Search for dissertations about: "Phase change material in thermal energy storage"
Showing result 1 - 5 of 14 swedish dissertations containing the words Phase change material in thermal energy storage.
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1. Phase Equilibrium-aided Design of Phase Change Materials from Blends : For Thermal Energy Storage
Abstract : Climate change is no longer imminent but eminent. To combat climate change, effective, efficient and smart energy use is imperative. Thermal energy storage (TES) with phase change materials (PCMs) is one attractive choice to realize this. READ MORE
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2. Heat Transfer Aspects of Using Phase Change Material in Thermal Energy Storage Applications
Abstract : Innovative methods for providing sustainable heating and cooling through thermal energy storage (TES) have gained increasing attention as heating and cooling demands in the built environment continue to climb. As energy prices continue to soar and systems reach their maximal capacity, there is an urgent need for alternatives to alleviate peak energy use. READ MORE
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3. Latent Heat Thermal Energy Storage for Indoor Comfort Control
Abstract : Equating Earth’s existence to 24 hours, we, the Homo sapiens, came about in the last four seconds. Fossil fuel came to our knowledge with mass extraction dating from the Industrial Revolution two centuries ago, in other words 4 milliseconds out of Earth’s 24-hour equivalent lifetime. READ MORE
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4. Design of Thermal Energy Storage with Phase Change Materials - Investigations within Material, Device and System Scale
Abstract : The addition of a thermal energy storage (TES) into a process allows the operator to store and release thermal energy on demand. This increased process flexibility leads to potential benefits such as shifting energy demand from peak to off-peak hours. READ MORE
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5. On the Design Considerations for Thermal Energy Storage with Phase Change Materials: Material Characterization and Modelling
Abstract : Integrating thermal energy storage (TES) technologies to a process enables storing and releasing thermal energy on demand. Depending on the implementation, this may lead to economic and ecological improvements, e.g. by shifting the peak demand to off-peak hours or by increasing the share of utilized renewable energy. READ MORE