Results 231 to 240 of about 34,245 (281)

S.W.E.A.T. Thermochemical Heat Pump Storage System

SAE Technical Paper Series, 1993
<div class="htmlview paragraph">For many different reasons there is a great potential for a system capable of storing and using waste motor heat of cars to provide heating or cooling. If such a system has a high storage density application in electrical and hybrid vehicles may be interesting.</div> <div class="htmlview paragraph">The ...
H.A. de Beijer, J.W. Klein Horsman
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Thermochemical energy storage using phosphatic pebbles

MRS Advances, 2021
Calcium magnesium carbonate, also known as dolomite, is dispersed throughout Florida as a constituent of phosphate-mined resources. The mineral is problematic in the phosphoric acid production of phosphate for agriculture and must be separated so that it does not negatively affect the process. This means that this natural resource has no beneficial end
Sesha S. Srinivasan, Mc Ben Joe Charles, Haley C. Royce, Scott L. Wallen, Richard J. Matyi, Ashish R. Tanna   +5 more
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Thermal and Thermochemical Storage

2018
The principles and potential of latent heat storage (LHS) and thermochemical energy storage (TCES) are introduced. LHS is a reliable technology for heat storage over a wide range of temperatures from low to high, and for cold storage such as ice storage. Phase-change material (PCM) development is a key technology for LHS.
Yukitaka Kato, Takahiro Nomura
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THERMOCHEMICAL ENERGY STORAGE: FROM IN-SILICO CHARACTERIZATION TO FULL-SCALE EXPERIMENTATION

International Heat Transfer Conference 16, 2018
Thermochemical heat storage is still at a low TRL-level compared to sensible and latent heat storage. To improve its technological maturity simultaneous investigation on more than one length scale, ranging from molecular level up to system level, is required. In this work, the results of a multi-scale approach are presented to investigate the potential
Iype, E., Zhang, H., Pathak, A.D., Lan, S., Ferchaud, C., Gaeini, M., Rindt, C.C.M.   +6 more
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Thermochemical Energy Storage

1989
In thermochemical storage heat is stored as heat of reaction of a reversible thermochemical process $$ \sum {R\frac{{Heat in \to }}{{ \leftarrow Heat out}}} \sum P $$ (1) The reverse reaction is prevented from taking place by separating the products Σ P.
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Thermochemical heat storage at high temperature

2021
Implementation of cost-effective thermal energy storage systems is one of the signature advantages of concentrating solar power (CSP) plants. Currently these components are based on sensible heat storage in molten salts, but those compounds start to decompose below 600 °C.
Bayon A., Carrillo A. J., Mastronardo E., Coronado J. M.   +3 more
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Thermochemical Energy Storage Using Salt Hydrates

Volume 5: Energy Systems Analysis, Thermodynamics and Sustainability; NanoEngineering for Energy; Engineering to Address Climate Change, Parts A and B, 2010
We investigate the capability of salt hydrates, using magnesium sulfate heptahydrate as a model salt, to store thermo-chemical energy as they dissociate into anhydrous salts or lower hydrates and water vapor upon heating. When salt hydrates are heated to the temperature required to activate the dehydration reaction, water desorption occurs from the ...
Ganesh Balasubramanian, Mehdi Ghommem, Muhammad R. Hajj, William P. Wong, Jennifer A. Tomlin, Ishwar K. Puri   +5 more
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SOLAR THERMOCHEMICAL ENERGY-STORAGE SYSTEM ‎ ‎(THERMOCHEMICAL BATTERY)‎

Misr Journal of Agricultural Engineering, 2022
Shaymaa Hassan, Mubarak Mustafa, Mahmoud Attar   +2 more
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Chapter 11. Thermochemical Energy Storage Devices

2021
The use of reversible gas–solid reactions as an energy storage route could offer relevant technological contributions to an energy system predominantly based on renewable energy. However, our current understanding of this technology is mainly based on fundamental material research and generic application concepts.
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Thermochemical Data Storage for Inorganic Compounds

Nature, 1966
THE method proposed by Alcock1 as a means of correcting an approximate free-energy change calculated from the simple two-term equation leads to a system of thermochemical data storage which possesses many advantages over the free-energy function and polynomial methods.
R. A. J. SHELTON, S. BLAIRS
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