1 |
Energy consumption minimization for a solar lime calciner operating in a concentrated solar power plant for thermal energy storage Lisbona P, Bailera M, Hills T, Sceats M, Diez LI, Romeo LM Renewable Energy, 156, 1019, 2020 |
2 |
Thermodynamics and kinetics analysis of Ca-looping for CO2 capture: Application of carbide slag Yang J, Ma LP, Liu HP, Wei Y, Keomounlath B, Dai QX Fuel, 242, 1, 2019 |
3 |
One-dimensional model of entrained-flow carbonator for CO2 capture in cement kilns by Calcium looping process Spinelli M, Martinez I, Romano MC Chemical Engineering Science, 191, 100, 2018 |
4 |
Process integration of a Calcium-looping process with a natural gas combined cycle power plant for CO2 capture and its improvement by exhaust gas recirculation Hu Y, Ahn H Applied Energy, 187, 480, 2017 |
5 |
A new integration model of the calcium looping technology into coal fired power plants for CO2 capture Ortiz C, Chacartegui R, Valverde JM, Becerra JA Applied Energy, 169, 408, 2016 |
6 |
Heat integration of alternative Ca-looping configurations for CO2 capture Lara Y, Martinez A, Lisbona P, Romeo LM Energy, 116, 956, 2016 |
7 |
Thermodynamic analysis of CO2 capture by calcium looping process driven by coal and concentrated solar power Zhai RR, Li C, Qi JW, Yang YP Energy Conversion and Management, 117, 251, 2016 |
8 |
CO2 capture by calcium aluminate pellets in a small fluidized bed Blamey J, Al-Jeboori MJ, Manovic V, Fennell PS, Anthony EJ Fuel Processing Technology, 142, 100, 2016 |
9 |
Increasing CO2 carrying capacity of dolomite by means of thermal stabilization by triggered calcination Herce C, Stendardo S, Cortes C Chemical Engineering Journal, 262, 18, 2015 |
10 |
Pressurised calcination-atmospheric carbonation of limestone for cyclic CO2 capture from flue gases Kavosh M, Patchigolla K, Oakey JE, Anthony EJ, Champagne S, Hughes R Chemical Engineering Research & Design, 102, 116, 2015 |