Progress in multiscale research on calcium-loo** for thermochemical energy storage: From materials to systems
Thermochemical energy storage (TCES) based on calcium-loo** (CaL) has great
potential to mitigate the intermittency and instability problems of solar energy harvesting …
potential to mitigate the intermittency and instability problems of solar energy harvesting …
Advances in the application of active metal-based sorbents and oxygen carriers in chemical loo** biomass steam gasification for H2 production
X Zhang, ACK Yip, S Pang - International Journal of Hydrogen Energy, 2023 - Elsevier
Active metal-based materials (AMMs) as CO 2 sorbents or oxygen carriers (OCs) have been
investigated to enhance hydrogen production during various biomass-based chemical …
investigated to enhance hydrogen production during various biomass-based chemical …
Eco-friendly, sustainable and porous eggshell/tea waste-derived CaO nanoparticles as a high-temperature CO2 sorbent: Fabrication and textural/morphological …
The CaO-based sorbents suffer from a high-intensity sintering rate and require costly
promoters to improve their CO 2 capture capacity through the Calcium Loo** (CaL) …
promoters to improve their CO 2 capture capacity through the Calcium Loo** (CaL) …
[HTML][HTML] Upgrading CO2 from simulated power plant flue gas via integrated CO2 capture and dry reforming of methane using Ni-CaO
Integrated CO 2 capture and utilisation via dry reforming of methane (ICCU-DRM)
represents a promising and profitable route for directly capturing and converting CO 2 from …
represents a promising and profitable route for directly capturing and converting CO 2 from …
Integrated operation and efficiency analysis of CaCO3/CaO in a fixed-bed reactor for thermochemical energy storage
Calcium-based thermochemical energy storage (TCES) has attracted much attention in solar
energy utilization and storage. However, the investigations of the CaCO 3/CaO system are …
energy utilization and storage. However, the investigations of the CaCO 3/CaO system are …
[HTML][HTML] Effect of heating rate on the kinetics of limestone calcination
This paper reports on the effect of heating rates between 0.1° C/s and 205.0° C/s on the
thermodynamics and kinetics of limestone calcination in air. These heating rates are orders …
thermodynamics and kinetics of limestone calcination in air. These heating rates are orders …
[HTML][HTML] Optimization of an improved calcium-loo** process for thermochemical energy storage in concentrating solar power plants
The calcium-loo** (CaL) process comprises an endothermic calcination reaction, where
CaO and CO 2 are generated from CaCO 3, and its reverse exothermic carbonation …
CaO and CO 2 are generated from CaCO 3, and its reverse exothermic carbonation …
Design, off-design and operation study of concentrating solar power system with calcium-loo** thermochemical energy storage and photovoltaic-driven compressed …
C Zhang, J Sun, Y Qiao, J Wei - Energy, 2024 - Elsevier
The combination of thermochemical energy storage (TCES) based on calcium-loo** (CaL)
and concentrating solar power (CSP) is favorable as the potential choice for large-scale, low …
and concentrating solar power (CSP) is favorable as the potential choice for large-scale, low …
Kinetic parameterization of the effects of atmospheric and self-generated carbon dioxide on the thermal decomposition of calcium carbonate
The kinetics of the thermal decomposition of CaCO3 is significantly influenced by
atmospheric and self-generated CO2 due to the reversibility of the reaction. More detailed …
atmospheric and self-generated CO2 due to the reversibility of the reaction. More detailed …
Kinetic Insight into the Effect of Self-Generated CO2 on the Thermal Decomposition of Inorganic Carbonates in an Inert Gas Atmosphere: ZnCO3 and CaCO3
This study aims to parametrize the effect of self-generated gas on the thermal decomposition
of inorganic solids in an inert gas atmosphere. The kinetics of reversible thermal …
of inorganic solids in an inert gas atmosphere. The kinetics of reversible thermal …