Mohammad Rahjoo scite author profile

Mohammad Rahjoo

3Publications

34Citation Statements Received

73Citation Statements Given

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Center for Materials Physics, K.N.Toosi University of Technology, Carlos III University of Madrid

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Geopolymer Concrete Performance Study for High-Temperature Thermal Energy Storage (TES) Applications

Rahjoo

Goracci

Martauz³

et al. 2022

Sustainability

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Solar energy is an energy intermittent source that faces a substantial challenge for its power dispatchability. Hence, concentrating solar power (CSP) plants and solar process heat (SPH) applications employ thermal energy storage (TES) technologies as a link between power generation and optimal load distribution. Ordinary Portland cement (OPC)-based materials are widely used in sensible TES, but their use is limited to operation temperatures below 400 to 500 °C because of thermal degradation processes. This work proposes a geopolymer (GEO)-based concrete as a suitable alternative to OPC concrete for TES that withstands high running temperatures, higher than 500 °C. To this end, thermophysical properties of a geopolymer-based concrete sample were initially measured experimentally; later, energy storage capacity and thermal behavior of the GEO sample were modeled numerically. In fact, different thermal scenarios were modeled, revealing that GEO-based concrete can be a sound choice due to its thermal energy storage capacity, high thermal diffusivity and capability to work at high temperature regimes.

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Thermal analysis of a cell of lead-acid battery subjected by non-uniform heat flux during natural convection

Malekshah

Salari

et al. 2018

Thermal Science and Engineering Progress

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Thermal Energy Storage (TES) Prototype Based on Geopolymer Concrete for High-Temperature Applications

et al. 2022

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Thermal energy storage (TES) systems are dependent on materials capable of operating at elevated temperatures for their performance and for prevailing as an integral part of industries. High-temperature TES assists in increasing the dispatchability of present power plants as well as increasing the efficiency in heat industry applications. Ordinary Portland cement (OPC)-based concretes are widely used as a sensible TES material in different applications. However, their performance is limited to operation temperatures below 400 °C due to the thermal degradation processes in its structure. In the present work, the performance and heat storage capacity of geopolymer-based concrete (GEO) have been studied experimentally and a comparison was carried out with OPC-based materials. Two thermal scenarios were examined, and results indicate that GEO withstand high running temperatures, higher than 500 °C, revealing higher thermal storage capacity than OPC-based materials. The high thermal energy storage, along with the high thermal diffusion coefficient at high temperatures, makes GEO a potential material that has good competitive properties compared with OPC-based TES. Experiments show the ability of geopolymer-based concrete for thermal energy storage applications, especially in industries that require feasible material for operation at high temperatures.

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Mohammad Rahjoo

Geopolymer Concrete Performance Study for High-Temperature Thermal Energy Storage (TES) Applications

Thermal analysis of a cell of lead-acid battery subjected by non-uniform heat flux during natural convection

Thermal Energy Storage (TES) Prototype Based on Geopolymer Concrete for High-Temperature Applications

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