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34 H. Zhang et al./Progress in Energy and Combustion Science 53 (2016) 1–40 Table 27 Fig. 34. Possible layout with BFB heating of the hot side Stirling heat exchanger. Literature review on solar receiver developments using powders as HTF. Year Concept and Use 1980 Concept of a fluidized bed receiver, no solids circulation, batch operation 1982 Fluidized bed solar receiver 1982 Free falling particles receiver, model of particle selection and radiative heat transfer were proposed [220] 1985 The use of small refractory pebbles or sand as the working media in a high temperature solar central receiver system was proposed and examined. Particle selection and radiative heat transfer model of free fall receiver 1989 A two-part system, where a rotary kiln receiver connects to hot storage/heat recovery sub-system (storage bins and multistage fluidized heat exchanger) 2004 Two high-porosity materials, a double-layer silicon carbide foam and a screen-printed porous silicon carbide material were proposed to be used as volumetric receivers for concentrated solar radiation. 2010 Pilot scale prototype validation of high temperature solar thermal concentrating plant at National Solar Thermal Test Facility (NSTTF). Cavity receiver with falling particle films 2010 Effect of wind speed and parasitic air flows inside the cavity on particle aerodynamics 2010 An internally circulating fluidized (draft tube) using fluidized particles as water splitting reactor with solar simulated light irradiation (non-CSP application) 2011 Face-down solid particle receiver concept and modelling 2011 Fluidized bed heat exchanger model 2011 A simulation analysis was applied to a porous media solar tower receiver. The established working diagram provides a reference for receiver design and reconstruction. 2011 Combined conveyor and heat transfer device which consist in a rotatable conveyor drum and heat transfer fluid conduits within the drum 2012 Particle–air heat exchangers integrated with storage bins at the top of the tower was proposed 2012 CFB particulate receiver 2013 CFB with encapsulated PCM particles 2013 Concept of screw conveyor heat exchanger, whereby PCMs can be transported within the shaft and height. Decouples the heat transfer and storage and develops an economically viable latent heat storage. 2013 A dense particle suspension receiver (DPSR) was proposed and tested at pilot scale. Upward circulation of a dense suspension of particles (SiC) as HTF to extend the working temperature limit to the bearing capacity of the receiver tube. 2014 An inner-circulating fluidized bed spouted by concentric gas streams with high and low velocities in the centre and outer annulus, respectively, with an irradiation source at the top of the receiver container. 2014 A thermal energy storage (TES) system was developed by NREL using solid particles as the storage medium for CSP plants. Based on their performance analysis, particle TES systems using low-cost, high T withstand able and stable material can reach 10$/kWhth, half the cost of the current molten-salt based TES 2014 A heat transfer model to predict the heat transfer coefficient for different operating conditions in CFB receiver was proposed, with air flow rate and solids circulation flux as dominant parameters. 2014 Optimized optical particle properties for a high temperature solar receiver 2015 Design optimization of a small heat exchange receiver for solar tower power plants 2015 Design of a packed bed TES for high temperature Ref. Flamant et al. [211] Flamant [208] Martin and Vitko [209] Falcone et al. [223] Bataille et al. [210] Fend et al. [224] Siegel et al. [212] Tan and Chen [213] Gokon et al. [225] Röger et al. [214] Warerkar et al. [215] Xu et al. [226] Jeter and Stephens [227] Al-Ansary et al. [216] Brems et al. [106]. Pitié et al. [7] Zipf et al. [228] Flamant et al. [18,21] Matsubara et al. [229] Ma et al. [230] Zhang et al. [231] Ordóñez et al. [232] Fernández and Miller [233] Zanganeh et al. [234]PDF Image | Thermal energy storage: Recent developments
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