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Solar cooling between thermal and photovoltaic: An energy and economic comparative study in the Mediterranean conditions

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  • Noro, M.
  • Lazzarin, R.M.

Abstract

This paper considers different cooling systems and investigates the most promising alternatives when solar energy is to be used to supply the cooling demand. All the systems are evaluated during a summer cooling season by the energetic and economic point of view by dynamic simulation for two different climates. For Milan (Cfb climate) the highest OSE (overall system efficiency) is reached by LiBr (lithium-bromide) double effect absorption chiller driven by parabolic through collector (0.53). In terms of the collecting surface area, the best systems for Milan feature 0.08 m2 MJ−1 per day both for electric system (mono-crystalline photovoltaic coupled to water cooled chiller) and thermal system (PTC (parabolic trough collectors) coupled to double effect water-LiBr absorption chiller). Southern latitudes like Trapani (Csa climate) allow a quite better performance for thermal solar cooling solutions. The NPV (net present worths) of electric solar cooling solutions are favorable with respect to the traditional solution and the DPV (discounted payback periods) are all lower than the period of economic analysis above all for water cooled chillers. Finally a sensitivity analysis of the specific investment cost (€ MJ−1 per day) is carried out regarding the investment cost of collectors, the solar ratio and the interest rate.

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  • Noro, M. & Lazzarin, R.M., 2014. "Solar cooling between thermal and photovoltaic: An energy and economic comparative study in the Mediterranean conditions," Energy, Elsevier, vol. 73(C), pages 453-464.
    • Handle: RePEc:eee:energy:v:73:y:2014:i:c:p:453-464
    DOI: 10.1016/j.energy.2014.06.035
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