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3. Improved thermal energy storage for nearly zero energy buildings with PCM integrationRok Stropnik, Rok Koželj, Eva Zavrl, Uroš Stritih, 2019, original scientific article Keywords: thermal energy storage, phase change materials, PCM, net zero energy buildings, nZEB, experimental analysis, HEART toolkit
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4. Phase-change materials in hydronic heating and cooling systemsRok Koželj, Eneja Osterman, Fabrizio Leonforte, Claudio Del Pero, Alessandro Miglioli, Eva Zavrl, Rok Stropnik, Niccolò Aste, Uroš Stritih, 2020, original scientific article Keywords: PCM thermal storage, latent thermal storage, latent heat storage, PCMs in hydronic systems, PCMs for heating, PCMs for cooling, PCM heat storage, PCM cold storage, PCM maturity, TRL of PCM
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6. Improvement of thermal energy storage with PCM within EU project Holistic Energy and Architectural Retrofit Toolkit (HEART)Rok Koželj, Davor Švajger, Vid Vidic, Eva Zavrl, Uroš Stritih, 2019, published scientific conference contribution Keywords: retrofit, building energy performance, phase change materials, latent thermal energy storage
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7. An experimental and numerical analysis of an improved thermal storage tank with encapsulated PCM for use in retrofitted buildings for heatingRok Koželj, Urška Mlakar, Eva Zavrl, Uroš Stritih, Rok Stropnik, 2021, original scientific article Keywords: PCM in water tank, PCM in water systems, active PCM storage, encapsulated PCMs, latent heat storage, enhanced heat storage, improved water tank
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8. Experimental testing system for adsorption space heatingUrška Mlakar, Rok Koželj, Alenka Ristić, Uroš Stritih, 2024, original scientific article Keywords: sorption heat storage, space heating, water vapour, humid air, zeolite 13X, zeolite NaYBFK
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