Johannes Pottas scite author profile

A transient heat transfer model is developed to study the thermal performance of a high-temperature solar thermochemical reactor for metal oxide reduction. The solar reactor consists of an indirectly irradiated tubular fluidized bed contained in a solar cavity receiver. Radiative heat transfer in the cavity, modeled with the Monte Carlo ray-tracing method, is coupled to conduction in the tube and cavity walls. Incident radiation distributions from a diffuse radiative source and a high-flux solar simulator are implemented separately in the model to study the influence of incident radiation directionality on the performance of the reactor. Maximum temperature, maximum thermal stress, start-up time, energy balance, and particle reduction rate for the proposed reactor concept are calculated to inform the design and optimization of a prototype reactor.

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Optical alignment and radiative flux characterization of a multi-source high-flux solar simulator

Pottas

Habib

et al. 2022

Solar Energy

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Design of efficient stamped mirror facets using topography optimisation

Rumsey-Hill

Pottas

Coventry

2019

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Johannes Pottas

Design of a compound parabolic concentrator for a multi-source high-flux solar simulator

Thermal reduction of iron–manganese oxide particles in a high-temperature packed-bed solar thermochemical reactor

Thermal Model of a Solar Thermochemical Reactor for Metal Oxide Reduction

Optical alignment and radiative flux characterization of a multi-source high-flux solar simulator

Design of efficient stamped mirror facets using topography optimisation

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