Provided by the Springer Nature SharedIt content-sharing initiative The lack of robust and low-cost sorbent materials still represents a formidable technological barrier for long-term storage of (renewable) thermal energy and more generally for Adsorptive Heat Transformations—AHT.
Alonso, M.C.; Vera-Agullo, J.; Guerreiro, L.; Flor-Laguna, V.; Sanchez, M.; Collares-Pereira, M. Calcium aluminate based cement for concrete to be used as thermal energy storage in solar thermal electricity plants. Cem. Concr. Res. 2016, 82, 74–86. [ Google Scholar] [ CrossRef]
One of the first concepts for TES based on concrete for high temperature applications was developed and studied by DLR. Laing et al. [ 12] built a prototype with high-temperature concrete and a storage capacity of approximately 280 kWh.
It is also important to analyze the CO 2 equivalent emissions for manufacturing the thermal energy storage materials themselves. The thermal energy storage materials in this study include firebricks (Al 2 O 3, MgO, SiC), silicon, carbonate minerals, etc.
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The lack of robust and low-cost sorbent materials still represents a formidable technological barrier for long-term storage of (renewable) thermal energy and more generally …
Cost-effective CO2 capture is essential for decarbonized cement production since it is one of the largest CO2 emission sources, where 60% of direct emissions are from CaCO3 …
The CO 2 generated in the calciner is directly separated with CO 2 as the heat transfer fluid. The proposed process in a cement plant is assessed in the energy, environment, …
The known performance defects of cement-based wellbore protection and plugging materials in high temperature environment are common key problems affecting the success of …
Since castable cement offers an inexpensive route to a refractory and chemically compatible material for high temperature molten salts, we are also expecting additional cost savings by …
The economic performance of diferent energy storage materials is investigated for materials selection. The proposed manufacturing process with a few high-temperature energy …
The proposed manufacturing process with a few high-temperature energy storage materials (BaCO3/BaO, SrCO3/SrO, Si, etc.) offers a higher CO2 emission reduction and …
Thermal energy storage (TES) allows the existing mismatch between supply and demand in energy systems to be overcome. Considering temperatures above 150 °C, there …
However, batch operation imposes a challenge in supplying a continuous heat flow. Therefore, medium-to-high-temperature thermal energy storage technologies could be …
In terms of total energy use, cement manufacturing accounts for two-thirds of the total energy use in the production of non-metallic materials.
Thermal energy storage (TES) in solid, non-combustible materials with stable thermal properties at high temperatures can be more efficient and economical than other …
A concept for thermal energy storage (TES) in concrete as solid media for sensible heat storage is proposed to improve the cost and efficiency of solar thermal electricity (STE) …
Cement-based technologies are emerging as promising alternatives to conventional batteries and thermal storage systems. This article explores how cement is being …
This study seeks to make a significant impact by developing an advanced concrete tailored for high-temperature applications, including critical uses in thermal energy storage for …
Thermal energy storage (TES) allows the existing mismatch between supply and demand in energy systems to be overcome. Considering temperatures above 150 °C, there …
Pore structure is a key factor affecting the fire resistance of cement-based fireproof materials. In this study, a heat-insulating and heat-resistant …
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