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Solar-powered single-and double-effect directly air-cooled LiBr–H2O absorption prototype built as a single unit

Author

Listed:
  • Izquierdo, M.
  • González-Gil, A.
  • Palacios, E.

Abstract

This work describes an installation in Madrid, Spain, designed to test a new solar-powered air-cooled absorption refrigeration system. This installation essentially consists of a-48m2 field of flat-plate solar collectors, a 1500-L hot water storage tank and a single and-double effect air-cooled lithium bromide absorption prototype. Designed and built by our research group, this prototype is able to operate either as a single-effect unit (4.5kW) or as a double-effect unit (7kW). In operation as single-effect mode, the prototype is driven by solar energy, whereas in operation as a double effect mode, an external energy source may be used. The prototype’s evaporator is connected to a fan-coil placed inside an 80-m2 laboratory that represent the average size of a Spanish housing unit. In August 2009, the cooling system was tested in the single-effect operation mode. The results show that the system is able to meet approximately 65% of the laboratory’s seasonal cooling demand, although 100% may be reached for a few days. The prototype can also operate in double-effect mode to meet the cooling demand. In that case, the prototype is fed by thermal oil, which is warmed until it reaches the process temperature in the high-temperature generator. The prototype can operate in either single-effect mode or in double-effect mode or can also operate simultaneously both modes using the components common to both modes, namely, the absorber, evaporator, condenser, solution pumps and control equipment. This paper reports the experimental results from the prototype operating separately in single-effect and double-effect mode.

Suggested Citation

  • Izquierdo, M. & González-Gil, A. & Palacios, E., 2014. "Solar-powered single-and double-effect directly air-cooled LiBr–H2O absorption prototype built as a single unit," Applied Energy, Elsevier, vol. 130(C), pages 7-19.
    • Handle: RePEc:eee:appene:v:130:y:2014:i:c:p:7-19
    DOI: 10.1016/j.apenergy.2014.05.028
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    References listed on IDEAS

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    1. Palacios, E. & Izquierdo, M. & Marcos, J.D. & Lizarte, R., 2009. "Evaluation of mass absorption in LiBr flat-fan sheets," Applied Energy, Elsevier, vol. 86(12), pages 2574-2582, December.
    2. Izquierdo, M. & Moreno-Rodríguez, A. & González-Gil, A. & García-Hernando, N., 2011. "Air conditioning in the region of Madrid, Spain: An approach to electricity consumption, economics and CO2 emissions," Energy, Elsevier, vol. 36(3), pages 1630-1639.
    3. González-Gil, A. & Izquierdo, M. & Marcos, J.D. & Palacios, E., 2012. "New flat-fan sheets adiabatic absorber for direct air-cooled LiBr/H2O absorption machines: Simulation, parametric study and experimental results," Applied Energy, Elsevier, vol. 98(C), pages 162-173.
    4. Balaras, Constantinos A. & Grossman, Gershon & Henning, Hans-Martin & Infante Ferreira, Carlos A. & Podesser, Erich & Wang, Lei & Wiemken, Edo, 2007. "Solar air conditioning in Europe--an overview," Renewable and Sustainable Energy Reviews, Elsevier, vol. 11(2), pages 299-314, February.
    5. Izquierdo, M. & Marcos, J.D. & Palacios, M.E. & González-Gil, A., 2012. "Experimental evaluation of a low-power direct air-cooled double-effect LiBr–H2O absorption prototype," Energy, Elsevier, vol. 37(1), pages 737-748.
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    Cited by:

    1. Gao, Yu & He, Guogeng & Chen, Peidong & Zhao, Xin & Cai, Dehua, 2019. "Energy and exergy analysis of an air-cooled waste heat-driven absorption refrigeration cycle using R290/oil as working fluid," Energy, Elsevier, vol. 173(C), pages 820-832.
    2. Lubis, Arnas & Jeong, Jongsoo & Giannetti, Niccolo & Yamaguchi, Seiichi & Saito, Kiyoshi & Yabase, Hajime & Alhamid, Muhammad I. & Nasruddin,, 2018. "Operation performance enhancement of single-double-effect absorption chiller," Applied Energy, Elsevier, vol. 219(C), pages 299-311.
    3. Chugh, Devesh & Gluesenkamp, Kyle & Abdelaziz, Omar & Moghaddam, Saeed, 2017. "Ionic liquid-based hybrid absorption cycle for water heating, dehumidification, and cooling," Applied Energy, Elsevier, vol. 202(C), pages 746-754.
    4. Cola, Fabrizio & Hey, Jonathan & Romagnoli, Alessandro, 2018. "Characterization of the droplet formation phase for the H2OLiBr absorber: An analytical and experimental analysis," Applied Energy, Elsevier, vol. 222(C), pages 885-897.
    5. Carotenuto, Alberto & Figaj, Rafal Damian & Vanoli, Laura, 2017. "A novel solar-geothermal district heating, cooling and domestic hot water system: Dynamic simulation and energy-economic analysis," Energy, Elsevier, vol. 141(C), pages 2652-2669.
    6. Chen, Guansheng & Liu, Chongchong & Li, Nanshuo & Li, Feng, 2017. "A study on heat absorbing and vapor generating characteristics of H2O/LiBr mixture in an evacuated tube," Applied Energy, Elsevier, vol. 185(P1), pages 294-299.
    7. Abdul Mujeebu, Muhammad & Alshamrani, Othman Subhi, 2016. "Prospects of energy conservation and management in buildings – The Saudi Arabian scenario versus global trends," Renewable and Sustainable Energy Reviews, Elsevier, vol. 58(C), pages 1647-1663.
    8. Li, Xiu-Wei & Zhang, Xiao-Song & Wang, Hao & Zhang, Zhuo, 2016. "Capacitive deionization regeneration as a possible improvement of membrane regeneration method for absorption air-conditioning system," Applied Energy, Elsevier, vol. 171(C), pages 405-414.

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