1215 1225 2004
  14. Mattisson , T. , Johansson , M. , and Lyngfelt , A. The Use of NiO as an Oxygen Carrier in Chemical-Looping Combustion Fuel 85 736 747 2006
  15. Leion , H. , Mattisson , T. , and Lyngfelt , A. Use of Ores and Industrial Products as Oxygen Carriers in Chemical-Looping Combustion Energy Fuels 23 2307 2315 2009
  16. Jerndal , E. et al. Investigation of NiO/NiAl2O4 Oxygen Carriers for Chemical-Looping Combustion Produced by Spraydrying Int. J. Greenhouse Gas Control 4 23 35 2010
  17. Xiao , R. et al. Pressurized Chemical Looping Combustion of Coal Using an Iron Ore as Oxygen Carrier in a Pilot-Scale Unit Int. J. Greenhouse Gas Control 10 363 373 2012
  18. Fossdal , A. et al. Study of Inexpensive Oxygen Carriers for Chemical Looping Combustion Int. J. Greenhouse Gas Control 5 483 488 2011
  19. Noorman S. , van Sint Annaland M. , and Kuipers , J.A.M. Packed Bed Reactor Technology for Chemical-Looping Combustion Ind. Eng. Chem. Res. 46 4212 4220 2007
  20. Adanez , J. et al. Progress in Chemical-Looping Combustion and Reforming Technologies Prog. Energy Combust. Sci. 38 215 282 2012
  21. Hamers , H.P. et al. A Novel Reactor Configuration for Packed Bed Chemical-Looping Combustion of Syngas Int. J. Greenhouse Gas Control 16 1 12 2013
  22. Bolt , P.H. , Habraken , F.H.P.M. , and Geus , J.W. Formation of Nickel, Cobalt, Copper, and Iron Aluminates form _ - and _ -Alumina-Supported Oxides: a Comparative Study Journal of Solid State Chemistry 135 59 69 1998
  23. Johansson , M. , Mattisson , T. , and Lyngfelt , A. Investigation of Fe2O3 with MgAl2O4 for Chemical-Looping Combustion Industrial & Engineering Chemistry Research 43 6978 6987, 2004 2004
  24. U. S. G. Survey Mineral Commodity Summaries 2013 Reston, VA U.S. Geological Survey 2013
  25. Leion , H. et al. The Use of Ilmenite as an Oxygen Carrier in Chemical-Looping Combustion Chem. Eng. Res. Des. 86 1017 1026 2008
  26. Fossdal , A. et al. Study of Inexpensive Oxygen Carriers for Chemical Looping Combustion Int. J. Greenhouse Gas Control 5 483 488 2011
  27. Abad , A. , Adánez , J. , Cuadrat , A. , García-Labiano , F. et al. Kinetics of Redox Reactions of Ilmenite for Chemical-Looping Combustion Chem. Eng. Sci. 66 689 702 2011
  28. Johansson , M. , Mattisson , T. , and Lyngfelt , A. Creating a Synergy Effect by Using Mixed Oxides of Iron- and Nickel Oxides in the Combustion of Methane in a Chemical-Looping Combustion Reactor Energy Fuels 20 2399 2407 2006
  29. Rydén , M. et al. Ilmenite with Addition of NiO as Oxygen Carrier for Chemical-Looping Combustion Fuel 89 3523 3533 2010

Cited By

Recommended Content

Technical Paper Chemical Removal of Ceramic Thermal Barrier and Metallic Bond Coats from Gas Turbine Combustion Components
Aerospace Standard Performance Testing of Lubricant Filter Elements Utilized in Aircraft Power and Propulsion Lubrication Systems
Technical Paper Redesign of the C-17 Globemaster III Auxiliary Power Unit (APU) Exhaust System