Thermal energy storage is a key enabling technology for the recovery and valorisation of industrial waste heat. Nevertheless, there is a wide gap between the …
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For instance, thermal energy storage can be subdivided into three categories: sensible heat storage (Q S,stor), latent heat storage (Q Lstor), and sorption heat storage (Q SP,stor). The Q S,stor materials do not undergo phase change during the storage energy process, and they typically operate at low-mid range temperatures [ 8, 9 ].
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Serge Nyallang Nyamsi & Ivan Tolj & Mykhaylo Lototskyy, 2019. "Metal Hydride Beds-Phase Change Materials: Dual Mode Thermal Energy Storage for Medium-High Temperature Industrial Waste Heat Recovery," Energies, MDPI, vol. 12(20), pages 1-27, October.
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The advantages of this system will enable the efficient use of waste heat in an economically variable way to deliver heat without pipeline as normally done in a district heat network. Experimental tests of different storage materials and the dimension and structure of the storage tank and heat exchangers in the M-TES are presented in this …
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The thermal expansion was determined to be similar to other silicate-based materials with a mean value of 8.8 × 10 −6 /K between 200 °C and 1000 °C. The glass form was found to have a slightly higher Young''s modulus at room temperature with a measured value of 113 GPa when compared to the ceramic value of 90 GPa.
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Thermal energy storage (TES) is increasingly important due to the demand-supply challenge caused by the intermittency of renewable energy and waste …
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Heat storage systems based on two-tank thermochemical heat storage are gaining momentum for their utilization in solar power plants or industrial waste heat …
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Sorption thermal energy storage is a promising technology for effectively utilizing renewable energy, industrial waste heat and off-peak electricity owing to its remarkable advantages of a high energy storage density and achievable long-term energy preservation with negligible heat loss. It is the latest thermal energy storage technology …
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In this work, an industrial waste based on a double salt hydrate, coming from non-metallic mining was studied for thermochemical storage applications. Initially, chemical characterization was ...
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Emphasis is placed on THS for solar thermal energy storage and also for industrial waste heat recovery. At the materials level, in addition to a review on THS …
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Industrial waste heat recovery 30 C 1600 C Biomedical applications −30 C 22 C Absorption refrigeration 80 C 230 C ... the conducted research also comprehensively analysed the selection thermal energy storage in materials that can stay stable above 600 8 ...
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Several industrial waste from metal industries in the UAE have been identified to be recycled as low-cost materials for high-temperature thermal energy storage (TES) systems development. Electric arc furnace (EAF) slag, ladle furnace (LF) slag, aluminum pot skimming (APS) and aluminum white dross (AWD) have been …
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Thermal energy storage (TES) is a technology which can solve the existing mismatch by recovering the IWH and storing it for a later use. Moreover, the use of recovered IWH …
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It is well known that for a sorption thermal energy storage system, low heat and mass transfer rates are significant problems that limit the development of sorption thermal energy storage technology. To solve this problem, a honeycomb ceramic filter (10 cm (width) × 10 cm (length) × 20 cm (height)) with 36 cells/cm 2 was developed using …
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Thermal energy storage is a key enabling technology for the recovery and valorisation of industrial waste heat. Nevertheless, there is a wide gap between the variety of heat storage options investigated and the recurrent few types virtually implemented in …
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Slag is one of the main waste materials of the iron and steel manufacturing. Every year about 20 × 106 tons of slag are generated in the U.S. and 43.5 × 106 tons in Europe. The valorization of this by-product as heat storage material in thermal energy storage (TES) systems has numerous advantages which include the possibility to extend …
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Latent Heat Thermal Energy Storage (LHTES) system employs Phase Change Materials (PCMs) to store and release heat by reversible liquid/solid phase transformation [3]. LHTES is believed to be one of the most promising energy storage methods, owing to its high energy storage density and its ability to provide constant …
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This subsector includes activities related to mined or quarried sand, gravel, stone or clay as well as the manufacture of glass and glass products, tiles and baked clay products, ceramic products, concrete and cement and plaster, from raw materials to finished products [3]. The production of this sector, especially for cement, has grown in the ...
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In this regard, this paper presents the review of low cost heat storage materials focused mainly in two objectives: on the one hand, the implementation of improved heat...
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Reductions in energy consumption, carbon footprint, equipment size, and cost are key objectives for the forthcoming energy-intensive industries roadmaps. In this sense, solutions such as waste heat recovery, which can be replicated into different sectors (e.g., ceramics, concrete, glass, steel, aluminium, pulp, and paper) are highly promoted. …
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Review on the recent progress of thermochemical materials and processes for solar thermal energy storage and industrial waste heat recovery *Corresponding author: hasila. [email protected] ...
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Abstract The U.S. industrial sector accounts for about one third of the total energy consumed in the United States and is responsible for about one third of fossil fuel related greenhouse gas emissions. It is estimated that somewhere between 20 to 50% of industrial
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Mobilized thermal energy storage can be used to recover and store industry waste heat. • Erythritol has been widely used as PCM for the mobilized thermal energy storage. • The direct-contact system has shorter charging/discharging period than the indirect system.
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Thermal energy storage (TES) for industrial waste heat (IWH) recovery: a review Appl Energy, 179 ( 2016 ), pp. 284 - 301, 10.1016/j.apenergy.2016.06.147 View PDF View article View in Scopus Google Scholar
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The energy cost of an M-TES is in a range of 0.02–0.08 € kW h −1, basically equal to that of the conventional heat supply methods. However, the economic feasibility of the M-TES system is susceptible to factors, such as operating strategy, transportation distance, waste heat price, revenues and subsidies.
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The recovery and storage of process heat in industrial applications are some of the key factors to improve the sustainability and reliability of high temperature applications. In this sense, one of the main drawbacks is focused on the selection of proper thermal energy storage (TES) materials. This paper performs a full characterization of …
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Energy 2015;79(January):337–50. [29] Zukowski M. Experimental study of short term thermal energy storage unit based on enclosed phase change material in polyethylene film bag. Energy Convers Manage 2007;48:166–73. [30] Pendyala S. Macroencapsulation of
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analysis and life cycle assessment of a thermal energy storage unit involving conventional or recycled storage materials and devoted to industrial waste heat valorisation. Journal of Cleaner Production, 2022, 330, pp.129950. 10.1016/j.jclepro.2021.129950
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With the aim of testing other wastes usually present in the non-metallic industry as thermal energy storage materials, the potential of two double hydrated salts were evaluated [47]: synthetic astrakanite (Na 2 SO 4 ·MgSO 4 …
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Slags are one of the main waste materials of the iron and steel manufacturing. Every year about 20 million tons of slags are generated in the United States and 43.5 million tons in Europe. SEM ...
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