| 1443 - 1445 |
CCS - A multidisciplinary global activity for a global challenge
Todd AC |
| 1446 - 1460 |
Recent developments on carbon capture and storage: An overview
Pires JCM, Martins FG, Alvim-Ferraz MCM, Simoes M |
| 1461 - 1469 |
Exergoeconomic and exergoenvironmental evaluation of power plants including CO2 capture
Petrakopoulou F, Tsatsaronis G, Boyano A, Morosuk T |
| 1470 - 1493 |
Combustion modelling opportunities and challenges for oxy-coal carbon capture technology
Edge P, Gharebaghi M, Irons R, Porter R, Porter RTJ, Pourkashanian M, Smith D, Stephenson P, Williams A |
| 1494 - 1500 |
Experimental programme in CIUDEN's CO2 capture technology development plant for power generation
Lupion M, Nauarrete B, Otero P, Cortes VJ |
| 1501 - 1510 |
Hydrodynamic simulation of fuel-reactor in chemical looping combustion process
Wang SA, Yang YC, Lu HL, Wang JX, Xu PF, Liu GD |
| 1511 - 1523 |
Kinetics of the chemical looping oxidation of H-2 by a co-precipitated mixture of CuO and Al2O3
Chuang SY, Dennis JS, Hayhurst AN, Scott SA |
| 1524 - 1532 |
Thermodynamic investigation into carbon deposition and sulfur evolution in a Ca-based chemical-looping combustion system
Tian HJ, Guo QJ |
| 1533 - 1543 |
Carbon capture and utilization via chemical looping dry reforming
Najera M, Solunke R, Gardner T, Veser G |
| 1544 - 1552 |
Flue-gas cooling in post-combustion capture plants
Kvamsdal HM, Haugen G, Svendsen HF |
| 1553 - 1571 |
On the integration of CO2 capture with coal-fired power plants: A methodology to assess and optimise solvent-based post-combustion capture systems
Lucquiaud M, Gibbins J |
| 1572 - 1586 |
A systematic approach to assessing measurement uncertainty for CO2 emissions from coal-fired power plants - Missing contributions from the Theory of Sampling (TOS)
Wagner C, Esbensen KH |
| 1587 - 1599 |
Post-combustion CO2 capture process: Equilibrium stage mathematical model of the chemical absorption of CO2 into monoethanolamine (MEA) aqueous solution
Mores P, Scenna N, Mussati S |
| 1600 - 1608 |
Modelling reactive absorption of CO2 in packed columns for post-combustion carbon capture applications
Khan FM, Krishnamoorthi V, Mahmud T |
| 1609 - 1624 |
Post-combustion CO2 capture with chemical absorption: A state-of-the-art review
Wang M, Lawal A, Stephenson P, Sidders J, Ramshaw C |
| 1625 - 1638 |
Impact of liquid absorption process development on the costs of post-combustion capture in Australian coal-fired power stations
Dave N, Do T, Palfreyman D, Feron PHM |
| 1639 - 1646 |
Stripper configurations for CO2 capture by aqueous monoethanolamine
Van Wagener DH, Rochelle GT |
| 1647 - 1657 |
Amine modified mesocellular siliceous foam (MCF) as a sorbent for CO2
Subagyono DJN, Liang ZJ, Knowles GP, Chaffee AL |
| 1658 - 1668 |
Mass transfer and hydrodynamic characteristics of new carbon carbon packing: Application to CO2 post-combustion capture
Alix P, Raynal L, Abbe F, Meyer M, Prevost M, Rouzineau D |
| 1669 - 1675 |
Improving CO2/CH4 adsorptive selectivity of carbon nanotubes by functionalization with nitrogen-containing groups
Fatemi S, Vesali-Naseh M, Cyrus M, Hashemi J |
| 1676 - 1683 |
Energy saving in a CO2 capture plant by MEA scrubbing
Pellegrini LA, Moioli S, Gamba S |
| 1684 - 1692 |
