Thermoeconomic analysis and optimization of high efficiency solar heating and cooling systems for different Italian school buildings and climates

Thermoeconomic analysis and optimization of high efficiency solar heating and cooling systems for different Italian school buildings and climates

The paper investigates the energetic and economic feasibility of a solar-assisted heating and cooling system (SHC) for different types of school buildings and Italian climates. The SHC system under investigation is based on the coupling of evacuated solar collectors with a single-stage LiBr–H 2O abs...

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Bibliographic Details
Published in:Energy and buildings Vol. 42; no. 7; pp. 992 - 1003
Main Author: Calise, F.
Format: Journal Article
Language:English
Published: Oxford Elsevier B.V 01-07-2010
Elsevier
Subjects:
Absorption chiller
Applied sciences
Building technical equipments
Buildings
Buildings. Public works
Cooling systems
Dynamic simulation
Dynamical systems
Dynamics
Economics
Education and research facilities
Environmental engineering
Evacuated collectors
Exact sciences and technology
Heating
Mathematical models
Profitability
Renewable energy
School buildings
Solar energy
Types of buildings
Italy
Europe
Dynamic simulation
Renewable energy
Evacuated collectors
Absorption chiller
Solar energy
Economic analysis
Chiller
Solar heating
Optimization
Case study
Absorption
System description
Educational facility
Cooling system
Collector
Numerical simulation
Thermal analysis
Dynamic model
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Summary:The paper investigates the energetic and economic feasibility of a solar-assisted heating and cooling system (SHC) for different types of school buildings and Italian climates. The SHC system under investigation is based on the coupling of evacuated solar collectors with a single-stage LiBr–H 2O absorption chiller; auxiliary energy for both heating and cooling is supplied by an electric-driven reversible heat pump. The SHC system was coupled with different types of school buildings located in three different Italian climatic zones. The analysis is carried out by means of a zero-dimensional transient simulation model, developed using the TRNSYS software; the analysis of the dynamic behaviour of the building was also included. An economic model is proposed, in order to assess the operating and capital costs of the systems under analysis. Furthermore, a parametric analysis and a subsequent mixed heuristic-deterministic optimization algorithm was implemented, in order to determine the set of the synthesis/design variables that maximize system profitability. The results are encouraging, as for the potential of energy saving. On the contrary, the SHC economic profitability can be achieved only in case of public funding policies (e.g. feed-in tariffs), as always happens for the great majority of renewable energy systems.
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ISSN:0378-7788
DOI:10.1016/j.enbuild.2010.01.011