Advanced Packed-Bed Ca-Cu Looping Process for the CO2 Capture From Steel Mill Off-Gases
Published 2020 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Advanced Packed-Bed Ca-Cu Looping Process for the CO2 Capture From Steel Mill Off-Gases
Authors
Keywords
-
Journal
Frontiers in Energy Research
Volume 8, Issue -, Pages -
Publisher
Frontiers Media SA
Online
2020-07-02
DOI
10.3389/fenrg.2020.00146
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Techno-economic analysis of a natural gas combined cycle integrated with a Ca-Cu looping process for low CO2 emission power production
- (2019) I. Martínez et al. International Journal of Greenhouse Gas Control
- Recent progress of the Ca-Cu technology for decarbonisation of power plants and carbon intensive industries
- (2019) Isabel Martínez et al. International Journal of Greenhouse Gas Control
- Complete Ca/Cu cycle for H 2 production via CH 4 sorption enhanced reforming in a Lab-Scale fixed bed reactor
- (2018) L. Díez-Martín et al. CHEMICAL ENGINEERING JOURNAL
- Optimization of the Iron Ore Direct Reduction Process through Multiscale Process Modeling
- (2018) Rami Béchara et al. Materials
- Integration of a fluidised bed Ca–Cu chemical looping process in a steel mill
- (2018) I. Martínez et al. ENERGY
- Enhanced hydrogen production from thermochemical processes
- (2018) Guozhao Ji et al. Energy & Environmental Science
- Techno-economic analysis of the Ca-Cu process integrated in hydrogen plants with CO2 capture
- (2018) Leonardo Riva et al. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
- Chemical looping reforming in packed-bed reactors: Modelling, experimental validation and large-scale reactor design
- (2017) V. Spallina et al. FUEL PROCESSING TECHNOLOGY
- Integration of the Ca–Cu Process in Ammonia Production Plants
- (2017) Isabel Martínez et al. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH
- Conceptual design of a Ca–Cu chemical looping process for hydrogen production in integrated steelworks
- (2017) J.R. Fernández et al. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
- The energy consumption and carbon emission of the integrated steel mill with oxygen blast furnace
- (2017) Peng Jin et al. RESOURCES CONSERVATION AND RECYCLING
- Overview of the Ca–Cu looping process for hydrogen production and/or power generation
- (2017) JR Fernández et al. Current Opinion in Chemical Engineering
- CO2 abatement from the iron and steel industry using a combined Ca–Fe chemical loop
- (2016) Sicong Tian et al. APPLIED ENERGY
- Calcium looping sorbents for CO 2 capture
- (2016) María Erans et al. APPLIED ENERGY
- Investigation of the process operability windows for Ca-Cu looping for hydrogen production with CO 2 capture
- (2016) M. Martini et al. CHEMICAL ENGINEERING JOURNAL
- CaCO3 calcination by the simultaneous reduction of CuO in a Ca/Cu chemical looping process
- (2015) J.M Alarcón et al. CHEMICAL ENGINEERING SCIENCE
- High-temperature pressure swing adsorption cycle design for sorption-enhanced water–gas shift
- (2015) Jurriaan Boon et al. CHEMICAL ENGINEERING SCIENCE
- Thermodynamic analysis of hydrogen production via chemical looping steam methane reforming coupled with in situ CO 2 capture
- (2015) A. Antzara et al. International Journal of Greenhouse Gas Control
- CO 2 capture in integrated steelworks by commercial-ready technologies and SEWGS process
- (2015) Matteo Gazzani et al. International Journal of Greenhouse Gas Control
- Integration of coal gasification and packed bed CLC for high efficiency and near-zero emission power generation
- (2014) V. Spallina et al. International Journal of Greenhouse Gas Control
- Comparison of CO2 capture economics for iron and steel mills
- (2013) Minh T. Ho et al. International Journal of Greenhouse Gas Control
- Top gas recycling blast furnace developments for ‘green’ and sustainable ironmaking
- (2013) J van der Stel et al. IRONMAKING & STEELMAKING
- Post-combustion capture of CO2 at an integrated steel mill – Part II: Economic feasibility
- (2012) Eemeli Tsupari et al. International Journal of Greenhouse Gas Control
- Post-combustion capture of CO2 at an integrated steel mill – Part I: Technical concept analysis
- (2012) Antti Arasto et al. International Journal of Greenhouse Gas Control
- Ca-based synthetic materials with enhanced CO2capture efficiency
- (2012) Jose Manuel Valverde Journal of Materials Chemistry A
- Conceptual design of a hydrogen production process from natural gas with CO2 capture using a Ca–Cu chemical loop
- (2011) J.R. Fernández et al. International Journal of Greenhouse Gas Control
- Progress in Chemical-Looping Combustion and Reforming technologies
- (2011) Juan Adanez et al. PROGRESS IN ENERGY AND COMBUSTION SCIENCE
- Hydrogen Production via Steam Reforming of Methane with Simultaneous CO2Capture over CaO−Ca12Al14O33
- (2010) Christina S. Martavaltzi et al. ENERGY & FUELS
- Experimental Investigation of a CuO/Al2O3Oxygen Carrier for Chemical-Looping Combustion
- (2010) Sander Noorman et al. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH
- A Novel Approach of Retrofitting a Combined Cycle With Post Combustion CO[sub 2] Capture
- (2010) Klas Jonshagen et al. JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER-TRANSACTIONS OF THE ASME
- Carbon Capture by Sorption-Enhanced Water−Gas Shift Reaction Process using Hydrotalcite-Based Material
- (2009) E. R. van Selow et al. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH
- The calcium looping cycle for large-scale CO2 capture
- (2009) J. Blamey et al. PROGRESS IN ENERGY AND COMBUSTION SCIENCE
- Production of hydrogen by unmixed steam reforming of methane
- (2008) V. Dupont et al. CHEMICAL ENGINEERING SCIENCE
- Sorption-Enhanced Hydrogen Production: A Review
- (2008) Douglas P. Harrison INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH
Publish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn MoreBecome a Peeref-certified reviewer
The Peeref Institute provides free reviewer training that teaches the core competencies of the academic peer review process.
Get Started