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Analysis on innovative modular sorption and resorption thermal cell for cold and heat cogeneration

L. Jiang, A.P. Roskilly, R.Z. Wang, L.W. Wang and Y.J. Lu

Applied Energy, 2017, vol. 204, issue C, 767-779

Abstract: Innovative modular sorption and resorption thermal cell are presented for cold and heat cogeneration. Expanded natural graphite treated with sulfuric acid is selected in the development of composite sorbents for improved heat and mass transfer performance. It is indicated that thermal conductivity and permeability range from 11.9Wm−1K−1 to 36.5Wm−1K−1 and from 1.04×10−14m2 to 8.02×10−11m2. Sorption characteristics of composite sorbents are also investigated. Results demonstrate that MnCl2-CaCl2-NH3 reveals the best sorption performance under the condition of 130–150°C heat source temperature and −20°C to 5°C evaporation temperature. Sorption quantities of sorption and resorption working pairs range from 0.169kgkg−1 to 0.499kgkg−1. Based on testing results, energy density and power density of modular resorption thermal cell are compared with that of sorption thermal cell. Results indicate that heat density ranges from 580kJkg−1 to 1368kJkg−1 whereas cold density ranges from 400kJkg−1 to 1134kJkg−1. Simultaneously, heat and cold power density range from 322Wkg−1 to 1502Wkg−1 and from 222Wkg−1 to 946Wkg−1. Both sorption and resorption thermal cell have their own advantages, which are flexible connected for scaling applications.

Keywords: Composite sorbent; Heat and mass transfer performance; Sorption characteristic; Resorption thermal cell (search for similar items in EconPapers)
Date: 2017
References: View references in EconPapers View complete reference list from CitEc
Citations: View citations in EconPapers (17)

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DOI: 10.1016/j.apenergy.2017.07.041

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