Life Cycle Assessment of Thermosyphon and PV Hot Water Systems Under the Same Operating Con-ditions in a Side-by-Side Experimental Setup in Na-mibia: Initial Results and Data Comparison with Ex-isting Similar Installations

Description

The global demand for hot water is increasing, driving a shift towards solar technologies. Na-mibia, aligning with emission reduction goals, plans to replace electric boilers with solar ther-mal and PV2Heat systems, emphasizing cost efficiency. This study focuses on providing eco-performance data for solar hot water systems, specifically thermosiphon and PV systems. Three systems in a container at the NUST Science and Technology Park are being compared, with commissioning scheduled for 2024. Preliminary eco-performance data will be derived from initial monitoring, followed by a comprehensive life cycle assessment (LCA). The study envisions a straightforward process in generating input data for the LCA, including perfor-mance data. Determining the levelized cost of electricity (LCOE) for economic comparison is a key aspect. While leveraging existing data from previous works, it acknowledges the limita-tions in estimating expected eco-performance indicators. The study aims for a direct LCA and eco-performance comparison between solar thermal and photovoltaic-based systems, contrib-uting to Namibia's sustainable energy strategy.

Period	10 Apr 2024
Event title	ISEC - 3rd International Sustainable Energy Conference
Event type	Conference
Location	AustriaShow on map