Rahul Anantharaman
Rahul Anantharaman
Research Scientist, SINTEF Energy Research
Verified email at sintef.no
Cited by
Cited by
Hydrogen production with CO2 capture
M Voldsund, K Jordal, R Anantharaman
International Journal of Hydrogen Energy 41 (9), 4969-4992, 2016
Low-temperature CO2 capture technologies–Applications and potential
D Berstad, R Anantharaman, P Nekså
International Journal of Refrigeration 36 (5), 1403-1416, 2013
Design and off-design analyses of a pre-combustion CO2 capture process in a natural gas combined cycle power plant
LO Nord, R Anantharaman, O Bolland
International Journal of Greenhouse Gas Control 3 (4), 385-392, 2009
Membrane properties required for post-combustion CO2 capture at coal-fired power plants
S Roussanaly, R Anantharaman, K Lindqvist, H Zhai, E Rubin
Journal of membrane science 511, 250-264, 2016
Low-temperature CO2 removal from natural gas
D Berstad, P Nekså, R Anantharaman
Energy Procedia 26, 41-48, 2012
A techno-economic case study of CO2 capture, transport and storage chain from a cement plant in Norway
J Jakobsen, S Roussanaly, R Anantharaman
Journal of cleaner production 144, 523-539, 2017
Energy Level Composite Curves—a new graphical methodology for the integration of energy intensive processes
R Anantharaman, OS Abbas, T Gundersen
Applied Thermal Engineering 26 (13), 1378-1384, 2006
Post-combustion CO2 capture from a natural gas combined cycle by CaO/CaCO3 looping
D Berstad, R Anantharaman, K Jordal
International Journal of Greenhouse Gas Control 11, 25-33, 2012
Design-point and part-load considerations for natural gas combined cycle plants with post combustion capture
K Jordal, PAM Ystad, R Anantharaman, A Chikukwa, O Bolland
International Journal of Greenhouse Gas Control 11, 271-282, 2012
Integration aspects of reactive absorption for post-combustion CO2 capture from NGCC (natural gas combined cycle) power plants
K Lindqvist, K Jordal, G Haugen, KA Hoff, R Anantharaman
Energy 78, 758-767, 2014
Comparison of technologies for CO2 capture from cement production—Part 2: Cost analysis
SO Gardarsdottir, E De Lena, M Romano, S Roussanaly, M Voldsund, ...
Energies 12 (3), 542, 2019
Thermal efficiency of coal-fired power plants: From theoretical to practical assessments
C Fu, R Anantharaman, K Jordal, T Gundersen
Energy conversion and management 105, 530-544, 2015
Techno-economic assessment of flexible solvent regeneration & storage for base load coal-fired power generation with post combustion CO2 capture
J Husebye, R Anantharaman, SE Fleten
Energy Procedia 4, 2612-2619, 2011
Comparison of technologies for CO2 capture from cement production—Part 1: Technical evaluation
M Voldsund, SO Gardarsdottir, E De Lena, JF Pérez-Calvo, A Jamali, ...
Energies 12 (3), 559, 2019
Application of advanced technologies for CO2 capture from industrial sources
MC Romano, R Anantharaman, A Arasto, DC Ozcan, H Ahn, JW Dijkstra, ...
Energy Procedia 37, 7176-7185, 2013
Performance enhancement and energy reduction using hybrid cryogenic distillation networks for purification of natural gas with high CO 2 content
K Maqsood, J Pal, D Turunawarasu, AJ Pal, S Ganguly
Korean Journal of Chemical Engineering 31 (7), 1120-1135, 2014
NGCC post-combustion CO2 capture with Ca/carbonate looping: Efficiency dependency on sorbent properties, capture unit performance and process configuration
D Berstad, R Anantharaman, R Blom, K Jordal, B Arstad
International Journal of Greenhouse Gas Control 24, 43-53, 2014
Carbon capture and storage (CCS) options for co-production of electricity and synthetic fuels from indigenous coal in an Indian context
J Hetland, R Anantharaman
Energy for Sustainable Development 13 (1), 56-63, 2009
European best practice guidelines for assessment of CO2 capture technologies
R Anantharaman, O Bolland, N Booth, E van Dorst, C Ekstrom, ...
Politecnico di milano and alstom uk technical report, 2011
Performance and NOx emissions of refinery fired heaters retrofitted to hydrogen combustion
M Ditaranto, R Anantharaman, T Weydahl
Energy Procedia 37, 7214-7220, 2013
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