| 1 - 3 |
EJ Anthony honor issue
Manovic V, Fennell P |
| 4 - 12 |
A systematic approach for high temperature looping cycles integration
Lara Y, Lisbona P, Martinez A, Romeo LM |
| 13 - 22 |
Carbonate looping experiments in a 1 MWth pilot plant and model validation
Strohle J, Junk M, Kremer J, Galloy A, Epple B |
| 23 - 37 |
Development of the calcium looping CO2 capture technology from lab to pilot scale at IFK, University of Stuttgart
Dieter H, Bidwe AR, Varela-Duelli G, Charitos A, Hawthorne C, Scheffknecht G |
| 38 - 46 |
Coal combustion under Calcium Looping Process conditions
Gao CY, Takahashi T, Narisawa H, Yoshizawa A, Shimizu T, Kim H, Li LY |
| 47 - 51 |
Coal combustion characteristics on an oxy-fuel circulating fluidized bed combustor with warm flue gas recycle
Duan LB, Sun HC, Zhao CS, Zhou W, Chen XP |
| 52 - 61 |
Undesired effects in the determination of CO2 carrying capacities of CaO during TG testing
Alonso M, Criado YA, Abanades JC, Grasa G |
| 62 - 69 |
Development of a novel-synthesized Ca-based CO2 sorbent for multicycle operation: Parametric study of sorption
Angeli SD, Martavaltzi CS, Lemonidou AA |
| 70 - 77 |
Investigation of the friability of Ca looping sorbents during and after hydration based reactivation
Materic V, Hyland M, Jones MI, Holt R |
| 78 - 87 |
Kinetics of CO2 absorption by CaO through pressure swing cycling
Butler JW, Lim CJ, Grace JR |
| 88 - 93 |
Understanding the enhancement effect of high-temperature steam on the carbonation reaction of CaO with CO2
Li ZS, Liu Y, Cai NS |
| 94 - 100 |
Sol-gel-derived, CaO-based, ZrO2-stabilized CO2 sorbents
Broda M, Muller CR |
| 101 - 108 |
Novel synthetic sol-gel CaO based pellets using porous mesostructured silica in cyclic CO2 capture process
Sedghkerdar MH, Mahinpey N, Sun ZK, Kaliaguine S |
| 109 - 115 |
Reactivation by water hydration of the CO2 capture capacity of a calcium looping sorbent
Coppola A, Salatino P, Montagnaro F, Scala F |
| 116 - 123 |
An internally circulating fluid bed for attrition testing of Ca looping sorbents
Materic V, Holt R, Hyland M, Jones MI |
| 124 - 130 |
Effect of sulfation on CO2 capture of CaO-based sorbents during calcium looping cycle
Luo C, Zheng Y, Guo J, Feng B |
| 131 - 140 |
Multicyclic conversion of limestone at Ca-looping conditions: The role of solid-sate diffusion controlled carbonation
Sanchez-Jimenez PE, Valverde JM, Perez-Maqueda LA |
| 141 - 150 |
Modeling the behavior of limestone particles in oxy-fuel CFB processes
Rahiala S, Myohanen K, Hyppanen T |
| 151 - 160 |
Cold model study of a dual fluidized bed system for the gasification of solid fuels
Bidwe AR, Hawthorne C, Yu XZ, Dieter H, Scheffknecht G |
| 161 - 168 |
Defluidization of a quartz bed - Laboratory experiments with potassium salts
Sevonius C, Yrjas P, Hupa M |
| 169 - 177 |
The combustion of a fuel-rich mixture of methane and air in a bubbling fluidised bed of silica sand at 700 degrees C and also with particles of Fe2O3 or Fe present
Chadeesingh DR, Hayhurst AN |
| 178 - 185 |
Chemical-looping combustion of raw syngas from biomass steam gasification - Coupled operation of two dual fluidized bed pilot plants
Penthor S, Mayer K, Kern S, Kitzler H, Woss D, Proll T, Hofbauer H |
| 186 - 201 |
CO2-gasification of a lignite coal in the presence of an iron-based oxygen carrier for chemical-looping combustion
Saucedo MA, Lim JY, Dennis JS, Scott SA |
| 202 - 211 |
Entropy generation analyses of Endex and conventional calcium looping processes for CO2 capture
Ball R |
| 212 - 218 |
Direct CO2 capture from ambient air using K2CO3/Y2O3 composite sorbent
Derevschikov VS, Veselovskaya JV, Kardash TY, Trubitsyn DA, Okunev AG |
| 219 - 227 |
Partitioning of inorganic elements in pilot-scale and demonstration-scale entrained-flow gasifiers
Duchesne MA, Hughes RW |