Rate based modeling and validation of a carbon-dioxide pilot plant absorbtion column operating on monoethanolamine
Simon LL, Elias Y, Puxty G, Artanto Y, Hungerbuhler K |
| 1693 - 1710 |
Aqueous piperazine derivatives for CO2 capture: Accurate screening by a wetted wall column
Chen X, Rochelle GT |
| 1711 - 1721 |
Adsorption of carbon dioxide on hydrotalcite-like compounds of different compositions
Aschenbrenner O, McGuire P, Alsamaq S, Wang JW, Supasitmongkol S, Al-Duri B, Styring P, Wood J |
| 1722 - 1729 |
Carbon dioxide absorption in a cross-flow rotating packed bed
Lin CC, Chen BC |
| 1730 - 1736 |
Nitric oxide and carbon monoxide permeation through glassy polymeric membranes for carbon dioxide separation
Scholes CA, Chen GQ, Stevens GW, Kentish SE |
| 1737 - 1746 |
Preparation of carbon molecular sieves from carbon micro and nanofibers for sequestration of CO2
Bikshapathi M, Sharma A, Sharma A, Verma N |
| 1747 - 1751 |
Separation and capture of carbon dioxide from CO2/H-2 syngas mixture using semi-clathrate hydrates
Gholinezhad J, Chapoy A, Tohidi B |
| 1752 - 1757 |
Design and operation of pilot plant for CO2 capture from IGCC flue gases by combined cryogenic and hydrate method
Suroutseua D, Amin R, Barifcani A |
| 1758 - 1762 |
Effect of cultivation mode on microalgal growth and CO2 fixation
Zhao BT, Zhang YX, Xiong KB, Zhang ZX, Hao XH, Liu T |
| 1763 - 1773 |
Optimization of post-combustion CO2 process using DEA-MDEA mixtures
Rodriguez N, Mussati S, Scenna N |
| 1774 - 1782 |
Progress in low temperature hydrogen production with simultaneous CO2 abatement
Chen HS, Ding YL, Cong NT, Dou BL, Dupont V, Ghadiri M, Williams PT |
| 1783 - 1793 |
Reducing heavy oil carbon footprint and enhancing production through CO2 injection
Emadi A, Sohrabi M, Jamiolahmady M, Ireland S, Robertson G |
| 1794 - 1804 |
CO2 capture capacity of CaO in long series of pressure swing sorption cycles
Butler JW, Lim CJ, Grace JR |
| 1805 - 1816 |
Comparison of numerical codes for geochemical modelling of CO2 storage in target sandstone reservoirs
Gundogan O, Mackay E, Todd A |
| 1817 - 1826 |
Use of tracers to characterize the effects of a CO2-saturated brine on the petrophysical properties of a low permeability carbonate caprock
Bachaud P, Berne P, Renard F, Sardin M, Leclerc JR |
| 1827 - 1840 |
Visualisation of mechanisms involved in Co-2 injection and storage in hydrocarbon reservoirsand water-bearing aquifers
Riazi M, Sohrabi M, Bernstone C, Jamiolahmady M, Ireland S |
| 1841 - 1854 |
Mineral carbonation accelerated by dicarboxylic acids as a disposal process of carbon dioxide
Baldyga J, Henczka M, Sokolnicka K |
| 1855 - 1864 |
Injection of CO2 into saline formations: Benchmarking worldwide projects
Hosa A, Esentia M, Stewart J, Haszeldine S |
| 1865 - 1872 |
Safe storage of Co-2 together with improved oil recovery by Co-2-enriched water injection
Sohrabi M, Kechut NI, Riazi M, Jamiolahmady M, Ireland S, Robertson G |
| 1873 - 1878 |
Biological sequestration of carbon dioxide in geological formations
Mahinpey N, Asghari K, Mirjafari P |
| 1879 - 1890 |
Conversion of CO2 into CH4 by methane-producing bacterium FJ10 under a pressurized condition
Leu JY, Lin YH, Chang FL |
| 1891 - 1900 |
Carbon dioxide sequestration through novel use of ion exchange fibers (IX-fibers)
Padungthon S, Greenleaf JE, Sengupta AK |
