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  • 12 Similar Profiles
Reforming reactions Engineering & Materials Science
Waste heat utilization Engineering & Materials Science
Exhaust gases Engineering & Materials Science
Oxygen Engineering & Materials Science
Carbon Engineering & Materials Science
Methane Engineering & Materials Science
Computational fluid dynamics Engineering & Materials Science
Furnaces Engineering & Materials Science

Network Recent external collaboration on country level. Dive into details by clicking on the dots.

Research Output 2016 2019

  • 6 Article
  • 1 Commissioned report
  • 1 Master's Thesis

Experimental investigation of thermochemical regeneration using oxy-fuel exhaust gases

Gaber, C., Demuth, M., Prieler, R., Schluckner, C., Schroettner, H., Fitzek, H. & Hochenauer, C., 15 Feb 2019, In : Applied Energy. p. 1115-1124 10 p.

Research output: Contribution to journalArticleResearchpeer-review

Reforming reactions
Exhaust gases
regeneration
methane
carbon

Thermochemical analysis and experimental investigation of a recuperative waste heat recovery system for the tri-reforming of light oil

Gaber, C., Demuth, M., Schluckner, C. & Hochenauer, C., 1 Sep 2019, In : Energy conversion and management. 195, p. 302-312 11 p.

Research output: Contribution to journalArticleResearchpeer-review

Waste heat utilization
Reforming reactions
Exhaust gases
Exhaust gas recirculation
Temperature

An experimental study of a thermochemical regeneration waste heat recovery process using a reformer unit

Gaber, C., Demuth, M., Prieler, R., Schluckner, C. & Hochenauer, C., 15 Jul 2018, In : Energy. 155, p. 381-391 11 p.

Research output: Contribution to journalArticleResearchpeer-review

Waste heat utilization
Reforming reactions
Carbon
Regenerators
Methane

CFD-based optimization of a transient heating process in a natural gas fired furnace using neural networks and genetic algorithms

Prieler, R. J., Mayrhofer, M., Gaber, C. E., Gerhardter, H., Schluckner, C., Landfahrer, M., Eichhorn-Gruber, M., Schwabegger, G. & Hochenauer, C., Jun 2018, In : Applied Thermal Engineering. 138, p. 217 234 p.

Research output: Contribution to journalArticleResearchpeer-review

CFD-model to predict the local and time-dependent scale formation of steels in air- and oxygen enriched combustion atmospheres

Schluckner, C., Gaber, C., Demuth, M., Forstinger, S., Prieler, R. & Hochenauer, C., 1 Oct 2018, In : Applied Thermal Engineering. 143, p. 822-835 14 p.

Research output: Contribution to journalArticleResearchpeer-review

Computational fluid dynamics
Oxygen
Steel
Furnaces
Air

Activities 2017 2019

  • 3 Peer review of manuscripts
  • 2 Talk at conference or symposium

International journal of energy research (Journal)

Christian Erich Gaber (Peer reviewer)
May 2019

Activity: Publication peer-review or editorial workPeer review of manuscripts

Energy conversion and management (Journal)

Christian Erich Gaber (Peer reviewer)
May 2019

Activity: Publication peer-review or editorial workPeer review of manuscripts

International Journal of Hydrogen Energy (Journal)

Christian Erich Gaber (Peer reviewer)
Sep 2018

Activity: Publication peer-review or editorial workPeer review of manuscripts

CFD in Combustion Processes

Christoph Schluckner (Speaker), Christian Erich Gaber (Contributor), Martin Demuth (Contributor), René Josef Prieler (Contributor), Bernhard Mayr-Mittermüller (Contributor), Christoph Hochenauer (Contributor)
10 Nov 2017

Activity: Talk or presentationTalk at conference or symposiumScience to science

Oxy-Fuel combustion chamber for alternative fuels

Christian Erich Gaber (Speaker), Christoph Schluckner (Contributor), Martin Demuth (Contributor), René Josef Prieler (Contributor), Christoph Hochenauer (Contributor)
10 Nov 2017

Activity: Talk or presentationTalk at conference or symposiumScience to science