Multicriteria Analysis of a Solar-Assisted Space Heating Unit with a High-Temperature Heat Pump for the Greek Climate Conditions

Evangelos Bellos; Panagiotis Lykas; Dimitrios Tsimpoukis; Dimitrios N. Korres; Angeliki Kitsopoulou; Michail Gr. Vrachopoulos; Christos Tzivanidis

doi:10.3390/app13064066

Applied Sciences (Mar 2023)

Multicriteria Analysis of a Solar-Assisted Space Heating Unit with a High-Temperature Heat Pump for the Greek Climate Conditions

Evangelos Bellos,
Panagiotis Lykas,
Dimitrios Tsimpoukis,
Dimitrios N. Korres,
Angeliki Kitsopoulou,
Michail Gr. Vrachopoulos,
Christos Tzivanidis

Affiliations

Evangelos Bellos: Department of Thermal Engineering, School of Mechanical Engineering, National Technical University of Athens, 15780 Athens, Greece
Panagiotis Lykas: Department of Thermal Engineering, School of Mechanical Engineering, National Technical University of Athens, 15780 Athens, Greece
Dimitrios Tsimpoukis: Energy and Environmental Research Laboratory, Core Department, National and Kapodistrian University of Athens, 34400 Psachna, Greece
Dimitrios N. Korres: Department of Thermal Engineering, School of Mechanical Engineering, National Technical University of Athens, 15780 Athens, Greece
Angeliki Kitsopoulou: Department of Thermal Engineering, School of Mechanical Engineering, National Technical University of Athens, 15780 Athens, Greece
Michail Gr. Vrachopoulos: Energy and Environmental Research Laboratory, Core Department, National and Kapodistrian University of Athens, 34400 Psachna, Greece
Christos Tzivanidis: Department of Thermal Engineering, School of Mechanical Engineering, National Technical University of Athens, 15780 Athens, Greece

DOI: https://doi.org/10.3390/app13064066
Journal volume & issue: Vol. 13, no. 6
p. 4066

Abstract

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The goal of this investigation is the thorough analysis and optimization of a solar-assisted heat pump heating unit for covering the space heating demand for a building in Athens, Greece. The novelty of the studied system is the use of a high-temperature heat pump that can operate with radiative terminal units, leading to high thermal comfort standards. The examined system includes flat-plate solar thermal collectors, an insulated thermal storage tank, auxiliary electrical thermal resistance in the tank and a high-temperature heat pump. The economic optimization indicates that the optimal design includes 35 m2 of solar thermal collectors connected with a storage tank of 2 m3 for facing the total heating demand of 6785 kWh. In this case, the life cycle cost was calculated at 22,694 EUR, the seasonal system coefficient of performance at 2.95 and the mean solar thermal efficiency at 31.60%. On the other hand, the multi-objective optimization indicates the optimum design is the selection of 50 m2 of solar field connected to a thermal tank of 3 m3. In this scenario, the life cycle cost was calculated at 24,084 EUR, the seasonal system coefficient of performance at 4.07 and the mean solar thermal efficiency at 25.33%.

Published in Applied Sciences

ISSN: 2076-3417 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Engineering (General). Civil engineering (General); Science: Biology (General); Science: Physics; Science: Chemistry
Website: http://www.mdpi.com/journal/applsci

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