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10 Advances in Thermal Energy Storage Systems Table 1.7 Comparison of different storage technologies for solar space heating and hot water production applications Sensible heat storage Latent heat thermal storage material (PCM) Water Rock Comparison between different heat storage media Operating temperature range Limited (0–100°C) Large Large, depending on the choice of the material Specific heat High Low Medium Thermal conductivity Low convection effects improve the heat transfer rate Low Very low, insulating properties Thermal storage capacity per unit mass and volume for small temperature differences Low Low High Stability to thermal cycling Good Good Insufficient data A vailability Overall Almost overall Dependent on the choice of material Cost Inexpensive Inexpensive Expensive Comparison of heat transfer properties and life of different types of thermal storage Required heat exchanger geometry Simple Simple Complex Temperature gradients during charging and discharging Large Large Small Thermal stratification effect Existent works positively Existent works positively Generally non- existent with proper choice of material Simultaneous charging and discharging Possible Not possible Possible with appropriate selection of heat exchanger Integration with solar heating/cooling systems Direct integration with water systems Direct integration with air systems Indirect integration Costs for pumps, fans, etc. Low High Low Corrosion with conventional materials of construction Corrosion eliminated through corrosion inhibitors Non-corrosive Presently only limited information available Life Long Long Short Source: [3]PDF Image | Introduction to thermal energy storage TES systems
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